STEEL PERGOLA

Abstract

Disclosed are example embodiments of a device having at least one of a five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, which is economical to produce and ship, and can be quickly and easily assembled and disassembled. Particularly, the present invention relates to a five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (for being adapted to pergola, RV, house, solar panel, and concert stage), which includes at least one of anti-twisting anti-warping cost-saving production-increasing outer corner system, Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system, Double-gutter-supporting-and-locking post system, Anti-twisting anti-warping 4-opposite-direction-securing post-plate system, Rainwater-shedding rainwater-directing louver systems, Cost-saving production-increasing noise-canceling wind-dissipating louver end systems, Automatic-multi-louver-shuttling system, and Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems.

Claims

1. A five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver comprising: An anti-twisting anti-warping cost-saving production-increasing outer corner; An outer-corner mounting flange formed to said anti-twisting anti-warping cost-saving production-increasing outer corner; A plurality of outer-corner-mounting holes respectively drilled into said outer-corner mounting flange; A cost-saving production-increasing inner corner parapet secured to said outer-corner mounting flange; A leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate formed to said cost-saving production-increasing inner corner parapet; An inner-corner mounting flange formed to said cost-saving production-increasing inner corner parapet; An anti-twisting anti-warping cost-saving production-increasing auto-centering bracket formed to said cost-saving production-increasing inner corner parapet, said leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate formed within said anti-twisting anti-warping cost-saving production-increasing auto-centering bracket; A plurality of corner screws respectively screwed into said cost-saving production-increasing inner corner parapet; A plurality of anti-twisting anti-warping anti-vibrating 90-degree-double-yokes respectively fit around said corner screws; A plurality of corner nuts respectively secured to said corner screws; A plurality of nut-securing holes respectively drilled into said cost-saving production-increasing inner corner parapet and cupped around said corner nuts; A double-gutter-supporting-and-locking post having a bottom, said double-gutter-supporting-and-locking post secured to said cost-saving production-increasing inner corner parapet; A post-top double-gutter-supporting-and-locking parapet-mounting flange formed to said double-gutter-supporting-and-locking post; A plurality of post-top flange holes respectively drilled into said post-top double-gutter-supporting-and-locking parapet-mounting flange; A post-top double-gutter-supporting-and-locking opening formed into said double-gutter-supporting-and-locking post; An anti-twisting anti-warping 4-opposite-direction-securing post plate; A plurality of anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges respectively secured to said double-gutter-supporting-and-locking post, said anti-twisting anti-warping 4-opposite-direction-securing post plate formed to said anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges; A plurality of post-plate mounting holes respectively drilled into said anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges; A plurality of post-plate ground-securing screws respectively inserted through said anti-twisting anti-warping 4-opposite-direction-securing post plate and into a surface; A post-plate cover placed around said bottom of said double-gutter-supporting-and-locking post and over said anti-twisting anti-warping 4-opposite-direction-securing post plate and said post-plate ground-securing screws; A rainwater-shedding louver having a left end and a right