CANTILEVER UMBRELLA

Abstract

Disclosed are example embodiments of a 5-device-in-one component box including a plurality of cranking-arm-wrench storage clips respectively molded onto said undersurface of a multi-function loss-preventing storing-and-organizing lid-tray. The box includes a multi-link crank control arm wrench snap, a plurality of ground-securing-and-leveling-screws storage cavities, a plurality of Allen-wrench storage cavities; a plurality of Allen wrenches; a plurality of screws respectively stacked inside a second base-plate cover; a compartmentalized loss-preventing storing-and-organizing inner-tray, a plurality of louver end-caps, a plurality of crank-handle-coupler storage-stem molded onto said compartmentalized loss-preventing storing-and-organizing inner-tray, a crank-handle coupler snap-locked onto said crank-handle-coupler storage-stem, a plurality of compression-locking-plates storage compartments, a plurality of compression-locking plates respectively inserted and secured to said compression-locking-plates storage compartments; a plurality of drill-bit clips respectively molded onto said compartmentalized loss-preventing storing-and-organizing inner-tray; a drill bit snap-locked between said drill-bit clips; and fourth base-plate cover stacked right side up on said third base-plate cover.

Claims

1. A combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, comprising: an arthritic-assisting anti-vibration anti-friction portable handle-elevator having a lower section and an upper section; a plurality of arthritic-assisting anti-vibration anti-friction handle-elevator-tracks molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting anti-vibration anti-friction portable roller-elevator having an inner side and an opposite inner side, said arthritic-assisting anti-vibration anti-friction portable roller-elevator inserted into and secured within said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a plurality of roller openings formed into said inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a plurality of roller axels; a plurality of arthritic-assisting anti-vibration anti-friction portable rollers respectively slid on said roller axels, said roller axels rotatably respectively snap-locked into said roller openings; an arthritic-assisting raising angle-handle formed onto said lower section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting lowering angle-handle formed onto said upper section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-elevator stabilizer attached to said opposite inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; an arthritic-assisting multi-elevator-locking lock compressed onto said multi-elevator stabilizer; an arthritic-assisting multi-elevator-locking hand-knob compressed onto said multi-elevator stabilizer; a multi-elevator-locking screw inserted through said arthritic-assisting anti-vibration anti-friction portable handle-elevator, said arthritic-assisting anti-vibration anti-friction portable roller-elevator, and said multi-elevator stabilizer; a multi-elevator-locking nut threadedly secured to said multi-elevator-locking screw; a multi-function joint molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-function track pole slidably secured to said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a multi-function screw rivet secured to said multi-function joint; first production-increasing anti-slipping anti-cracking opposite-twisting jaw having first upper bottom-edge, first lower bottom-edge, and a first back; first upper-elevation twistable tube molded to said first upper bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; first lower-elevation twistable tube molded to said first lower bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second production-increasing anti-slipping anti-cracking opposite-twisting jaw having second upper bottom-edge, second lower bottom-edge, and a second back; second upper-elevation twistable tube molded to said second upper bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; second lower-elevation twistable tube molded to said second lower bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; first reinforcing twistable ribs respectively molded to said first back of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second reinforcing twistable ribs respectively molded to said second back of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; two first twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two second twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; first twist-spreading spring fitted in said two first twist-spreading-spring housings; second twist-spreading spring fitted in said two second twist-spreading-spring housings; first anti-slipping twist-clamping threads respectively formed in said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second anti-slipping twist-clamping threads respectively formed in said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; an opposite-twisting-jaw-housing tunnel slid on and around said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two opposite-twisting-jaw-securing holes respectively drilled into said opposite-twisting-jaw-housing tunnel; first multi-elevation-twisting-tube screw screwed through one of said two opposite-twisting-jaw-securing holes, said first upper-elevation twistable tube, and said second lower-elevation twistable tube to secure; second multi-elevation-twisting-tube screw screwed through another one of said two opposite-twisting-jaw-securing holes, said first lower-elevation twistable tube, and said second upper-elevation twistable tube to secure; a hand-knob hole formed through said opposite-twisting-jaw-housing tunnel and through said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; an arthritic-assisting twist-clamping-jaw hand-knob inserted through said hand-knob hole; a hand-knob nut threadedly attached to said arthritic-assisting twist-clamping-jaw hand-knob; a threaded connector core threadedly connected to and between said first and said second anti-slipping twist-clamping threads such that said threaded connector core can be twistingly unclamped and clamped by said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; a pivoting connector pivotably attached to said multi-function screw rivet and said threaded connector core; two production-increasing cost-saving identical-half-base-bottoms having two edges, two other edges, an underside, two opposite angled edges, and a plurality of central crannies; a plurality of separation-preventing double-opposite-ridge-interlocks respectively molded to and along said edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of separation-preventing double-opposite-interpockets respectively molded to and along said other edges of said two production-increasing cost-saving identical-half-base-bottoms such that said separation-preventing double-opposite-ridge-interlocks are slidably and interlockingly inserted into said separation-preventing double-opposite-interpockets to interlock; respectively formed inside said two production-increasing cost-saving identical-half-base-bottoms; a plurality of brace slots respectively formed on said underside of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of base-supporting braces respectively inserted into said brace slots and screwed to said two production-increasing cost-saving identical-half-base-bottoms; a plurality of roller slots respectively formed on and along said two opposite angled edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of angle-operated edge rollers respectively snap-locked in said roller slots; a caster chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms; a caster mount screwed to said caster chamber; a caster leg secured to said caster mount; a caster-leg-wrenching recess formed into said caster leg; an adjustable-hidable angle-operated caster secured to said caster leg; a crank chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms, and on said underside of said two production-increasing cost-saving identical-half-base-bottoms; a crank core having two opposite ends and a groove; two deployable-retractable crank-handle-and-bolt-locks respectively slidably secured to said two opposite ends of said crank core; two sleeve covers respectively slid onto said two deployable-retractable crank-handle-and-bolt-locks; a removable-hidable wrench removably concealed within said groove on crank core; two production-increasing cost-saving identical-half-base-tops having a plurality of taps, said taps respectively snap-inserted into said central crannies of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of pole-mounting-hole stems respectively molded inside said two production-increasing cost-saving identical-half-base-bottoms, said multi-function track pole and said two production-increasing cost-saving identical-half-base-tops screwed to said pole-mounting-hole stems to be secured to said two production-increasing cost-saving identical-half-base-bottoms; a crank-storing extra-umbrella-pole-locking hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said crank chamber; a caster-leg hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said caster chamber; and a crank-storing-hole plug twist-locked inside said caster-leg hole.

2. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said arthritic-assisting anti-vibration anti-friction portable handle-elevator is made of the material of metal or plastic.

3. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said arthritic-assisting anti-vibration anti-friction portable roller-elevator is made of the material of metal or plastic.

4. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said arthritic-assisting anti-vibration anti-friction handle-elevator-tracks are each made of the material of metal or plastic.

5. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: further comprising a cord-cranking mechanism attached to said opposite-twisting-jaw-housing tunnel such that said cord-cranking mechanism can ratchetedly wind and unwind a cord inside said opposite-twisting-jaw-housing tunnel.

6. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said first upper-elevation and said first lower-elevation twistable tubes and said second upper-elevation and said second lower-elevation twistable tubes are each made of the material of metal or plastic.

7. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said interlocking separation-preventing double-opposite-ridge-interlocks may each be made of the material of metal or plastic.

8. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said two deployable-retractable crank-handle-and-bolt-locks are each made of the material of metal or plastic.

9. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, of claim 1: wherein said separation-preventing double-opposite-interpockets are each made of the material of rubber, metal, or plastic.

10. A combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, comprising: an arthritic-assisting anti-vibration anti-friction portable handle-elevator having a lower section and an upper section; a plurality of arthritic-assisting anti-vibration anti-friction handle-elevator-tracks molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting anti-vibration anti-friction portable roller-elevator having an inner side and an opposite inner side, said arthritic-assisting anti-vibration anti-friction portable roller-elevator inserted into and secured within said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a plurality of roller openings formed into said inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a plurality of roller axels; a plurality of arthritic-assisting anti-vibration anti-friction portable rollers respectively slid on said roller axels, said roller axels rotatably respectively snap-locked into said roller openings; an arthritic-assisting raising angle-handle formed onto said lower section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting lowering angle-handle formed onto said upper section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-elevator stabilizer attached to said opposite inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; an arthritic-assisting multi-elevator-locking lock compressed onto said multi-elevator stabilizer; an arthritic-assisting multi-elevator-locking hand-knob compressed onto said multi-elevator stabilizer; a multi-elevator-locking screw inserted through said arthritic-assisting anti-vibration anti-friction portable handle-elevator, said arthritic-assisting anti-vibration anti-friction portable roller-elevator, and said multi-elevator stabilizer; a multi-elevator-locking nut threadedly secured to said multi-elevator-locking screw; a multi-function joint molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-function track pole slidably secured to said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a multi-function screw rivet secured to said multi-function joint; first production-increasing anti-slipping anti-cracking opposite-twisting jaw having first upper bottom-edge, first lower bottom-edge, and a first back; first upper-elevation twistable tube molded to said first upper bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; first lower-elevation twistable tube molded to said first lower bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second production-increasing anti-slipping anti-cracking opposite-twisting jaw having second upper bottom-edge, second lower bottom-edge, and a second back; second upper-elevation twistable tube molded to said second upper bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; second lower-elevation twistable tube molded to said second lower bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; two first twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two second twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; first twist-spreading spring fitted in said two first twist-spreading-spring housings; second twist-spreading spring fitted in said two second twist-spreading-spring housings; first anti-slipping twist-clamping threads respectively formed in said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second anti-slipping twist-clamping threads respectively formed in said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; an opposite-twisting-jaw-housing tunnel slid on and around said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two opposite-twisting-jaw-securing holes respectively drilled into said opposite-twisting-jaw-housing tunnel; first multi-elevation-twisting-tube screw screwed through one of said two opposite-twisting-jaw-securing holes, said first upper-elevation twistable tube, and said second lower-elevation twistable tube to secure; second multi-elevation-twisting-tube screw screwed through another one of said two opposite-twisting-jaw-securing holes, said first lower-elevation twistable tube, and said second upper-elevation twistable tube to secure; a hand-knob hole formed through said opposite-twisting-jaw-housing tunnel and through said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; an arthritic-assisting twist-clamping-jaw hand-knob inserted through said hand-knob hole; a hand-knob nut threadedly attached to said arthritic-assisting twist-clamping-jaw hand-knob; a threaded connector core threadedly connected to and between said first and said second anti-slipping twist-clamping threads such that said threaded connector core can be twistingly unclamped and clamped by said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; a pivoting connector pivotably attached to said multi-function screw rivet and said threaded connector core; two production-increasing cost-saving identical-half-base-bottoms having two edges, two other edges, an underside, two opposite angled edges, and a plurality of central crannies; a plurality of separation-preventing double-opposite-ridge-interlocks respectively molded to and along said edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of separation-preventing double-opposite-interpockets respectively molded to and along said other edges of said two production-increasing cost-saving identical-half-base-bottoms such that said separation-preventing double-opposite-ridge-interlocks are slidably and interlockingly inserted into said separation-preventing double-opposite-interpockets to interlock; a plurality of weight compartments respectively formed inside said two production-increasing cost-saving identical-half-base-bottoms; a plurality of brace slots respectively formed on said underside of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of base-supporting braces respectively inserted into said brace slots and screwed to said two production-increasing cost-saving identical-half-base-bottoms; a plurality of roller slots respectively formed on and along said two opposite angled edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of angle-operated edge rollers respectively snap-locked in said roller slots; a caster chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms; a caster mount screwed to said caster chamber; a caster leg secured to said caster mount; a caster-leg-wrenching recess formed into said caster leg; an adjustable-hidable angle-operated caster secured to said caster leg; a crank chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms, and on said underside of said two production-increasing cost-saving identical-half-base-bottoms; a crank core having two opposite ends and a groove; two deployable-retractable crank-handle-and-bolt-locks respectively slidably secured to said two opposite ends of said crank core; two sleeve covers respectively slid onto said two deployable-retractable crank-handle-and-bolt-locks; a removable-hidable wrench removably concealed within said groove on crank core; two production-increasing cost-saving identical-half-base-tops having a plurality of taps, said taps respectively snap-inserted into said central crannies of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of pole-mounting-hole stems respectively molded inside said two production-increasing cost-saving identical-half-base-bottoms, said multi-function track pole and said two production-increasing cost-saving identical-half-base-tops screwed to said pole-mounting-hole stems to be secured to said two production-increasing cost-saving identical-half-base-bottoms; a crank-storing extra-umbrella-pole-locking hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said crank chamber; a caster-leg hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said caster chamber; and a crank-storing-hole plug twist-locked inside said caster-leg hole.

11. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting anti-vibration anti-friction portable handle-elevator is made of the material of metal or plastic.

12. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting anti-vibration anti-friction portable roller-elevator is made of the material of metal or plastic.

13. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting anti-vibration anti-friction handle-elevator-tracks are each made of the material of metal or plastic.

14. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting anti-vibration anti-friction portable rollers are each made of the material of rubber, metal, or plastic.

15. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting raising angle-handle is made of the material of metal or plastic.

16. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said arthritic-assisting lowering angle-handle is made of the material of metal or plastic.

17. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said multi-elevator stabilizer is made of the material of metal or plastic.

18. The combination of five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base of claim 10: wherein said multi-function joint is made of the material of metal or plastic.

19. A combination of five-device-in-one arthritic-assisting portable elevators, twisting jaws, and uneven base comprising: an arthritic-assisting anti-vibration anti-friction portable handle-elevator having a lower section and an upper section; a plurality of arthritic-assisting anti-vibration anti-friction handle-elevator-tracks molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting anti-vibration anti-friction portable roller-elevator having an inner side and an opposite inner side, said arthritic-assisting anti-vibration anti-friction portable roller-elevator inserted into and secured within said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a plurality of roller openings formed into said inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a plurality of roller axels; a plurality of arthritic-assisting anti-vibration anti-friction portable rollers respectively slid on said roller axels, said roller axels rotatably respectively snap-locked into said roller openings; an arthritic-assisting raising angle-handle formed onto said lower section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; an arthritic-assisting lowering angle-handle formed onto said upper section of arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-elevator stabilizer attached to said opposite inner side of said arthritic-assisting anti-vibration anti-friction portable roller-elevator; an arthritic-assisting multi-elevator-locking lock compressed onto said multi-elevator stabilizer; an arthritic-assisting multi-elevator-locking hand-knob compressed onto said multi-elevator stabilizer; a multi-elevator-locking screw inserted through said arthritic-assisting anti-vibration anti-friction portable handle-elevator, said arthritic-assisting anti-vibration anti-friction portable roller-elevator, and said multi-elevator stabilizer; a multi-elevator-locking nut threadedly secured to said multi-elevator-locking screw; a multi-function joint molded to said arthritic-assisting anti-vibration anti-friction portable handle-elevator; a multi-function track pole slidably secured to said arthritic-assisting anti-vibration anti-friction portable roller-elevator; a multi-function screw rivet secured to said multi-function joint; first production-increasing anti-slipping anti-cracking opposite-twisting jaw having first upper bottom-edge, first lower bottom-edge, and a first back; first upper-elevation twistable tube molded to said first upper bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; first lower-elevation twistable tube molded to said first lower bottom-edge of said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second production-increasing anti-slipping anti-cracking opposite-twisting jaw having second upper bottom-edge, second lower bottom-edge, and a second back; second upper-elevation twistable tube molded to said second upper bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; second lower-elevation twistable tube molded to said second lower bottom-edge of said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; two first twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two second twist-spreading-spring housings respectively formed in said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; first twist-spreading spring fitted in said two first twist-spreading-spring housings; second twist-spreading spring fitted in said two second twist-spreading-spring housings; first anti-slipping twist-clamping threads respectively formed in said first production-increasing anti-slipping anti-cracking opposite-twisting jaw; second anti-slipping twist-clamping threads respectively formed in said second production-increasing anti-slipping anti-cracking opposite-twisting jaw; an opposite-twisting-jaw-housing tunnel slid on and around said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; two opposite-twisting-jaw-securing holes respectively drilled into said opposite-twisting-jaw-housing tunnel; first multi-elevation-twisting-tube screw screwed through one of said two opposite-twisting-jaw-securing holes, said first upper-elevation twistable tube, and said second lower-elevation twistable tube to secure; second multi-elevation-twisting-tube screw screwed through another one of said two opposite-twisting-jaw-securing holes, said first lower-elevation twistable tube, and said second upper-elevation twistable tube to secure; a hand-knob hole formed through said opposite-twisting-jaw-housing tunnel and through said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; an arthritic-assisting twist-clamping-jaw hand-knob inserted through said hand-knob hole; a hand-knob nut threadedly attached to said arthritic-assisting twist-clamping-jaw hand-knob; a threaded connector core threadedly connected to and between said first and said second anti-slipping twist-clamping threads such that said threaded connector core can be twistingly unclamped and clamped by said first and said second production-increasing anti-slipping anti-cracking opposite-twisting jaws; a pivoting connector pivotably attached to said multi-function screw rivet and said threaded connector core; two production-increasing cost-saving identical-half-base-bottoms having two edges, two other edges, an underside, two opposite angled edges, and a plurality of central crannies; a plurality of separation-preventing double-opposite-ridge-interlocks respectively molded to and along said edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of separation-preventing double-opposite-interpockets respectively molded to and along said other edges of said two production-increasing cost-saving identical-half-base-bottoms such that said separation-preventing double-opposite-ridge-interlocks are slidably and interlockingly inserted into said separation-preventing double-opposite-interpockets to interlock; a plurality of weight compartments respectively formed inside said two production-increasing cost-saving identical-half-base-bottoms; a plurality of brace slots respectively formed on said underside of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of base-supporting braces respectively inserted into said brace slots and screwed to said two production-increasing cost-saving identical-half-base-bottoms; a plurality of roller slots respectively formed on and along said two opposite angled edges of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of angle-operated edge rollers respectively snap-locked in said roller slots; a caster chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms; a caster mount screwed to said caster chamber; a caster leg secured to said caster mount; a caster-leg-wrenching recess formed into said caster leg; an adjustable-hidable angle-operated caster secured to said caster leg; a crank chamber formed in and between said two production-increasing cost-saving identical-half-base-bottoms, and on said underside of said two production-increasing cost-saving identical-half-base-bottoms; two production-increasing cost-saving identical-half-base-tops having a plurality of taps, said taps respectively snap-inserted into said central crannies of said two production-increasing cost-saving identical-half-base-bottoms; a plurality of pole-mounting-hole stems respectively molded inside said two production-increasing cost-saving identical-half-base-bottoms, said multi-function track pole and said two production-increasing cost-saving identical-half-base-tops screwed to said pole-mounting-hole stems to be secured to said two production-increasing cost-saving identical-half-base-bottoms; a crank-storing extra-umbrella-pole-locking hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said crank chamber; a caster-leg hole formed in and between said two production-increasing cost-saving identical-half-base-tops and engaged with said caster chamber; and a crank-storing-hole plug twist-locked inside said caster-leg hole.

20. The combination of five-device-in-one arthritic-assisting portable elevators, twisting jaws, and uneven base of claim 19, wherein said multi-elevator stabilizer is made of the material of metal or plastic.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0080] The foregoing summary, as well as the following detailed description, is better understood when read in conjunction with the accompanying drawings. The accompanying drawings, which are incorporated herein and form part of the specification, illustrate a plurality of embodiments and, together with the description, further serve to explain the principles involved and to enable a person skilled in the relevant art(s) to make and use the disclosed technologies.

[0081] FIG. 1A-FIG. 39 are diagrams illustrating perspective, top, and side views demonstrating components and the assembly of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106.

[0082] FIG. 40-FIG. 48 are diagrams illustrating perspective, top, and side views demonstrating components and the assembly of arthritic-assisting anti-vibration anti-friction anti-pinching track system 101.

[0083] FIG. 49 and FIG. 50 are diagrams illustrating perspective views demonstrating the raising and lowering of Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106.

[0084] FIG. 51-FIG. 57 are diagrams illustrating perspective views demonstrating how an arthritic could raise and lower arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 without the need to bend the fingers.

[0085] FIG. 58-FIG. 62 are diagrams illustrating perspective views demonstrating how the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators (being used on an umbrella post, handrail, sail pole, awning arm, and pergola column).

[0086] FIG. 63 are diagrams illustrating a perspective view demonstrating components and the assembly of 5-device-in-one anti-slipping anti-cracking opposite-twisting-jaw system 121.

[0087] FIG. 64-FIG. 68 are diagrams illustrating perspective views demonstrating additional applications of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws.

[0088] FIG. 69-FIG. 74 are diagrams illustrating side and top views demonstrating various components and functions of 5-device-in-one anti-slipping anti-cracking opposite-twisting-jaw system 121.

[0089] FIG. 75-FIG. 83 are diagrams illustrating side and perspective views demonstrating components and assembly of multi-elevation twistable-tube system 130.

[0090] FIG. 84 are diagrams illustrating a perspective view demonstrating multi-application pivoting-connector system 143.

[0091] FIG. 85-FIG. 108 are diagrams illustrating perspective, front, side, and top views demonstrating components, assemblies, and function of opposite-twisting-jaw-housing tunnel system 146.

[0092] FIG. 109-FIG. 120 are diagrams illustrating perspective, top, and side views demonstrating various functions of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws.

[0093] FIG. 121-FIG. 124 are diagrams illustrating perspective and side views demonstrating deployable-hidable crank-and-bolt-lock system 170 for locking production-increasing cost-saving identical-half-base-bottom system 155 to a patio or platform.

[0094] FIG. 125-FIG. 130 are diagrams illustrating side, top, and perspective views demonstrating how production-increasing cost-saving identical-half-base-bottom system 155 can sit on two different elevations at the same time.

[0095] FIG. 131 and FIG. 132 are diagrams illustrating side views demonstrating adjustable-hidable angle-operated caster system 164 being able to be adjusted to different tilted heights to work together with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving.

[0096] FIG. 133-FIG. 172 are diagrams illustrating perspective, top, and side views demonstrating the components of production-increasing cost-saving identical-half-base-top system 150 and production-increasing cost-saving identical-half-base-bottom system 155.

[0097] FIG. 173-FIG. 184 are diagrams illustrating perspective, bottom, and side views demonstrating the components of adjustable-hidable angle-operated caster system 164.

[0098] FIG. 185-FIG. 195 are diagrams illustrating perspective and side views demonstrating the components of deployable-hidable crank-and-bolt-lock system 170.

[0099] FIG. 196-FIG. 197 are diagrams illustrating side views demonstrating adjustable-hidable angle-operated caster system 164 being able to be adjusted to different tilted heights to work together with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving.

[0100] FIG. 198-FIG. 201 are diagrams illustrating perspective and side views demonstrating how deployable-hidable crank-and-bolt-lock system 170 deploys crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to secure the 5-device-in-one base to the patio or deck.