end; A plurality of rainwater-directing walls respectively formed to said rainwater-shedding louver; An overlapping rainwater shield formed to said rainwater-shedding louver; A noise-deleting cushion snap-fit into said rainwater-shedding louver; A cost-saving production-increasing left-side louver end secured to said left end of said rainwater-shedding louver; A cost-saving production-increasing right-side louver end secured to said right end of said rainwater-shedding louver; A plurality of noise-canceling rainwater-draining axle bores; A plurality of triple wind-dissipating tunnels respectively formed in said cost-saving production-increasing left-side louver end and in said cost-saving production-increasing right-side louver end; A plurality of cost-saving production-increasing anti-noise louver axles having axle ends, said cost-saving production-increasing anti-noise louver axles respectively formed to said cost-saving production-increasing left-side louver end and said cost-saving production-increasing right-side louver end, said noise-canceling rainwater-draining axle bores respectively formed within said cost-saving production-increasing anti-noise louver axles; A plurality of axle-locking circular dykes respectively formed to said axle ends of said cost-saving production-increasing anti-noise louver axle; A plurality of cost-saving production-increasing anti-noise shuttling axles respectively formed to said cost-saving production-increasing left-side louver end and said cost-saving production-increasing right-side louver end; A plurality of quadruple snap-locking tails respectively formed to said cost-saving production-increasing left-side louver end and said cost-saving production-increasing right-side louver end; A louver-mounted bracket secured to said rainwater-shedding louver; A louver-mounted axle secured to said louver-mounted bracket; A louver-mounted bracket-plate secured to said louver-mounted bracket; An automatic-multi-louver-shuttling control-bar axle secured to said louver-mounted bracket; An automatic-multi-louver-shuttling multi-articulated linkage arm having a first linkage-arm end and a second linkage-arm end, said louver-mounted bracket-plate secured to said first linkage-arm end of said automatic-multi-louver-shuttling linkage arm; An automatic-multi-louver-shuttling gear-box axle secured to said second linkage-arm end of said automatic-multi-louver-shuttling multi-articulated linkage arm; An automatic-multi-louver-shuttling shuttling gear box secured to said automatic-multi-louver-shuttling gear-box axle; An automatic-multi-louver-shuttling multi-louver-conjoining control-bar pivotably secured to said automatic-multi-louver-shuttling control-bar axle and said cost-saving production-increasing anti-noise shuttling axle; An automatic-multi-louver-shuttling control-bar axle-screw fit through said automatic-multi-louver-shuttling multi-louver-conjoining control-bar and into said automatic-multi-louver-shuttling control-bar axle; An automatic multi-louver-shuttling hand-crank axle rotatably secured to said automatic-multi-louver-shuttling shuttling gear box; An automatic multi-louver-shuttling hand-crank coupler secured to said automatic multi-louver-shuttling hand-crank axle; An automatic multi-louver-shuttling hand-crank twistably and releasably secured to said automatic multi-louver-shuttling hand-crank coupler; A cost-saving production-increasing rainwater-shedding leaf-filtering beam secured to said double-gutter-supporting-and-locking post; An axle-mounting plateau formed to said cost-saving production-increasing rainwater-shedding leaf-filtering beam; A noise-canceling axle saddle secured to said axle-mounting plateau; A noise-canceling axle clamp secured to said noise-canceling axle saddle; A rainwater-shedding gutter formed to said cost-saving production-increasing rainwater-shedding leaf-filtering beam; and A plurality of leaf-filtering drain-holes respectively drilled into said rainwater-shedding gutter.

2. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said cost-saving production-increasing inner corner parapet is made of the material of metal or plastic.

3. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate is made of the material of metal or plastic.

4. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said anti-twisting anti-warping cost-saving production-increasing auto-centering bracket is made of the material of metal or plastic.

5. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said anti-twisting anti-warping anti-vibrating 90-degree-double-yokes are each made of the material of metal, plastic, or rubber.

6. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said cost-saving production-increasing left-side louver end is formed into the shape of a letter C with a left, a central, and a right holes.

7. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said cost-saving production-increasing right-side louver end is formed into the shape of a letter C with a left, a central, and a right holes.

8. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said triple wind-dissipating tunnels are each formed into the shape of an opening.

9. The five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver of claim 1: wherein said quadruple snap-locking tails are each formed into the shape of multiple rectangles.

10. A five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver comprising: A cost-saving production-increasing outer corner; An outer-corner mounting flange formed to said cost-saving production-increasing outer corner; A cost-saving production-increasing inner corner parapet secured to said outer-corner mounting flange; A cost-saving production-increasing honeycomb grate formed to said cost-saving production-increasing inner corner parapet; An inner-corner mounting flange formed to said cost-saving production-increasing inner corner parapet; A cost-saving production-increasing auto-centering bracket formed to said cost-saving production-increasing inner corner parapet, said cost-saving production-increasing honeycomb grate formed within said cost-saving production-increasing auto-centering bracket; A plurality of corner screws respectively screwed into said cost-saving production-increasing inner corner parapet; A plurality of 90-degree-double-yokes respectively fit around said corner screws; A plurality of corner nuts respectively secured to said corner screws; A plurality of nut-securing holes respectively drilled into said cost-saving production-increasing inner corner parapet and cupped around said corner nuts; A double-gutter-supporting-and-locking post having a bottom, said double-gutter-supporting-and-locking post secured to said cost-saving production-increasing inner corner parapet; A post-top double-gutter-supporting-and-locking parapet-mounting flange formed to said double-gutter-supporting-and-locking post; A 4-opposite-direction-securing post plate; A plurality of 4-opposite-direction-securing post-mounting flanges respectively secured to said double-gutter-supporting-and-locking post, said 4-opposite-direction-securing post plate formed to said 4-opposite-direction-securing post-mounting flanges; A plurality of post-plate ground-securing screws respectively inserted through said 4-opposite-direction-securing post plate and into a surface; A post-plate cover placed around said bottom of said double-gutter-supporting-and-locking post and over said 4-opposite-direction-securing post plate and said post-plate ground-securing screws; A rainwater-shedding louver having a left end and a right end; A cost-saving left-side louver end secured to said left end of said rainwater-shedding louver; A cost-saving right-side louver end secured to said right end of said rainwater-shedding louver; A plurality of rainwater-draining axle bores; A plurality of wind-dissipating tunnels respectively formed in said cost-saving left-side louver end and in said cost-saving right-side louver end; A plurality of anti-noise louver axles, having axle ends, respectively formed to said cost-saving left-side louver end and said cost-saving right-side louver end, said rainwater-draining axle bores respectively formed within said anti-noise louver axles; A plurality of axle-locking circular dykes respectively formed to said axle ends of said anti-noise louver axles; A plurality of cost-saving shuttling axles respectively formed to said cost-saving left-side louver end and said cost-saving right-side louver end; A plurality of snap-locking tails respectively formed to said cost-saving left-side louver end and said cost-saving right-side louver end; A louver-mounted bracket secured to said rainwater-shedding louver; A louver-mounted axle secured to said louver-mounted bracket; A louver-mounted bracket-plate secured to said louver-mounted bracket; An automatic-multi-louver-shuttling control-bar axle secured to said louver-mounted bracket; An automatic-multi-louver-shuttling linkage arm having a first linkage-arm end and a second linkage-arm end, said louver-mounted bracket-plate secured to said first linkage-arm end of said automatic-multi-louver-shuttling linkage arm; An automatic-multi-louver-shuttling gear-box axle secured to said second linkage-arm end of said automatic-multi-louver-shuttling linkage arm; An automatic-multi-louver-shuttling gear box secured to said automatic-multi-louver-shuttling gear-box axle; An automatic-multi-louver-shuttling multi-louver-conjoining control-bar pivotably secured to said automatic-multi-louver-shuttling control-bar axle and said cost-saving anti-noise shuttling axle; An automatic multi-louver-shuttling hand-crank axle rotatably secured to said automatic-multi-louver-shuttling gear box; An automatic multi-louver-shuttling hand-crank coupler secured to said automatic multi-louver-shuttling hand-crank axle; An automatic multi-louver-shuttling hand-crank twistably and releasably secured to said automatic multi-louver-shuttling hand-crank coupler; A cost-saving rainwater-shedding beam secured to said double-gutter-supporting-and-locking post; An axle-mounting plateau formed to said cost-saving rainwater-shedding beam; A noise-canceling axle saddle secured to said axle-mounting plateau; A noise-canceling axle clamp secured to said noise-canceling axle saddle; A rainwater-shedding gutter formed to said cost-saving rainwater-shedding beam; and A plurality of drain-holes respectively drilled into said rainwater-shedding gutter.

11. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said cost-saving production-increasing inner corner parapet is made of the material of metal or plastic.

12. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said cost-saving production-increasing honeycomb grate is made of the material of metal or plastic.

13. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said cost-saving production-increasing auto-centering bracket is made of the material of metal or plastic.

14. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said 90-degree-double-yokes are each made of the material of metal, plastic, or rubber.

15. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said cost-saving left-side louver end is formed into the shape of a letter C with a left, a central, and a right holes.

16. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said cost-saving right-side louver end is formed into the shape of a letter C with a left, a central, and a right holes.

17. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said wind-dissipating tunnels are each formed into the shape of an opening.

18. The five-device-in-one anti-twisting anti-warping anti-vibrating corner and wind-dissipating louver of claim 10: wherein said snap-locking tails are each formed into the shape of multiple rectangles.

19. A five-device-in-one corner and louver comprising: An outer corner; An outer-corner mounting flange formed to said outer corner; An inner corner parapet secured to said outer-corner mounting flange; A honeycomb grate formed to said inner corner parapet; An inner-corner mounting flange formed to said inner corner parapet; An auto-centering bracket formed to said inner corner parapet, said honeycomb grate formed within said auto-centering bracket; A post having a bottom, said post secured to said inner corner parapet; A parapet-mounting flange formed to said post; A post plate; A plurality of post-mounting flanges respectively secured to said post, said post plate formed to said post-mounting flanges; A plurality of ground-securing screws respectively inserted through said post plate and into a surface; A post-plate cover placed around said bottom of said post and over said post plate and said ground-securing screws; A louver having a left end and a right end; A left-side louver end secured to said left end of said louver; A right-side louver end secured to said right end of said louver; A plurality of louver axles, formed to said left-side louver end and said right-side louver end; A plurality of shuttling axles formed to said left-side louver end and said right-side louver end; A beam secured to said post; An axle plateau formed to said beam; An axle saddle secured to said axle plateau; An axle clamp secured to said axle saddle; and A rainwater-shedding gutter formed to said beam.

20. The five-device-in-one corner and louver of claim 19: wherein said inner corner parapet is made of the material of metal or plastic.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0069] 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.

[0070] FIG. 1-FIG. 2 illustrate perspective views demonstrating components and the assembly of anti-twisting anti-warping cost-saving production-increasing outer corner system 101 and leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105.

[0071] FIG. 3-FIG. 7 illustrate perspective views demonstrating additional applications of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver being used to reinforce, to connect, and to support horizontal posts, vertical posts, and gutters to shed rainwater and leaves from a pergola, an RV, stage, house, and solar array, respectively.

[0072] FIG. 8 illustrates a perspective view demonstrating how the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver can be used to support an awning when attached to a building.

[0073] FIG. 9-FIG. 13 illustrate perspective, side, and top views demonstrating how leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 can be used to support a solar panel, an outdoor speaker, an outdoor light, and be used to filter and break-up leaves, respectively.

[0074] FIG. 14 illustrates a perspective view demonstrating the anti-twisting and anti-warping capabilities of anti-twisting anti-warping cost-saving production-increasing outer corner 102, cost-saving production-increasing inner corner parapet 106, leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107, anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109, and anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b.

[0075] FIG. 15-FIG. 45 illustrates perspective, front, side, and top views demonstrating components and assembly of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0076] FIG. 46-FIG. 50 illustrate perspective views demonstrating various functions of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver being used to reinforce, to connect, and to support horizontal posts, vertical posts, and gutters to shed rainwater and leaves from a pergola, an RV, stage, house, and solar array, respectively.

[0077] FIG. 51illustrates a perspective view demonstrating the functions of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver being used to support an awning when attached to a building.

[0078] FIG. 52-FIG. 56 illustrate perspective, side and top views demonstrating functions of leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 being used to support a solar panel, an outdoor speaker, an outdoor light, and be used to filter and break-up leaves, respectively.

[0079] FIG. 57 illustrates a perspective view demonstrating the anti-twisting and anti-warping functions of anti-twisting anti-warping cost-saving production-increasing outer corner 102, cost-saving production-increasing inner corner parapet 106, leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107, anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109, and anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b.