[0101] FIG. 202-FIG. 206 are diagrams illustrating perspective and side views demonstrating how production-increasing cost-saving identical-half-base-bottom system 155 can sit on two different elevations at the same time (for example, a platform and the ground, a staircase, or a truck bed and a truck bumper).

[0102] FIG. 207-FIG. 239 are diagrams illustrating perspective views of equivalent variations the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators.

[0103] FIG. 240-FIG. 249 are diagrams illustrating perspective views equivalent applications of the five-device-in-onhritic-assisting anti-vibration anti-friction anti-pinching portable elevators (being used on an umbrella post, hand rail, sail pole, awning arm, and pergola column).

[0104] FIG. 250-FIG. 291 are diagrams illustrationing equivalent variations and applications of components and functions of five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws.

[0105] FIG. 292-FIG. 296 are diagrams illustrating top, side and perspective views demonstrating equivalent applications of the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, or weight base (For example, being used with a cantilever umbrella, a straight pole umbrella, and a pergola, a platform, a staircase, a truck, or a patio, respectively).

[0106] FIG. 297-FIG. 305 are diagrams illustrating perspective, side, and top views demonstrating equivalent variations of components for the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, or weight base.

[0107] The figures and the following description describe certain embodiments by way of illustration only. One skilled in the art will readily recognize from the following description that alternative embodiments of the structures and methods illustrated herein may be employed without departing from the principles described herein. Reference will now be made in detail to several embodiments, examples of which are illustrated in the accompanying figures. It is noted that wherever practicable similar or like reference numbers may be used in the figures to indicate similar or like functionality.

DETAILED DESCRIPTION

[0108] The detailed description set forth below in connection with the appended drawings is intended as a description of configurations and is not intended to represent the only configurations in which the concepts described herein may be practiced. The detailed description includes specific details for the purpose of providing a thorough understanding of various concepts. However, it will be apparent to those skilled in the art that these concepts may be practiced without these specific details. In some instances, well known structures and components are shown in block diagram form in order to avoid obscuring such concepts.

Disadvantages of the Prior Art

[0109] The prior art has failed to solve many problems associated with such umbrella, as follows: [0110] 1) No prior art mention or disclose any umbrella, having arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Therefore, the prior art of umbrella are not capable of eliminating the needs for an arthritic to fold and unfold his fingers to raise and lower arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 (see FIG. 51, FIG. 56, and FIG. 57); Not capable of securing and enclosing arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 10); Not capable of being used on umbrella post, hand rail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); and not capable of preventing an arthritic's hand from being pinched by multi-elevator stabilizer 113, arthritic-assisting anti-vibration anti-friction portable rollers 111, and roller axels 110 (see FIG. 51, FIG. 56, and FIG. 57). [0111] 2) No prior art mention or disclose any umbrella, having arthritic-assisting anti-vibration anti-friction handle-elevator-track 107b. Therefore, the prior art of umbrella are: not capable of sealing arthritic-assisting anti-vibration anti-friction portable rollers 111 to protect a user's hand or an arthritic's hand; and not capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 3). [0112] 3) No prior art mention or disclose any umbrella, having arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Therefore, the prior art of umbrella are: not capable of being used on umbrella post, hand rail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); Not capable of hiding arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 2); and Not capable of securing and organizing arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 11, FIG. 12, and FIG. 18). [0113] 4) No prior art mention or disclose any umbrella, having arthritic-assisting anti-vibration anti-friction portable rollers 111. Therefore, the prior art of umbrella are: not capable of assisting an arthritic in operating arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Not capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50). [0114] 5) No prior art mention or disclose any umbrella, having arthritic-assisting anti-vibration anti-friction back roller-tracks 102 and arthritic-assisting anti-vibration anti-friction front roller-tracks 103. Therefore, the prior art of umbrella are not capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 to assist an arthritic during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and not capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIGS. 50); and [0115] 6) No prior art mention or disclose any umbrella, having arthritic-assisting raising angle-handle 112a. Therefore, the prior art of umbrella are: not capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when raising arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Not capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0116] 7) No prior art mention or disclose any umbrella, having arthritic-assisting lowering angle-handle 112b. Therefore, the prior art of umbrella are not capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when lowering arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and not capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0117] 8) No prior art mention or disclose any umbrella, having first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Therefore, the prior art of umbrella are not Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp and to twistingly clamp threaded connector core 145 when turning arthritic-assisting twist-clamping-jaw hand-knob 141 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and not capable of twisting while being twistingly spread by first twist-spreading spring 126 and second twist-spreading spring 127 to twistingly unclamp threaded connector core 145 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74). [0118] 9) No prior art mention or disclose any umbrella, having first anti-slipping core-twist-clamping threads 128 and second anti-slipping core-twist-clamping threads 129. Therefore, the prior art of umbrella are not capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and not capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 (see FIG. 89). [0119] 10) No prior art mention or disclose any umbrella, having first upper-elevation twistable tube 131 and first lower-elevation twistable tube 132. Therefore, the prior art of umbrella are not capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and b) Not capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0120] 11) No prior art mention or disclose any umbrella, having second upper-elevation twistable tube 133 and second lower-elevation twistable tube 134. Therefore, the prior art of umbrella are not capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and not capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0121] 12) No prior art mention or disclose any umbrella, having first reinforcing twistable ribs 138 and second reinforcing twistable ribs 139. Therefore, the prior art of umbrella are not capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to allow 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and not capable of reinforcing 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to prevent them from cracking, and to securely unclamp and to securely clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74).

[0122] No prior art mention or disclose any umbrella, having arthritic-assisting twist-clamping-jaw hand-knob 141. Therefore, the prior art of umbrella are not capable of allowing an arthritic to eliminate the needs for folding his fingers when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113); and not capable of allowing an arthritic to eliminate pain when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113). [0123] 14) No prior art mention or disclose any umbrella, having 2 production-increasing cost-saving identical-half-base-bottoms 156. Therefore, the prior art of umbrella are not capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on 2 steps of a staircase, on a patio and a step, or on a truck bed and a truck bumper in the direction of arrow 207 (see FIG. 125-FIG. 130); and not capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on a platform and the ground to stabilize the platform) in the direction of arrow 207 (see FIG. 125-FIG. 130). [0124] 15) No prior art mention or disclose any umbrella, having 2 deployable-retractable crank-handle-and-bolt-locks 172. Therefore, the prior art of umbrella are not capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to secure the 5-device-in-one base to the patio or deck in the direction of arrow 206 (see FIG. 121-FIG. 124); not capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to prevent the wind from tipping or toppling the 5-device-in-one base in the direction of arrow 206 (see FIG. 121-FIG. 124); and not capable of being slidably deployed into 2 opposite handles to crank removable-hidable wrench 175 (see FIG. 131-FIG. 132, and FIG. 185-FIG. 188). [0125] 16) No prior art mention or disclose any umbrella, having adjustable-hidable angle-operated caster 166. Therefore, the prior art of umbrella are not capable of being adjusted to different tilted heights to mutually work with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 131-FIG. 132); and not capable of being adjusted to retract off the ground and hide completely inside caster chamber 165 for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131-FIG. 132). [0126] 17) No prior art mention or disclose any umbrella, having 6 separation-preventing double-opposite-ridge-interlocks 157a and 6 separation-preventing double-opposite-interpockets 157b. Therefore, the prior art of umbrella are not capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on 2 steps of a staircase, on a patio and a step, on a platform and the ground, on a truck be and a truck bumper, etc.) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, and FIG. 299); and not capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on a platform and the ground to stabilize the platform) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, and FIG. 299). [0127] 18) No prior art mention or disclose any umbrella, having removable-hidable wrench 175. Therefore, the prior art of umbrella are not capable of storing and hiding removable-hidable wrench 175 inside crank core 174 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location (see FIG. 185-FIG. 195); and Not capable of hiding and storing removable-hidable wrench 175 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries (see FIG. 121, FIG. 122, and FIG. 304). [0128] 19) No prior art mention or disclose any umbrella, having 6 angle-operated edge rollers 163. Therefore, the prior art of umbrella are not capable of tiltedly working together with adjustable-hidable angle-operated caster 166 when tilted by the tilting adjustment of adjustable-hidable angle-operated caster 166 to mutually elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167); and Not capable of adjustably staying off the ground for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167). [0129] 20) No prior art mention or disclose any umbrella, having crank-storing extra-umbrella-pole-locking hole 152. Therefore, the prior art of umbrella are not capable of storing and hiding deployable-hidable crank-and-bolt-lock system 170 inside crank-storing extra-umbrella-pole-locking hole 152 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location in the direction of arrow 206 (see FIG. 121-FIG. 124, FIG. 294); and not capable of hiding and storing deployable-hidable crank-and-bolt-lock system 170 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries in the direction of arrow 206 (see FIG. 121-FIG. 124, FIG. 294).

Objects and Advantages of the Invention

[0130] The present invention substantially departs from the conventional concepts and designs of the prior art. In doing so, the present invention provides five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base (for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base), having many new and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows: [0131] 1) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of eliminating the needs for an arthritic to fold and unfold his fingers to raise and lower arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 (see FIG. 51, FIG. 56, and FIG. 57); capable of securing and enclosing arthritic-assisting anti-vibration anti-friction anti-pinching portable roller-elevator 108 (see FIG. 10); capable of being used on umbrella post, hand rail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); and capable of preventing an arthritic's hand from being pinched by multi-elevator stabilizer 113, arthritic-assisting anti-vibration anti-friction portable rollers 111, and roller axels 110 (see FIG. 51, FIG. 56, and FIG. 57). [0132] 2) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction handle-elevator-track 107b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: capable of sealing arthritic-assisting anti-vibration anti-friction portable rollers 111 to protect a user's hand or an arthritic's hand. capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 3). [0133] 3) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of being used on umbrella post, hand rail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62) capable of hiding arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 2); and capable of securing and organizing arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 11, FIG. 12, and FIG. 18). [0134] 4) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable rollers 111. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of assisting an arthritic in operating arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50). [0135] 5) It is still a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction back roller-tracks 102 and arthritic-assisting anti-vibration anti-friction front roller-tracks 103. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 to assist an arthritic during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50). [0136] 6) It is yet still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting raising angle-handle 112a. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when raising arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0137] 7) It is yet still a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting lowering angle-handle 112b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when lowering arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0138] 8) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp and to twistingly clamp threaded connector core 145 when turning arthritic-assisting twist-clamping-jaw hand-knob 141 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and Capable of twisting while being twistingly spread by first twist-spreading spring 126 and second twist-spreading spring 127 to twistingly unclamp threaded connector core 145 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74). [0139] 9) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first anti-slipping core-twist-clamping threads 128 and second anti-slipping core-twist-clamping threads 129. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 (see FIG. 89). [0140] 10) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first upper-elevation twistable tube 131 and first lower-elevation twistable tube 132.

[0141] Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and b) Capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0142] 11) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having second upper-elevation twistable tube 133 and second lower-elevation twistable tube 134. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and Capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0143] 12) It is another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first reinforcing twistable ribs 138 and second reinforcing twistable ribs 139. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to allow 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Capable of reinforcing 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to prevent them from cracking, and to securely unclamp and to securely clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74). [0144] 13) It is still another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting twist-clamping-jaw hand-knob 141. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are Capable of allowing an arthritic to eliminate the needs for folding his fingers when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113); and Capable of allowing an arthritic to eliminate pain when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113). [0145] 14) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 2 production-increasing cost-saving identical-half-base-bottoms 156. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on 2 steps of a staircase, on a patio and a step, or on a truck bed and a truck bumper in the direction of arrow 207 (see FIG. 125-FIG. 130); and Capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on a platform and the ground to stabilize the platform) in the direction of arrow 207 (see FIG. 125-FIG. 130). [0146] 15) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 2 deployable-retractable crank-handle-and-bolt-locks 172. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to secure the 5-device-in-one base to the patio or deck in the direction of arrow 206 (see FIG. 121-FIG. 124); Capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to prevent the wind from tipping or toppling the 5-device-in-one base in the direction of arrow 206 (see FIG. 121-FIG. 124); and Capable of being slidably deployed into 2 opposite handles to crank removable-hidable wrench 175 (see FIG. 131-FIG. 132, and FIG. 185-FIG. 188). [0147] 16) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having adjustable-hidable angle-operated caster 166. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of being adjusted to different tilted heights to mutually work with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 11-FIG. 12); and Capable of being adjusted to retract off the ground and hide completely inside caster chamber 165 for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131-FIG. 132). [0148] 17) It is yet still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 6 separation-preventing double-opposite-ridge-interlocks 157a and 6 separation-preventing double-opposite-interpockets 157b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on 2 steps of a staircase, on a patio and a step, on a platform and the ground, on a truck be and a truck bumper, etc.) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, FIG. 299); and Capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on a platform and the ground to stabilize the platform) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, FIG. 299). [0149] 18) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having removable-hidable wrench 175. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of storing and hiding removable-hidable wrench 175 inside crank core 174 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location (see FIG. 185-FIG. 195); and Capable of hiding and storing removable-hidable wrench 175 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries (see FIG. 121, FIG. 122, and FIG. 304). [0150] 19) It is another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 6 angle-operated edge rollers 163. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base are: Capable of tiltedly working together with adjustable-hidable angle-operated caster 166 when tilted by the tilting adjustment of adjustable-hidable angle-operated caster 166 to mutually elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167); and Capable of adjustably staying off the ground for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167). [0151] 20) It is still another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having crank-storing extra-umbrella-pole-locking hole 152. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base: Capable of storing and hiding deployable-hidable crank-and-bolt-lock system 170 inside crank-storing extra-umbrella-pole-locking hole 152 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location in the direction of arrow 206 (see FIG. 121-FIG. 124, FIG. 294); and Capable of hiding and storing deployable-hidable crank-and-bolt-lock system 170 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries in the direction of arrow 206(see FIG. 121-FIG. 124, FIG. 294).

[0152] In an example embodiment, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base (for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base) comprise: Arthritic-assisting anti-vibration anti-friction anti-pinching track system, Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system, Anti-slipping anti-cracking opposite-twisting-jaw system, Multi-elevation twistable-tube system, Anti-crack reinforcing twistable-rib system, Multi-application pivoting-connector system, Opposite-twisting-jaw-housing tunnel system, Production-increasing cost-saving identical-half-base-top system, Production-increasing cost-saving identical-half-base-bottom system, Adjustable-hidable angle-operated caster system; and Deployable-hidable crank-and-bolt-lock system.

Component

[0153] Referring to FIG. 1A-FIG. 206:

Component

[0154] In an example embodiment, the Arthritic-assisting anti-vibration anti-friction anti-pinching track system 101 comprising: Arthritic-assisting anti-vibration anti-friction back roller-tracks 102, Arthritic-assisting anti-vibration anti-friction front roller-tracks 103, Arthritic-assisting stabilizer-guiding track 104, and Arthritic-assisting stabilizer-securing ridges 105; Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 comprising: Arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a, Arthritic-assisting anti-vibration anti-friction handle-elevator-track 107b, Arthritic-assisting anti-vibration anti-friction portable roller-elevator 108, Roller openings 109, Roller axels 110,

[0155] In an example embodiment, the Arthritic-assisting anti-vibration anti-friction portable rollers 111, Arthritic-assisting raising angle-handle 112a, Arthritic-assisting lowering angle-handle 112b, Multi-elevator stabilizer 113, Arthritic-assisting multi-elevator-locking hand-knob 114, Arthritic-assisting multi-elevator-locking lock 115, Multi-elevator-locking nut 116, Multi-elevator-locking screw 117, Multi-function joint 118, Multi-function track pole 119, Multi-function screw rivet 120; Anti-slipping anti-cracking opposite-twisting-jaw system 121 comprising: First production-increasing anti-slipping anti-cracking opposite-twisting jaw 122, Second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123, First twist-spreading-spring housings 124a and 124b, Second twist-spreading-spring housings 125a and 125b, First twist-spreading spring 126, Second twist-spreading spring 127, First anti-slipping twist-clamping threads 128, and Second anti-slipping twist-clamping threads 129; Multi-elevation twistable-tube system 130 comprising: First upper-elevation twistable tube 131, First lower-elevation twistable tube 132, Second upper-elevation twistable tube 133, Second lower-elevation twistable tube 134, First multi-elevation-twisting-tube screw 135, and Second multi-elevation-twisting-tube screw 136; Anti-crack reinforcing twistable-rib system 137 comprising: First reinforcing twistable ribs 138, Second reinforcing twistable ribs 139, Hand-knob hole 140, Arthritic-assisting twist-clamping-jaw hand-knob 141, and Hand-knob nut 142; Multi-application pivoting-connector system 143 comprising: Pivoting connector 144, and Threaded connector core 145; Opposite-twisting-jaw-housing tunnel system 146 comprising: Opposite-twisting-jaw-housing tunnel 147, 2 opposite-twisting-jaw-securing holes 148, and Cord-cranking mechanism 149; Production-increasing cost-saving identical-half-base-top system 150 comprising: 2 production-increasing cost-saving identical-half-base-tops 151, Crank-storing extra-umbrella-pole-locking hole 152, Crank-storing-hole plug 153, and Caster-leg hole 154; Production-increasing cost-saving identical-half-base-bottom system 155 comprising: 2 production-increasing cost-saving identical-half-base-bottoms 156, 6 separation-preventing double-opposite-ridge-interlocks 157a, 6 separation-preventing double-opposite-interpockets 157b, 4 pole-mounting-hole stems 158, Weight compartments 159, 4 Brace slots 160, 4 Base-supporting braces 161, 6 Roller slots 162, and 6 angle-operated edge rollers 163; Adjustable-hidable angle-operated caster system 164 comprising: Caster chamber 165, Adjustable-hidable angle-operated caster 166, Caster leg 167, Caster-leg-wrenching recess 168, and Caster mount 169; and Deployable-hidable crank-and-bolt-lock system 170 comprising: Crank chamber 171, 2 deployable-retractable crank-handle-and-bolt-locks 172, 2 handle covers 173, Crank core 174, and Removable-hidable wrench 175.

Material

[0156] Referring to FIG. 1A-FIG. 206: In an example embodiment, the Arthritic-assisting anti-vibration anti-friction anti-pinching track system 101 may be made of the combined materials of its components. Arthritic-assisting anti-vibration anti-friction back roller-tracks 102 may each be made of the material of metal or plastic. Arthritic-assisting anti-vibration anti-friction front roller-tracks 103 may each be made of the material of metal. Arthritic-assisting stabilizer-guiding track 104 may be made of the material of metal or plastic. Arthritic-assisting stabilizer-securing ridges 105 may each be made of the material of metal or plastic.

[0157] In an example embodiment, the Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 may be made of the combined materials of its components. Arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a may be made of the material of metal or plastic. Arthritic-assisting anti-vibration anti-friction handle-elevator-tracks 107b may each be made of the material of metal or plastic. Arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 may be made of the material of metal or plastic. Roller openings 109 may each be made of the material of metal or plastic.

[0158] In an example embodiment, the Roller axels 110 may each be made of the material of metal or plastic. Arthritic-assisting anti-vibration anti-friction portable rollers 111 may each be made of the material of rubber, metal, or plastic. Arthritic-assisting raising angle-handle 112a may be made of the material of metal or plastic. Arthritic-assisting lowering angle-handle 112b may be made of the material of metal or plastic. Multi-elevator stabilizer 113 may be made of the material of metal or plastic. Arthritic-assisting multi-elevator-locking hand-knob 114 may be made of the material of rubber, metal, or plastic. Arthritic-assisting multi-elevator-locking lock 115 may be made of the material of metal or plastic. Multi-elevator-locking nut 116 may be made of the material of metal or plastic. Multi-elevator-locking screw 117 may be made of the material of metal or plastic.

[0159] In an example embodiment, the Multi-function joint 118 may be made of the material of metal or plastic. Multi-function track pole 119 may be made of the material of metal or plastic. Multi-function screw rivet 120 may be made of the material of metal or plastic. Anti-slipping anti-cracking opposite-twisting-jaw system 121 may be made of the combined materials of its components. First production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 may be made of the material of metal or plastic. Second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 may be made of the material of metal or plastic.

[0160] In an example embodiment, the First twist-spreading-spring housings 124a and 124b may each be made of empty space. Second twist-spreading-spring housings 125a and 125b may each be made of empty space. First twist-spreading spring 126 may be made of the material of metal or plastic. Second twist-spreading spring 127 may be made of the material of metal or plastic. First anti-slipping twist-clamping threads 128 may each be made of the material of metal or plastic. Second anti-slipping twist-clamping threads 129 may each be made of the material of metal or plastic. Multi-elevation twistable-tube system 130 may be made of the combined materials of its components. First upper-elevation twistable tube 131 may be made of the material of metal or plastic. First lower-elevation twistable tube 132 may be made of the material of metal or plastic. Second upper-elevation twistable tube 133 may be made of the material of metal or plastic. Second lower-elevation twistable tube 134 may be made of the material of metal or plastic. First multi-elevation-twisting-tube screw 135 may be made of the material of metal or plastic. Second multi-elevation-twisting-tube screw 136 may be made of the material of metal or plastic.

[0161] In an example embodiment, the Anti-crack reinforcing twistable-rib system 137 may be made of the combined materials of its components. First reinforcing twistable ribs 138 may each be made of the material of metal or plastic. Second reinforcing twistable ribs 139 may each be made of the material of metal or plastic. Hand-knob hole 140 may be made of empty space. Arthritic-assisting twist-clamping-jaw hand-knob 141 may be made of the material of rubber, metal, and/or plastic. Hand-knob nut 142 may be made of the material of metal or plastic. Multi-application pivoting-connector system 143 may be made of the combined materials of its components. Pivoting connector 144 may be made of the material of metal or plastic. Threaded connector core 145 may be made of the material of metal or plastic. Opposite-twisting-jaw-housing tunnel system 146 may be made of the combined materials of its components. Opposite-twisting-jaw-housing tunnel 147 may be made of the material of metal or plastic. Two opposite-twisting-jaw-securing holes 148 may each be made of empty space. Cord-cranking mechanism 149 may be made of the material of rubber, metal, and/or plastic.

[0162] In an example embodiment, the a Production-increasing cost-saving identical-half-base-top system 150 may be made of the combined materials of its components. Two production-increasing cost-saving identical-half-base-tops 151 may each be made of the material of metal or plastic. Crank-storing extra-umbrella-pole-locking hole 152 may be made of the material of metal or plastic. Crank-storing-hole plug 153 may be made of the material of metal or plastic. Caster-leg hole 154 may be made of the material of metal or plastic. Production-increasing cost-saving identical-half-base-bottom system 155 may be made of the combined materials of its components. Two production-increasing cost-saving identical-half-base-bottoms 156 may each be made of the material of metal or plastic. Six separation-preventing double-opposite-ridge-interlocks 157a may each be made of the material of metal or plastic. Six separation-preventing double-opposite-interpockets 157b may each be made of the material of metal or plastic.