[0080] FIG. 58 illustrates a perspective view of five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0081] FIG. 59-FIG. 60 illustrate perspective views of cost-saving production-increasing right-side louver end 131 and cost-saving production-increasing left-side louver end 130, respectively.

[0082] FIG. 61-FIG. 64 illustrate perspective views demonstrating how noise-canceling rainwater-draining axle bore 132 and triple wind-dissipating tunnels 133 can dissipate wind.

[0083] FIG. 65-FIG. 112 illustrate perspective, side, back, front, bottom, and top views demonstrating various components and assembly of five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0084] FIG. 113-FIG. 121 illustrate perspective, top, and side views demonstrating components and functionality of automatic-multi-louver-shuttling system 138.

[0085] FIG. 122-FIG. 131 illustrate perspective, and side views demonstrating components and functionality of cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 for shedding rainwater.

[0086] FIG. 132-FIG. 155 illustrate perspective views demonstrating how noise-canceling rainwater-draining axle bore 132 and triple wind-dissipating tunnels 133 can dissipate wind.

[0087] FIG. 156-FIG. 160 illustrate perspective views demonstrating components of automatic-multi-louver-shuttling system 138.

[0088] FIG. 161-FIG. 166 illustrate perspective, top, and front views demonstrating components and assembly of rainwater-shedding rainwater-directing louver systems 124 and cost-saving production-increasing noise-canceling wind-dissipating louver end systems 129.

[0089] FIG. 167-FIG. 198 illustrate equivalent variations of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0090] FIG. 199-FIG. 202 illustrate equivalent applications of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (being used to support a gutter to shed water from an RV, concert stage, house, and solar panel in the directions of arrows 156, 157, 158, and 159, respectively).

[0091] FIG. 203 illustrates an equivalent application of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver being used to support an awning when attached to a building.

[0092] FIGS. 204-208 illustrate equivalent applications of leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 being used to support a solar panel, an outdoor speaker, an outdoor light, and being used to filter leaves and other debris.

[0093] FIG. 209 illustrates equivalent applications of anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 providing anti-twisting and anti-warping abilities to retain original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0094] FIG. 210-FIG. 215 illustrate equivalent variations of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0095] FIG. 216-FIG. 269 illustrate equivalent variations of components of five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0096] FIG. 270-FIG. 325 illustrate equivalent applications of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

DETAILED DESCRIPTION

[0097] 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.

[0098] The prior art have failed to solve many problems associated with such pergola, as follows: [0099] 1) No prior art mention or disclose any pergola, having anti-twisting anti-warping cost-saving production-increasing outer corner 102. Therefore, the prior art of pergola are: Not capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Not capable of saving cost by being injection-molded in a single piece; and Not capable of increasing production capabilities by being injection-molded in a single piece. [0100] 2) No prior art mention or disclose any pergola, having cost-saving production-increasing inner corner parapet 106. Therefore, the prior art of pergola are: Not capable of being used to support a pergola or an RV gutter to shed rainwater therefrom in the direction of arrow 156 (see FIG. 3, FIG. 4, FIG. 46, and FIG. 47); Not capable of being used to support a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Not capable of being used to support a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Not capable of being used to support a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); Not capable of being used to support an awning when attached to a building (see FIG. 8, and FIG. 51); Not capable of saving cost by being injection molded in a single piece; and Not capable of increasing production capabilities by being injection molded in a single piece. [0101] 3) No prior art mention or disclose any pergola, having leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107. Therefore, the prior art of pergola are: Not capable of filtering leaves and other debris from getting inside double-gutter-supporting-and-locking post 114 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Not capable of breaking up leaves and other debris to prevent large leaves from getting into double-gutter-supporting-and-locking post 114 in the direction of arrow 160 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Not capable of securing a solar panel (see FIG. 9, and FIG. 52); Not capable of securing an outdoor speaker (see FIG. 10, and FIG. 53); Not capable of securing an outdoor light for illuminating through leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 (see FIG. 11, and FIG. 54); Not capable of saving cost by being injection molded in a single piece; and Not capable of increasing production capabilities by being injection molded in a single piece. [0102] 4) No prior art mention or disclose any pergola, having anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b. Therefore, the prior art of pergola are: Not capable of anti-vibrating while in use by cushioning cost-saving production-increasing inner corner parapet 106 (see FIG. 14, and FIG. 22); and Not capable of absorbing vibrations caused by wind while in use. [0103] 5) No prior art mention or disclose any pergola, having double-gutter-supporting-and-locking post 114. Therefore, the prior art of pergola are: Not capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Not capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Not capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Not capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Not capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51). [0104] 6) No prior art mention or disclose any pergola, having post-top double-gutter-supporting-and-locking parapet-mounting flange 115. Therefore, the prior art of pergola are: Not capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Not capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Not capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Not capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Not capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51).