[0163] In an example embodiment, the four pole-mounting-hole stems 158 may each be made of the material of metal or plastic. Weight compartments 159 may each be made of the material of metal or plastic. Four brace slots 160 may each be made of the material of metal or plastic. Four Base-supporting braces 161 may each be made of the material of metal or plastic. Six Roller slots 162 may each be made of the material of metal or plastic. Six angle-operated edge rollers 163 may each be made of the material of metal or plastic.

[0164] In an example embodiment, the adjustable-hidable angle-operated caster system 164 may be made of the combined materials of its components. Caster chamber 165 may be made of empty space. Adjustable-hidable angle-operated caster 166 may be made of the material of metal and/or plastic. Caster leg 167 may be made of the material of metal or plastic. Caster-leg-wrenching recess 168 may be made of empty space. Caster mount 169 may be made of the material of metal or plastic. Deployable-hidable crank-and-bolt-lock system 170 may be made of the combined materials of its components. Crank chamber 171 may be made of empty space.

[0165] In an example embodiment, the two deployable-retractable crank-handle-and-bolt-locks 172 may each be made of the material of metal or plastic. Two handle covers 173 may each be made of the material of metal or plastic. Crank core 174 may be made of the material of metal or plastic. Removable-hidable wrench 175 may be made of the material of metal or plastic.

Shape

[0166] Referring to FIG. 1A-FIG. 206:

[0167] In an example embodiment, the arthritic-assisting anti-vibration anti-friction anti-pinching track system 101 may be formed into the combined shapes of its components. Arthritic-assisting anti-vibration anti-friction back roller-tracks 102 may each be formed into the shape of a groove having a cross-section of letter C. Arthritic-assisting anti-vibration anti-friction front roller-tracks 103 may each be formed into the shape of a groove with a letter-C cross-section. Arthritic-assisting stabilizer-guiding track 104 may be formed into the shape of a groove with a letter-U cross-section.

[0168] In an example embodiment, the arthritic-assisting stabilizer-securing ridges 105 may each be formed into the shape of a stick with a letter-C-or-I cross-section. Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 may be formed into the combined shapes of its components. Arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a may be formed into the shape of a tube.

[0169] In an example embodiment, the arthritic-assisting anti-vibration anti-friction handle-elevator-tracks 107b may each be formed into the shape of a groove with a letter-U cross-section. Arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 may be formed into the shape of a tube. Roller openings 109 may each be formed into the shape of a rectangle.

[0170] In an example embodiment, the roller axels 110 may each be formed into the shape of a cylinder. Arthritic-assisting anti-vibration anti-friction portable rollers 111 may each be formed into the shape of a ring. Arthritic-assisting raising angle-handle 112a may be formed into the shape of a folded triangle. Arthritic-assisting lowering angle-handle 112b may be formed into the shape of a folded triangle.

[0171] In an example embodiment, the multi-elevator stabilizer 113 may be formed into the shape of 2 rectangular sticks molded to each other. Arthritic-assisting multi-elevator-locking hand-knob 114 may be formed into the shape of a cheese wheel with a threaded screw. Arthritic-assisting multi-elevator-locking lock 115 may be formed into the shape of a cheese wheel and a rectangular stick molded to each other with a through hole. Multi-elevator-locking nut 116 may be formed into the shape of a nut.

[0172] In an example embodiment, the multi-elevator-locking screw 117 may be formed into the shape of a crew. Multi-function joint 118 may be formed into the shape of two separate triangles. Multi-function track pole 119 may be formed into the shape of a ring. Multi-function screw rivet 120 may be formed into the shape of a tube with a ring end. Anti-slipping anti-cracking opposite-twisting-jaw system 121 may be formed into the combined shapes of its components. First production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 may be formed into the shape of a curved rectangle.

[0173] In an example embodiment, the second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 may be formed into the shape of a curved rectangle. First twist-spreading-spring housings 124a and 124b may each be formed into the shape of a rectangular cube. Second twist-spreading-spring housings 125a and 125b may each be formed into the shape of a rectangular cube. First twist-spreading spring 126 may be formed into the shape of a spiral spring. Second twist-spreading spring 127 may be formed into the shape of a spiral spring. First anti-slipping twist-clamping threads 128 may each be formed into the shape of a half-circle thread. Second anti-slipping twist-clamping threads 129 may each be formed into the shape of a half-circle thread. Multi-elevation twistable-tube system 130 may be formed into the combined shapes of its components.

[0174] In an example embodiment, the first upper-elevation twistable tube 131 may be formed into the shape of a round tube. First lower-elevation twistable tube 132 may be formed into the shape of a round tube. Second upper-elevation twistable tube 133 may be formed into the shape of a round tube. Second lower-elevation twistable tube 134 may be formed into the shape of a round tube. First multi-elevation-twisting-tube screw 135 may be formed into the shape of a screw. Second multi-elevation-twisting-tube screw 136 may be formed into the shape of a screw. Anti-crack reinforcing twistable-rib system 137 may be formed into the combined shapes of its components.

[0175] In an example embodiment, the first reinforcing twistable ribs 138 may each be formed into the shape of a curved-corner rectangle. Second reinforcing twistable ribs 139 may each be formed into the shape of a curved-corner rectangle. Hand-knob hole 140 may be formed into the shape of a round hole. Arthritic-assisting twist-clamping-jaw hand-knob 141 may be formed into the shape of a ridged cheese wheel with a threaded screw. Hand-knob nut 142 may be formed into the shape of a nut. Multi-application pivoting-connector system 143 may be formed into the combined shapes of its components.

[0176] In an example embodiment, the pivoting connector 144 may be formed into the shape of a square cube with one curved side. Threaded connector core 145 may be formed into the shape of a screw. Opposite-twisting-jaw-housing tunnel system 146 may be formed into the combined shapes of its components. Opposite-twisting-jaw-housing tunnel 147 may be formed into the shape of a square tube with one curved side. Two opposite-twisting-jaw-securing holes 148 may each be formed into the shape of a round hole. Cord-cranking mechanism 149 may be formed into the combined shapes of its components Production-increasing cost-saving identical-half-base-top system 150 may be formed into the combined shapes of its components. Two Production-increasing cost-saving identical-half-base-tops 151 may each be formed into the shape of a rectangle. Crank-storing extra-umbrella-pole-locking hole 152 may be formed into the shape of a cylinder.

[0177] In an example embodiment, the crank-storing-hole plug 153 may be formed into the shape of an elongated round cup. Caster-leg hole 154 may be formed into the shape of a cylinder. Production-increasing cost-saving identical-half-base-bottom system 155 may be formed into the combined shapes of its components. Two production-increasing cost-saving identical-half-base-bottoms 156 may each be formed into the shape of a rectangular box. Six separation-preventing double-opposite-ridge-interlocks 157a may each be formed into the shape of a dove tail with 2 opposite ridges molded to and along its 2 opposite corners. Six separation-preventing double-opposite-interpockets 157b may each be formed into the shape of a dove tail.

[0178] In an example embodiment, the four pole-mounting-hole stems 158 may each be formed into the shape of a tube. Weight compartments 159 may each be formed into the shape of a curved trapezoid. Four Brace slots 160 may each be formed into the shape of a rectangle. Four Base-supporting braces 161 may each be formed into the shape of a square tube. Six Roller slots 162 may each be formed into the shape of a half-wheel and an axle inserted therethrough. Six angle-operated edge rollers 163 may each be formed into the shape of a wheel and an axle inserted therethrough. Adjustable-hidable angle-operated caster system 164 may be formed into the combined shapes of its components.

[0179] In an example embodiment, the caster chamber 165 may be formed into the shape of a dome. Adjustable-hidable angle-operated caster 166 may be formed into the shape of a wheel and an axle inserted therethrough. Caster leg 167 may be formed into the shape of a cylinder. Caster-leg-wrenching recess 168 may be formed into the shape of a square, hexagonal, or pentagonal recess. Caster mount 169 may be formed into the shape of a tube with one flaring end. Deployable-hidable crank-and-bolt-lock system 170 may be formed into the combined shapes of its components.

[0180] In an example embodiment, the crank chamber 171 may be formed into the shape of a dome. Two deployable-retractable crank-handle-and-bolt-locks 172 may each be formed into the shape of a tube. Two handle covers 173 may each be formed into the shape of an elongated round cup. Crank core 174 may be formed into the shape of a cylinder with a built-in elongated recess. Removable-hidable wrench 175 may be formed into the shape of a straight Allen-wrench.

Connection

[0181] Referring to FIG. 1A-FIG. 206:

[0182] In an example embodiment, the arthritic-assisting anti-vibration anti-friction anti-pinching track system 101 has the combined connections of its components. Arthritic-assisting anti-vibration anti-friction back roller-tracks 102 may be respectively formed to a post or other surface. Arthritic-assisting anti-vibration anti-friction front roller-tracks 103 may be respectively formed to a post or other surface. Arthritic-assisting stabilizer-guiding track 104 may be formed into a post or other surface. Arthritic-assisting stabilizer-securing ridges 105 may be respectively formed into a post or other surface. Arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 has the combined connections of its components.

[0183] In an example embodiment, the arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a may be secured around arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Arthritic-assisting anti-vibration anti-friction handle-elevator-tracks 107b may be respectively molded to arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 may be inserted into and secured within arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Roller openings 109 may be respectively formed into the inner side of arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Roller axels 110 may be respectively rotatably snap-locked into roller openings 109. Arthritic-assisting anti-vibration anti-friction portable rollers 111 may be respectively slid on roller axels 110.

[0184] In an example embodiment, the arthritic-assisting raising angle-handle 112a may be formed onto the lower section of arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Arthritic-assisting lowering angle-handle 112b may be formed onto the upper section of arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Multi-elevator stabilizer 113 may be attached to the opposite inner side of arthritic-assisting anti-vibration anti-friction portable roller-elevator 108, and slidably inserted into arthritic-assisting stabilizer-guiding track 104. Arthritic-assisting multi-elevator-locking hand-knob 114 may be inserted through arthritic-assisting multi-elevator-locking lock 115 and multi-elevator stabilizer 113.

[0185] In an example embodiment, the arthritic-assisting multi-elevator-locking lock 115 may be compressed onto multi-elevator stabilizer 113. Multi-elevator-locking nut 116 may be threadedly secured to multi-elevator-locking screw 117. Multi-elevator-locking screw 117 may be inserted through arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a, arthritic-assisting anti-vibration anti-friction portable roller-elevator 108, and multi-elevator stabilizer 113, then threadedly secured to multi-elevator-locking nut 116.

[0186] In an example embodiment, the multi-function joint 118 may be molded to arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Multi-function track pole 119 may be slidably secured to arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Multi-function screw rivet 120 may be secured to multi-function joint 118. Anti-slipping anti-cracking opposite-twisting-jaw system 121 has the combined connections of its components.

[0187] In an example embodiment, the first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 may be screwed to second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 may be screwed to first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122. First twist-spreading-spring housings 124a and 124b may be respectively formed in first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Second twist-spreading-spring housings 125a and 125b may be respectively formed in first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123.

[0188] In an example embodiment, the first twist-spreading spring 126 may be fitted in first twist-spreading-spring housings 124a and 124b, respectively. Second twist-spreading spring 127 may be fitted in second twist-spreading-spring housings 125a and 125b, respectively. First anti-slipping twist-clamping threads 128 may be respectively formed in first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122. Second anti-slipping twist-clamping threads 129 may be respectively formed in second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Multi-elevation twistable-tube system 130 has the combined connections of its components.