[0105] No prior art mention or disclose any pergola, having anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Therefore, the prior art of pergola are: Not capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Not capable of securing double-gutter-supporting-and-locking post 114 to anti-twisting anti-warping 4-opposite-direction-securing post plate 119.

[0106] No prior art mention or disclose any pergola, having cost-saving production-increasing left-side louver end 130. Therefore, the prior art of pergola are: Not capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Not capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware. No prior art mention or disclose any pergola, having cost-saving production-increasing right-side louver end 131. Therefore, the prior art of pergola are: Not capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Not capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0107] No prior art mention or disclose any pergola, having noise-canceling rainwater-draining axle bore 132. Therefore, the prior art of pergola are: Not capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64); and Not capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64).

[0108] No prior art mention or disclose any pergola, having triple wind-dissipating tunnels 133. Therefore, the prior art of pergola are: Not capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64); and Not capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64).

[0109] No prior art mention or disclose any pergola, having cost-saving production-increasing anti-noise louver axle 134. Therefore, the prior art of pergola are: Not capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Not capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Not capable of providing location for cost-saving production-increasing left-side louver end 130 or cost-saving production-increasing right-side louver end 131 to pivotably rotate in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117). Not capable of noise-cancelling when rotated between noise-canceling axle saddle 150 and noise-canceling axle clamp 151 in the direction of arrow 157 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117).

[0110] No prior art mention or disclose any pergola, having cost-saving production-increasing anti-noise shuttling axle 136. Therefore, the prior art of pergola are: Not capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Not capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; Not capable of providing location for automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 to be pivotably attached in the direction of arrow 165 (see FIG. 115 and FIG. 116).

[0111] No prior art mention or disclose any pergola, having quadruple snap-locking tails 137. Therefore, the prior art of pergola are: Not capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Not capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Not capable of snap-locking to rainwater-shedding louver 125 without need for hardware.

Objects and Advantages of the Invention

[0112] Some embodiments of the present invention substantially depart from the conventional concepts and designs of the prior art. In doing so, an embodiment provides a five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (for being adapted to pergola, RV, house, solar panel, and concert stage), having many new and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows: [0113] 1) In some embodiments, it is an object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping cost-saving production-increasing outer corner 102. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Capable of saving cost by being injection-molded in a single piece; and Capable of increasing production capabilities by being injection-molded in a single piece. [0114] 2) In some embodiments, it is another object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing inner corner parapet 106. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of being used to support a pergola or an RV gutter to shed rainwater therefrom in the direction of arrow 156 (see FIG. 3, FIG. 4, FIG. 46, and FIG. 47); Capable of being used to support a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of being used to support a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of being use to support a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); Capable of being used to support an awning when attached to a building (see FIG. 8, and FIG. 51); Capable of saving cost by being injection molded in a single piece; and Capable of increasing production capabilities by being injection molded in a single piece. [0115] 3) In some embodiments, it is still another object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of filtering leaves and other debris from getting inside double-gutter-supporting-and-locking post 114 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Capable of breaking up leaves and other debris to prevent large leaves from getting into double-gutter-supporting-and-locking post 114 in the direction of arrow 160 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Capable of securing a solar panel (see FIG. 9, and FIG. 52); Capable of securing an outdoor speaker (see FIG. 10, and FIG. 53); Capable of securing an outdoor light for illuminating through leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 (see FIG. 11, and FIG. 54); Capable of saving cost by being injection molded in a single piece; and Capable of increasing production capabilities by being injection molded in a single piece. [0116] 4) In some embodiments, it is a further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of anti-vibrating while in use by cushioning cost-saving production-increasing inner corner parapet 106 (see FIG. 14, and FIG. 22); and Capable of absorbing vibrations caused by wind while in use. [0117] 5) In some embodiments, it is a further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having double-gutter-supporting-and-locking post 114. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51). [0118] 6) In some embodiments, it is another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having post-top double-gutter-supporting-and-locking parapet-mounting flange 115. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51). It is yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Capable of securing double-gutter-supporting-and-locking post 114 to anti-twisting anti-warping 4-opposite-direction-securing post plate 119. It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing left-side louver end 130. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0119] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing right-side louver end 131. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0120] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having noise-canceling rainwater-draining axle bore 132. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64); and Capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64).

[0121] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having triple wind-dissipating tunnels 133. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64); and Capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64).

[0122] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing anti-noise louver axle 134. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of providing location for cost-saving production-increasing left-side louver end 130 or cost-saving production-increasing right-side louver end 131 to pivotably rotate in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117). Capable of noise-cancelling when rotated between noise-canceling axle saddle 150 and noise-canceling axle clamp 151 in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117).

[0123] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing anti-noise shuttling axle 136. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; Capable of providing location for automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 to be pivotably attached in the direction of arrow 165 (see FIG. 115 and FIG. 116)

[0124] In some embodiments, it is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having quadruple snap-locking tails 137. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of snap-locking to rainwater-shedding louver 125 without need for hardware.

[0125] In some embodiments, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (for being adapted to pergola, RV, house, solar panel, and concert stage) comprises: Anti-twisting anti-warping cost-saving production-increasing outer corner system, Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system, Double-gutter-supporting-and-locking post system, Anti-twisting anti-warping 4-opposite-direction-securing post-plate system, Rainwater-shedding rainwater-directing louver systems, Cost-saving production-increasing noise-canceling wind-dissipating louver end systems, Automatic-multi-louver-shuttleing system, and Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems.

Component

[0126] Referring to FIG. 1-FIG. 45, in some embodiments, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (for being adapted to pergola, RV, house, solar panel, and concert stage) comprises: Anti-twisting anti-warping cost-saving production-increasing outer corner system 101 comprises (or each including): Anti-twisting anti-warping cost-saving production-increasing outer corner 102, Outer-corner mounting flange 103, and Outer-corner-mounting holes 104; Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105 comprises (or each including): Cost-saving production-increasing inner corner parapet 106, Leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107, Inner-corner mounting flange 108, Anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109, Corner screws 110a, Anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b, Corner nuts 111, and Nut-securing holes 112; Double-gutter-supporting-and-locking post system 113 comprises (or each including): Double-gutter-supporting-and-locking post 114, Post-top double-gutter-supporting-and-locking parapet-mounting flange 115, Post-top flange holes 116, and Post-top double-gutter-supporting-and-locking opening 117; Anti-twisting anti-warping 4-opposite-direction-securing post-plate system 118 comprises (or each including): Anti-twisting anti-warping 4-opposite-direction-securing post plate 119, Anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120, Post-plate mounting holes 121, Post-plate ground-securing screws 122, and Post-plate cover 123; Rainwater-shedding rainwater-directing louver systems 124 each including: Rainwater-shedding louver 125, Rainwater-directing walls 126, Overlapping rainwater shield 127, and Noise-deleting cushion 128; Cost-saving production-increasing noise-canceling wind-dissipating louver end systems 129 each including: Cost-saving production-increasing left-side louver end 130, Cost-saving production-increasing right-side louver end 131, Noise-canceling rainwater-draining axle bores 132, Triple wind-dissipating tunnels 133, Cost-saving production-increasing anti-noise louver axles 134, Axle-locking circular dykes 135, Cost-saving production-increasing anti-noise shuttling axles 136, and Quadruple snap-locking tails 137; Automatic-multi-louver-shuttling system 138 including: Automatic-multi-louver-shuttling multi-articulated linkage arm 139, Automatic-multi-louver-shuttling gear-box axle 140, Automatic-multi-louver-shuttling shuttling gear box 141, Automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142, Automatic-multi-louver-shuttling control-bar axle 143a, Automatic-multi-louver-shuttling control-bar axle-screw 143b, Louver-mounted bracket 144a, Louver-mounted axle 144b, Louver-mounted bracket-plate 144c, Automatic multi-louver-shuttling hand-crank axle 145a, Automatic multi-louver-shuttling hand-crank coupler 145b, and Automatic multi-louver-shuttling hand-crank 146; and Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 each including: Cost-saving production-increasing rainwater-shedding leaf-filtering beam 148, Axle-mounting plateau 149, Noise-canceling axle saddle 150, Noise-canceling axle clamp 151, Rainwater-shedding gutter 152, and Leaf-filtering drain-holes 153.