[0189] In an example embodiment, the first upper-elevation twistable tube 131 may be molded to the upper bottom-edge of first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122. First lower-elevation twistable tube 132 may be molded to the lower bottom-edge of first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122. Second upper-elevation twistable tube 133 may be molded to the upper bottom-edge of second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Second lower-elevation twistable tube 134 may be molded to the lower bottom-edge of second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. First multi-elevation-twisting-tube screw 135 may be screwed through opposite-twisting-jaw-securing hole 148, first upper-elevation twistable tube 131, and second upper-elevation twistable tube 133 to secure them together to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145.

[0190] In an example embodiment, the second multi-elevation-twisting-tube screw 136 may be screwed through opposite-twisting-jaw-securing hole 148, first lower-elevation twistable tube 132, and second lower-elevation twistable tube 134 to secure them together. Anti-crack reinforcing twistable-rib system 137 has the combined connections of its components.

[0191] In an example embodiment, the first reinforcing twistable ribs 138 may be respectively molded to the back of first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122. Second reinforcing twistable ribs 139 may be respectively molded to the back of second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Hand-knob hole 140 may be formed through opposite-twisting-jaw-housing tunnel 147, first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122, and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Arthritic-assisting twist-clamping-jaw hand-knob 141 may be inserted through hand-knob hole 140. Hand-knob nut 142 may be threadedly attached to arthritic-assisting twist-clamping-jaw hand-knob 141. Multi-application pivoting-connector system 143 has the combined connections of its components. Pivoting connector 144 may be attached to multi-function screw rivet 120.

[0192] In an example embodiment, the threaded connector core 145 may be threadedly connected to and between first anti-slipping twist-clamping threads 128 and second anti-slipping twist-clamping threads 129 such that threaded connector core 145 can be twistingly clamped and unclamped by first anti-slipping twist-clamping threads 128 and second anti-slipping twist-clamping threads 129. Opposite-twisting-jaw-housing tunnel system 146 has the combined connections of its components.

[0193] In an example embodiment, the opposite-twisting-jaw-housing tunnel 147 may be slid on and around first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Two opposite-twisting-jaw-securing holes 148 may be respectively drilled into opposite-twisting-jaw-housing tunnel 147. Cord-cranking mechanism 149 may be attached to opposite-twisting-jaw-housing tunnel 147 such that it can ratchetingly wind and unwind a cord inside opposite-twisting-jaw-housing tunnel 147.

[0194] In an example embodiment, the production-increasing cost-saving identical-half-base-top system 150 has the combined connections of its components. Two production-increasing cost-saving identical-half-base-tops 151 each have multiple taps. The taps may be respectively snap-inserted into the central crannies of 2 production-increasing cost-saving identical-half-base-bottoms 156 to secure them together, to respectively seat 2 production-increasing cost-saving identical-half-base-tops 151 on 2 production-increasing cost-saving identical-half-base-bottoms 156.

[0195] In an example embodiment, the crank-storing extra-umbrella-pole-locking hole 152 may be formed in and between 2 production-increasing cost-saving identical-half-base-tops 151 and engaged with crank chamber 171. Crank-storing-hole plug 153 may be twist-locked inside caster-leg hole 154. Caster-leg hole 154 may be formed in and between 2 production-increasing cost-saving identical-half-base-tops 151 and engaged with caster chamber 165. Production-increasing cost-saving identical-half-base-bottom system 155 has the combined connections of its components. Two production-increasing cost-saving identical-half-base-bottoms 156 may be respectively slidably and interlockingly secured to each other.

[0196] In an example embodiment, the six separation-preventing double-opposite-ridge-interlocks 157a may be respectively molded to and along edges of 2 production-increasing cost-saving identical-half-base-bottoms 156. Six separation-preventing double-opposite-interpockets 157b may be respectively molded to and along other edges of 2 production-increasing cost-saving identical-half-base-bottoms 156 such that 6 separation-preventing double-opposite-ridge-interlocks 157a may be slidably and interlockingly inserted into 6 separation-preventing double-opposite-interpockets 157b to interlock them together.

[0197] In an example embodiment, the four pole-mounting-hole stems 158 may be respectively molded inside 2 production-increasing cost-saving identical-half-base-bottoms 156. Weight compartments 159 may be respectively formed inside 2 production-increasing cost-saving identical-half-base-bottoms 156. Four Brace slots 160 may be respectively formed on the underside of 2 production-increasing cost-saving identical-half-base-bottoms 156. Four Base-supporting braces 161 may be respectively inserted into 4 brace slots 160 and screwed to 2 production-increasing cost-saving identical-half-base-bottoms 156.

[0198] In an example embodiment, the six Roller slots 162 may be respectively formed on and along the 2 opposite angled edges of 2 production-increasing cost-saving identical-half-base-bottoms 156. Six angle-operated edge rollers 163 may be respectively snap-locked in 6 roller slots 162. Adjustable-hidable angle-operated caster system 164 has the combined connections of its components. Caster chamber 165 may be formed in and between 2 production-increasing cost-saving identical-half-base-bottoms 156. Adjustable-hidable angle-operated caster 166 may be secured to caster leg 167.

[0199] In an example embodiment, the caster leg 167 may be secured to caster mount 169. Caster-leg-wrenching recess 168 may be formed into caster leg 167. Caster mount 169 may be screwed to caster chamber 165 Deployable-hidable crank-and-bolt-lock system 170 has the combined connections of its components. Crank chamber 171 may be formed in and between 2 production-increasing cost-saving identical-half-base-bottoms 156. Two deployable-retractable crank-handle-and-bolt-locks 172 may be respectively slidably secured to the 2 opposite ends of crank core 174. Two sleeve covers 173 may be respectively slid onto 2 deployable-retractable crank-handle-and-bolt-locks 172. Crank core 174 may be slidably inserted inside 2 deployable-retractable crank-handle-and-bolt-locks 172. Removable-hidable wrench 175 may be removably concealed within a groove on crank core 174.

Function

[0200] Referring to FIG. 1A-FIG. 206:

[0201] In an example embodiment, the arthritic-assisting anti-vibration anti-friction anti-pinching track system 101 may be for performing the combined functions of its components. Arthritic-assisting anti-vibration anti-friction back roller-tracks 102 may be respectively for: Guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 to assist an arthritic during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50).

[0202] In an example embodiment, the arthritic-assisting anti-vibration anti-friction front roller-tracks 103 may be respectively for: Guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 to assist an arthritic during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50).

[0203] In an example embodiment, the arthritic-assisting stabilizer-guiding track 104 may be for: Guiding multi-elevator stabilizer 113 as it travels up and down during deployment and retraction. Arthritic-assisting stabilizer-securing ridges 105 may be respectively for preventing multi-elevator stabilizer 113 dislodging from arthritic-assisting stabilizer-guiding track 104 during deployment and retraction. Arthritic-assisting anti-vibration anti-friction anti-pinching anti-pinching portable-elevator system 106 may be for performing the combined functions of its components. Arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a may be for the capability of eliminating the needs for an arthritic to fold and unfold hmay be fingers to raise and lower arthritic-assisting anti-vibration anti-friction portable-elevator system 106 (see FIG. 51, FIG. 56, and FIG. 57); Capable of securing and enclosing arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 10); Capable of being used on umbrella post, hand rail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); and Capable of preventing an arthritic's hand from being pinched by multi-elevator stabilizer 113, arthritic-assisting anti-vibration anti-friction portable rollers 111, and roller axels 110 (see FIG. 51, FIG. 56, and FIG. 57).

[0204] In an example embodiment, the arthritic-assisting anti-vibration anti-friction handle-elevator-tracks 107b may be respectively for: Sealing arthritic-assisting anti-vibration anti-friction portable rollers 111 to protect a user's hand or an arthritic's hand; and Guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 3). Arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 may be for: Being used on umbrella post, handrail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); Hiding arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 2); and Securing and organizing arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 11, FIG. 12, and FIG. 18).

[0205] In an example embodiment, the roller openings 109 may be respectively for: Securing roller axels 110 and arthritic-assisting anti-vibration anti-friction portable rollers 111. Roller axels 110 may be respectively for: Allowing arthritic-assisting anti-vibration anti-friction portable rollers 111 to rotate. Arthritic-assisting anti-vibration anti-friction portable rollers 111 may be respectively for: Assisting an arthritic in operating arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50).

[0206] In an example embodiment, the arthritic-assisting raising angle-handle 112a may be for: Assisting an arthritic to eliminate the needs for folding an arthritic's fingers when raising arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57).

[0207] In an example embodiment, the arthritic-assisting lowering angle-handle 112b may be for: Assisting an arthritic to eliminate the needs for folding an arthritic's fingers when raising arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57).

[0208] In an example embodiment, the multi-elevator stabilizer 113 may be for: Gliding up and down during deployment and retraction. Arthritic-assisting multi-elevator-locking hand-knob 114 may be for: Twist-locking and unlocking arthritic-assisting multi-elevator-locking lock 115 to allow multi-elevator stabilizer 113 to glide freely to allow deployment and retraction. Arthritic-assisting multi-elevator-locking lock 115 may be for: Locking and unlocking multi-elevator stabilizer 113 with arthritic-assisting multi-elevator-locking hand-knob 114 to allow deployment and retraction.

[0209] In an example embodiment, the multi-elevator-locking nut 116 may be for: Securing arthritic-assisting multi-elevator-locking hand-knob 114. Multi-elevator-locking screw 117 may be for: Securing multi-elevator stabilizer 113 to arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a and arthritic-assisting anti-vibration anti-friction portable roller-elevator 108, respectively.

[0210] In an example embodiment, the multi-function joint 118 may be for: Securing multi-function screw rivet 120 to arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Multi-function track pole 119 may be for: Allowing arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 to track-slide up and down thereon. Multi-function screw rivet 120 may be for: Pivotably providing a pivoting means for accessories to be attached. Anti-slipping anti-cracking opposite-twisting-jaw system 121 may be for performing the combined functions of its components.

[0211] In an example embodiment, the first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 may be for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp and to twistingly clamp threaded connector core 145 when turning arthritic-assisting twist-clamping-jaw hand-knob 141 in the directions of arrows 193, 194, and 195 (see FIG. 9, FIG. 10, FIG. 11, and FIG. 12); and

[0212] In an example embodiment, the twisting while being twistingly spread by first twist-spreading spring 126 and second twist-spreading spring 127 to twistingly unclamp threaded connector core 145 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 9, FIG. 10, FIG. 11, and FIG. 12). Second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 may be for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp and to twistingly clamp threaded connector core 145 when turning arthritic-assisting twist-clamping-jaw hand-knob 141 in the directions of arrows 193, 194, and 195 (see FIG. 9, FIG. 10, FIG. 11, and FIG. 12); and Twisting while being twistingly spread by first twist-spreading spring 126 and second twist-spreading spring 127 to twistingly unclamp threaded connector core 145 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 9, FIG. 10, FIG. 11, and FIG. 12).

[0213] In an example embodiment, the first twist-spreading-spring housings 124a and 124b may be respectively for: Housing and clamping first twist-spreading spring 126. Second twist-spreading-spring housings 125a and 125b may be respectively for: Housing and clamping second twist-spreading spring 127. First twist-spreading spring 126 may be for: Twistingly spreading first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 from pivoting connector 144 allowing opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping. Second twist-spreading spring 127 may be for: Twistingly spreading first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 from pivoting connector 144 allowing opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping.

[0214] In an example embodiment, the first anti-slipping twist-clamping threads 128 may be respectively for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 (see FIG. 27).

[0215] In an example embodiment, the second anti-slipping twist-clamping threads 129 may be respectively for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 (see FIG. 27).

[0216] In an example embodiment, the multi-elevation twistable-tube system 130 may be for performing the combined functions of its components. First upper-elevation twistable tube 131 may be for: Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16); and being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16).

[0217] In an example embodiment, the first lower-elevation twistable tube 132 may be for: Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16); and Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16).

[0218] In an example embodiment, the second upper-elevation twistable tube 133 may be for: Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16); and Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16).

[0219] In an example embodiment, the second lower-elevation twistable tube 134 may be for: Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16); and Being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 13-FIG. 16).

[0220] In an example embodiment, the first multi-elevation-twisting-tube screw 135 may be for: Securing first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to opposite-twisting-jaw-housing tunnel 147. Second multi-elevation-twisting-tube screw 136 may be for: Securing first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to opposite-twisting-jaw-housing tunnel 147.

[0221] In an example embodiment, the anti-crack reinforcing twistable-rib system 137 may be for performing the combined functions of its components. First reinforcing twistable ribs 138 may be respectively for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to allow 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Reinforcing 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to prevent them from cracking, and to securely unclamp and to securely clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12).

[0222] In an example embodiment, the second reinforcing twistable ribs 139 may be respectively for: Mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to allow 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Reinforcing 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to prevent them from cracking, and to securely unclamp and to securely clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12). Hand-knob hole 140 may be for: Inserting arthritic-assisting twist-clamping-jaw hand-knob 141 therethrough.

[0223] In an example embodiment, the arthritic-assisting twist-clamping-jaw hand-knob 141 may be for: Allowing an arthritic to eliminate the needs for folding his fingers when operating first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 51, FIG. 100); and Allowing an arthritic to eliminate pain when operating first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 51, FIG. 100).

[0224] In an example embodiment, the hand-knob nut 142 may be for: Securing arthritic-assisting twist-clamping-jaw hand-knob 141 to anti-slipping anti-cracking opposite-twisting-jaw system 121. Multi-application pivoting-connector system 143 may be for performing the combined functions of its components. Pivoting connector 144 may be for: Pivotably attaching accessories to. Threaded connector core 145 may be for: Twistingly clamping first anti-slipping twist-clamping threads 128 and second anti-slipping twist-clamping threads 129 thereon.

[0225] In an example embodiment, the opposite-twisting-jaw-housing tunnel system 146 may be for performing the combined functions of its components. Opposite-twisting-jaw-housing tunnel 147 may be for: Housing anti-slipping anti-cracking opposite-twisting-jaw system 121 therein. Two opposite-twisting-jaw-securing holes 148 may be respectively for: Screwing first multi-elevation-twisting-tube screw 135 and second multi-elevation-twisting-tube screw 136 therethrough. Cord-cranking mechanism 149 may be for: Ratchetedly winding and unwinding a cord inside opposite-twisting-jaw-housing tunnel 147.

[0226] In an example embodiment, the production-increasing cost-saving identical-half-base-top system 150 may be for performing the combined functions of its components. Two production-increasing cost-saving identical-half-base-tops 151 may be respectively for: Covering production-increasing cost-saving identical-half-base-bottom system 155, adjustable-hidable angle-operated caster system 164, and deployable-hidable crank-and-bolt-lock system 170; and Protecting all the components of production-increasing cost-saving identical-half-base-bottom system 155, adjustable-hidable angle-operated caster system 164, and deployable-hidable crank-and-bolt-lock system 170.

[0227] In an example embodiment, the crank-storing extra-umbrella-pole-locking hole 152 may be for: Storing and hiding deployable-hidable crank-and-bolt-lock system 170 inside crank-storing extra-umbrella-pole-locking hole 152 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location in the direction of arrow 206 (see FIG. 1-FIG. 4, FIG. 89); and Hiding and storing deployable-hidable crank-and-bolt-lock system 170 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries in the direction of arrow 206 (see FIG. 1-FIG. 4, FIG. 89).

[0228] In an example embodiment, the crank-storing-hole plug 153 may be for: Covering crank-storing extra-umbrella-pole-locking hole 152. Caster-leg hole 154 may be for: Allowing access to caster-leg-wrenching recess 168 to adjust caster leg 167. Production-increasing cost-saving identical-half-base-bottom system 155 may be for performing the combined functions of its components. Two production-increasing cost-saving identical-half-base-bottoms 156 may be respectively for: Being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on 2 steps of a staircase, on a patio and a step, or on a truck bed and a truck bumper in the direction of arrow 207 (see FIG. 5-FIG. 10); and Being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on a platform and the ground to stabilize the platform) in the direction of arrow 207 (see FIG. 5-FIG. 10).

[0229] In an example embodiment, the six interlocking separation-preventing double-opposite-ridge-locks 157a may be respectively for: Being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on 2 steps of a staircase, on a patio and a step, on a platform and the ground, on a truck be and a truck bumper, etc.) (see FIG. 5-FIG. 10, FIG. 34-FIG. 35, FIG. 94); and Being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on a platform and the ground to stabilize the platform) (see FIG. 5-FIG. 10, FIG. 34-FIG. 35, FIG. 94).

[0230] In an example embodiment, the six interlocking separation-preventing double-opposite-interpockets 157b may be respectively for: Being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on 2 steps of a staircase, on a patio and a step, on a platform and the ground, on a truck be and a truck bumper, etc.) (see FIG. 5-FIG. 10, FIG. 34-FIG. 35, FIG. 94); and Being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on a platform and the ground to stabilize the platform) (see FIG. 5-FIG. 10, FIG. 34-FIG. 35, FIG. 94).

[0231] In an example embodiment, the four pole-mounting-hole stems 158 may be respectively for: Screwing 2 production-increasing cost-saving identical-half-base-tops 151 thereto to secure 2 production-increasing cost-saving identical-half-base-tops 151 to 2 production-increasing cost-saving identical-half-base-bottoms 156; and Screwing multi-function track pole 119 thereto.

[0232] In an example embodiment, the weight compartments 159 may be respectively for: Storing soil, sand, or small stones, for the purpose of stabilizing the 5-device-in-one base. Four Brace slots 160 may be respectively for: Providing recesses for 4 base-supporting braces 161 to be installed therein. Four Base-supporting braces 161 may be respectively for: Providing horizontal strength to support the 5-device-in-one base.

[0233] In an example embodiment, the six Roller slots 162 may be respectively for: Providing recesses for 6 angle-operated edge rollers 163 to be installed therein. Six angle-operated edge rollers 163 may be respectively for: Tiltedly working together with adjustable-hidable angle-operated caster 166 when tilted by the tilting adjustment of adjustable-hidable angle-operated caster 166 to mutually elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 11, FIG. 12, FIG. 43-FIG. 47); and Adjustably staying off the ground for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. FIG. 11, FIG. 12, FIG. 43-FIG. 47). Adjustable-hidable angle-operated caster system 164 may be for performing the combined functions of its components.

[0234] In an example embodiment, the caster chamber 165 may be for: Discretely storing adjustable-hidable angle-operated caster 166. Adjustable-hidable angle-operated caster 166 may be for: Being adjusted to different tilted heights to mutually work with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 11-FIG. 12); and Being adjusted to retract off the ground and hide completely inside caster chamber 165 for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 11-FIG. 12).

[0235] In an example embodiment, the caster leg 167 may be for: Being raised and lowered to allow the 5-device-in-one base to be moved or in a fixed location, respectively. Caster-leg-wrenching recess 168 may be for: Providing a keyhole for removable-hidable wrench 175 to be inserted to adjustably tiltedly raising or lowering adjustable-hidable angle-operated caster 166. Caster mount 169 may be for: Securing adjustable-hidable angle-operated caster 166 and caster leg 167 to 2 production-increasing cost-saving identical-half-base-bottoms 156. Deployable-hidable crank-and-bolt-lock system 170 may be for performing the combined functions of its components.

[0236] In an example embodiment, the crank chamber 171 may be for: Discretely hiding deployable-hidable crank-and-bolt-lock system 170 two deployable-retractable crank-handle-and-bolt-locks 172 may be respectively for being deployed into parallel gaps or holes in a patio or deck to secure the 5-device-in-one base to the patio or deck in the direction of arrow 206 (see FIG. 1-FIG. 4); Being deployed into parallel gaps or holes in a patio or deck to prevent the wind from tipping or toppling the 5-device-in-one base in the direction of arrow 206 (see FIG. 1-FIG. 4); and Being slidably deployed into 2 opposite handles to crank removable-hidable wrench 175 (see FIG. 11-FIG. 12, and FIG. 65-FIG. 68).

[0237] In an example embodiment, the two handle covers 173 may be respectively for: Covering and protecting 2 deployable-retractable crank-handle-and-bolt-locks 172, crank core 174, and removable-hidable wrench 175. Crank core 174 may be for: Securely hiding removable-hidable wrench 175. Removable-hidable wrench 175 may be for: Being stored and hidden inside crank core 174 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location (see FIG. 65-FIG. 75); and Being stored and hidden inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries (see FIG. 1, FIG. 2, and FIG. 99).

Variation

[0238] Referring to FIG. 207-FIG. 249: Any component of the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators can have any shape and size. Any component of the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators can be made of any material(s).

[0239] FIG. 1B-FIG. 1F and FIG. 58-FIG. 62 illustrate equivalent applications of the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators (being used on an umbrella post, hand rail, sail pole, awning arm, and pergola column such that the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators can move in the directions of arrows 188, 189, 190, 191 and 192, respectively).

[0240] FIG. 207-FIG. 239 illustrate equivalent variations of the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators.

[0241] FIG. 240-FIG. 249 illustrate equivalent applications of the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators (being used on an umbrella post, hand rail, sail pole, awning arm, and pergola column such that the five-device-in-one arthritic-assisting anti-vibration ati-friction anti-pinching portable elevators can move in the directions of arrows 188, 189, 190, 191 and 192, respectively).

[0242] Referring to FIG. 250-FIG. 291: Any component of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws can have any shape and size. Any component of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws can be made of any material(s).

[0243] FIG. 250-FIG. 285 illustrate equivalent variations of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws.

[0244] FIG. 286-FIG. 290 illustrate equivalent applications of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws (being used on an umbrella post, hand rail, sail pole, awning arm, and pergola column such that the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws can move in the directions of arrows 200, 201, 202, 203, and 204, respectively).

[0245] FIG. 291 illustrates an equivalent application of the five-device-in-one arthritic-assisting anti-slipping anti-cracking production-increasing opposite-twisting jaws being used by an arthritic in the direction of arrow 205.

[0246] Referring to FIG. 292-FIG. 305: Any component of the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, can have any shape and size. Any component of the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base, can be made of any material(s).

[0247] FIG. 292-FIG. 296 illustrate top, side and perspective views demonstrating equivalent applications of the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, or weight base (For example, being used with a cantilever umbrella, a straight pole umbrella, and a pergola, a platform, a staircase, a truck, or a patio, respectively).

[0248] FIG. 297-FIG. 305 illustrate perspective, side, and top views demonstrating equivalent variations of components for the 5-device-in-one base (having built-in deployable-retractable crank-handle-and-bolt-locks), for being used as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, or weight base.

[0249] The present invention substantially departs from the conventional concepts and designs of the prior art. In doing so, the present invention provides five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base (for being adapted to umbrella post, hand rail, sail pole, awning arm, and pergola column, and for being capable of functioning as uneven-step supporter, uneven-surface supporter, patio bolt-locker, platform stabilizer, and weight base), having many new and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows: [0250] 1) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable handle-elevator 107a. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of eliminating the needs for an arthritic to fold and unfold his fingers to raise and lower arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 (see FIG. 51, FIG. 56, and FIG. 57); Capable of securing and enclosing arthritic-assisting anti-vibration anti-friction anti-pinching portable roller-elevator 108 (see FIG. 10); Capable of being used on umbrella post, handrail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62); and Capable of preventing an arthritic's hand from being pinched by multi-elevator stabilizer 113, arthritic-assisting anti-vibration anti-friction portable rollers 111, and roller axels 110 (see FIG. 51, FIG. 56, and FIG. 57). [0251] 2) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction handle-elevator-track 107b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of sealing arthritic-assisting anti-vibration anti-friction portable rollers 111 to protect a user's hand or an arthritic's hand. Capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 3). [0252] 3) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable roller-elevator 108. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being used on umbrella post, handrail, sail pole, awning arm, and pergola column (see FIG. 58-FIG. 62) Capable of hiding arthritic-assisting anti-vibration anti-friction portable roller-elevator 108 (see FIG. 2); and Capable of securing and organizing arthritic-assisting anti-vibration anti-friction portable rollers 111 (see FIG. 11, FIG. 12, and FIG. 18). [0253] 4) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction portable rollers 111. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of assisting an arthritic in operating arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50). [0254] 5) It is still a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting anti-vibration anti-friction back roller-tracks 102 and arthritic-assisting anti-vibration anti-friction front roller-tracks 103. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of guiding arthritic-assisting anti-vibration anti-friction portable rollers 111 to assist an arthritic during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Capable of eliminating vibration and friction during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the direction of arrow 187 (see FIG. 49 and FIG. 50). [0255] 6) It is yet still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting raising angle-handle 112a. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when raising arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0256] 7) It is yet still a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting lowering angle-handle 112b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of assisting an arthritic to eliminate the needs for folding an arthritic's fingers when lowering arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57); and Capable of reducing impact against an arthritic's fingers during operation of arthritic-assisting anti-vibration anti-friction anti-pinching portable-elevator system 106 in the directions of arrows 176-186 (see FIG. 51-FIG. 57). [0257] 8) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having

[0258] first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp and to twistingly clamp threaded connector core 145 when turning arthritic-assisting twist-clamping-jaw hand-knob 141 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74); and Capable of twisting while being twistingly spread by first twist-spreading spring 126 and second twist-spreading spring 127 to twistingly unclamp threaded connector core 145 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74). [0259] 9) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first anti-slipping core-twist-clamping threads 128 and second anti-slipping core-twist-clamping threads 129. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 to allow opposite-twisting-jaw-housing tunnel system 146 to be rotatably adjusted without slipping in the directions of arrows 193, 194, and 195(see FIG. 71-FIG. 74); and Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 (see FIG. 89). [0260] 10) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first upper-elevation twistable tube 131 and first lower-elevation twistable tube 132. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist-spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and b) Capable of being on 2 different elevations to allow first production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0261] 11) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having second upper-elevation twistable tube 133 and second lower-elevation twistable tube 134. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp threaded connector core 145 when twistingly spread by first and second twist spreading springs 126 and 127 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78); and Capable of being on 2 different elevations to allow second production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly clamp threaded connector core 145 when squeezed by arthritic-assisting twist-clamping-jaw hand-knob 141 and hand-knob nut 142 on different elevations of arrows 196, 197, 198, and 199 (see FIG. 75-FIG. 78). [0262] 12) It is another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having first reinforcing twistable ribs 138 and second reinforcing twistable ribs 139. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of mutually working with first upper-elevation twistable tube 131, first lower-elevation twistable tube 132, second upper-elevation twistable tube 133, and second lower-elevation twistable tube 134 to allow 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to twistingly unclamp and to twistingly clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 9-FIG. 12); and Capable of reinforcing 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to prevent them from cracking, and to securely unclamp and to securely clamp threaded connector core 145 in the directions of arrows 193, 194, and 195 (see FIG. 71-FIG. 74). [0263] 13) It is still another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having arthritic-assisting twist-clamping-jaw hand-knob 141. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of allowing an arthritic to eliminate the needs for folding his fingers when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113); and Capable of allowing an arthritic to eliminate pain when operating 1st production-increasing anti-slipping anti-cracking opposite-twisting jaw 122 and 2nd production-increasing anti-slipping anti-cracking opposite-twisting jaw 123 to securely unclamp and to securely clamp threaded connector core 145 in the direction of arrow 205 (see FIG. 113). [0264] 14) It is an object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 2 production-increasing cost-saving identical-half-base-bottoms 156. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on 2 steps of a staircase, on a patio and a step, or on a truck bed and a truck bumper in the direction of arrow 207 (see FIG. 125-FIG. 130); and Capable of being independently vertically adjusted to sit on 2 different elevations at the same time while interlocking each other (for example, sitting on a platform and the ground to stabilize the platform) in the direction of arrow 207 (see FIG. 125-FIG. 130). [0265] 15) It is another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 2 deployable-retractable crank-handle-and-bolt-locks 172. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to secure the 5-device-in-one base to the patio or deck in the direction of arrow 206 (see FIG. 121-FIG. 124); Capable of deploying crank-handle-and-bolt-locks 172 into parallel gaps or holes in a patio or deck to prevent the wind from tipping or toppling the 5-device-in-one base in the direction of arrow 206 (see FIG. 121-FIG. 124); and Capable of being slidably deployed into 2 opposite handles to crank removable-hidable wrench 175 (see FIG. 131-FIG. 132, and FIG. 185-FIG. 188). [0266] 16) It is still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having adjustable-hidable angle-operated caster 166. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being adjusted to different tilted heights to mutually work with 6 angle-operated edge rollers 163 to elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 11-FIG. 12); and Capable of being adjusted to retract off the ground and hide completely inside caster chamber 165 for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131-FIG. 132). [0267] 17) It is yet still another object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 6 separation-preventing double-opposite-ridge-interlocks 157a and 6 separation-preventing double-opposite-interpockets 157b. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on 2 steps of a staircase, on a patio and a step, on a platform and the ground, on a truck be and a truck bumper, etc.) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, FIG. 299); and Capable of being independently vertically adjusted to interlock 2 production-increasing cost-saving identical-half-base-bottoms 156 while they sit on 2 different elevations at the same time (for example, sitting on a platform and the ground to stabilize the platform) (see FIG. 125-FIG. 130, FIG. 154-FIG. 155, FIG. 299). [0268] 18) It is a further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having removable-hidable wrench 175. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of storing and hiding removable-hidable wrench 175 inside crank core 174 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location (see FIG. 185-FIG. 195); and Capable of hiding and storing removable-hidable wrench 175 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries (see FIG. 121, FIG. 122, and FIG. 304). [0269] 19) It is another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having 6 angle-operated edge rollers 163. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base may be: Capable of tiltedly working together with adjustable-hidable angle-operated caster 166 when tilted by the tilting adjustment of adjustable-hidable angle-operated caster 166 to mutually elevate the 5-device-in-one base off the ground for moving in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167); and Capable of adjustably staying off the ground for the 5-device-in-one base to sit in a fixed location in the directions of arrows 208-214 (see FIG. 131, FIG. 132, FIG. 163-FIG. 167). [0270] 20) It is still another further object of an embodiment to provide five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base, having crank-storing extra-umbrella-pole-locking hole 152. Therefore, the five-device-in-one arthritic-assisting anti-vibration anti-friction anti-pinching portable elevators, twisting jaws, and uneven base: Capable of storing and hiding deployable-hidable crank-and-bolt-lock system 170 inside crank-storing extra-umbrella-pole-locking hole 152 for a user to adjust adjustable-hidable angle-operated caster 166 at any time at any location in the direction of arrow 206 (see FIG. 121-FIG. 124, FIG. 294); and Capable of hiding and storing deployable-hidable crank-and-bolt-lock system 170 inside 2 production-increasing cost-saving identical-half-base-bottoms 156 to eliminate tripping and personal injuries in the direction of arrow 206 (see FIG. 121-FIG. 124, FIG. 294).

[0271] One or more elements or aspects or steps, or any portion(s) thereof, from one or more of any of the systems and methods described herein may be combined with one or more elements or aspects or steps, or any portion(s) thereof, from one or more of any of the other systems and methods described herein and combinations thereof, to form one or more additional implementations and/or claims of the present disclosure.

[0272] One or more of the components, steps, features, and/or functions illustrated in the figures may be rearranged and/or combined into a single component, block, feature or function or embodied in several components, steps, or functions. Additional elements, components, steps, and/or functions may also be added without departing from the disclosure. The apparatus, devices, and/or components illustrated in the Figures may be configured to perform one or more of the methods, features, or steps described in the Figures. The algorithms described herein may also be efficiently implemented in software and/or embedded in hardware.

[0273] Reference in the specification to one embodiment or an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. The appearances of the phrase in one embodiment in various places in the specification are not necessarily all referring to the same embodiment.

[0274] The foregoing description of the embodiments of the present invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the present invention to the precise form disclosed. Many modifications and variations are possible in light of the above teaching. It is intended that the scope of the present invention be limited not by this detailed description, but rather by the claims of this application. As will be understood by those familiar with the art, the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Likewise, the particular naming and division of the modules, routines, features, attributes, methodologies and other aspects are not mandatory or significant, and the mechanisms that implement the present invention or its features may have different names, divisions and/or formats.

[0275] Furthermore, as will be apparent to one of ordinary skill in the relevant art, the modules, routines, features, attributes, methodologies and other aspects of the present invention can be implemented as software, hardware, firmware or any combination of the three. Also, wherever a component, an example of which is a module, of the present invention is implemented as software, the component can be implemented as a standalone program, as part of a larger program, as a plurality of separate programs, as a statically or dynamically linked library, as a kernel loadable module, as a device driver, and/or in every and any other way known now or in the future to those of ordinary skill in the art of computer programming.

[0276] Additionally, the present invention is in no way limited to implementation in any specific programming language, or for any specific operating system or environment. Accordingly, the disclosure of the present invention is intended to be illustrative, but not limiting, of the scope of the present invention, which is set forth in the following claims.

[0277] It is understood that the specific order or hierarchy of blocks in the processes/flowcharts disclosed is an illustration of example approaches. Based upon design preferences, it is understood that the specific order or hierarchy of blocks in the processes/flowcharts may be rearranged. Further, some blocks may be combined or omitted. The accompanying method claims present elements of the various blocks in a sample order and are not meant to be limited to the specific order or hierarchy presented.

[0278] The previous description is provided to enable any person skilled in the art to practice the various aspects described herein. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects. Thus, the claims are not intended to be limited to the aspects shown herein, but is to be accorded the full scope consistent with the language claims, wherein reference to an element in the singular is not intended to mean one and only one unless specifically so stated, but rather one or more. The word exemplary is used herein to mean serving as an example, instance, or illustration. Any aspect described herein as exemplary is not necessarily to be construed as preferred or advantageous over other aspects. Unless specifically stated otherwise, the term some refers to one or more. Combinations such as at least one of A, B, or C, one or more of A, B, or C, at least one of A, B, and C, one or more of A, B, and C, and A, B, C, or any combination thereof include any combination of A, B, and/or C, and may include multiples of A, multiples of B, or multiples of C. Specifically, combinations such as at least one of A, B, or C, one or more of A, B, or C, at least one of A, B, and C, one or more of A, B, and C, and A, B, C, or any combination thereof may be A only, B only, C only, A and B, A and C, B and C, or

[0279] A and B and C, where any such combinations may contain one or more member or members of A, B, or C. All structural and functional equivalents to the elements of the various aspects described throughout this disclosure that are known or later come to be known to those of ordinary skill in the art are expressly incorporated herein by reference and are intended to be encompassed by the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is explicitly recited in the claims. The words module, mechanism, element, device, and the like may not be a substitute for the word means. As such, no claim element is to be construed as a means plus function unless the element is expressly recited using the phrase means for.

[0280] The inventions and embodiments described herein are only examples. Each element of the inventions and embodiments described herein may be combined with any other element of the inventions and embodiments described herein unless otherwise indicated.