Material

[0127] Referring to FIG. 1-FIG. 45: in some embodiments, Anti-twisting anti-warping cost-saving production-increasing outer corner system 101 may be made of the combined materials of its components. Anti-twisting anti-warping cost-saving production-increasing outer corner 102 may be made of the material of metal or plastic. Outer-corner mounting flange 103 may be made of the material of metal or plastic. Outer-corner-mounting holes 104 may each be made of the material of empty space. Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105 may be made of the combined materials of its components. Cost-saving production-increasing inner corner parapet 106 may be made of the material of metal or plastic. Leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 may be made of the material of metal or plastic. Inner-corner mounting flange 108 may be made of the material of metal or plastic.

[0128] In some embodiments, Anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 may be made of the material of metal or plastic. Corner screws 110a may each be made of the material of metal or plastic. Anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b may each be made of the material of metal or plastic. Corner nuts 111 may each be made of the material of metal or plastic. Nut-securing holes 112 may each be made of the material of empty space. Double-gutter-supporting-and-locking post system 113 may be made of the combined materials of its components. Double-gutter-supporting-and-locking post 114 may be made of the material of metal or plastic.

[0129] In some embodiments, Post-top double-gutter-supporting-and-locking parapet-mounting flange 115 may be made of the material of metal or plastic. Post-top flange holes 116 may each be made of the material of empty space. Post-top double-gutter-supporting-and-locking opening 117 may be made of the material of empty space. Anti-twisting anti-warping 4-opposite-direction-securing post-plate system 118 may be made of the combined materials of its components. Anti-twisting anti-warping 4-opposite-direction-securing post plate 119 may be made of the material of metal or plastic.

[0130] In some embodiments, Anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120 may each be made of the material of metal or plastic. Post-plate mounting holes 121 may each be made of the material of empty space. Post-plate ground-securing screws 122 may each be made of the material of metal or plastic. Post-plate cover 123 may be made of the material of metal or metal or plastic. Rainwater-shedding rainwater-directing louver systems 124 may each be made of the combined materials of its components.

[0131] In some embodiments, Rainwater-shedding louver 125 may be made of the material of metal or plastic. Rainwater-directing walls 126 may each be made of the material of metal or plastic. Overlapping rainwater shield 127 may be made of the material of metal or plastic. Noise-deleting cushion 128 may be made of the material of metal or plastic. Cost-saving production-increasing noise-canceling wind-dissipating louver end systems 129 may each be made of the combined materials of its components. Cost-saving production-increasing left-side louver end 130 may be made of the material of metal or plastic.

[0132] In some embodiments, Cost-saving production-increasing right-side louver end 131 may be made of the material of metal or plastic. Noise-canceling rainwater-draining axle bores 132 may each be made of the material of metal or plastic. Triple wind-dissipating tunnels 133 may each be made of the material of metal or plastic. Cost-saving production-increasing anti-noise louver axles 134 may each be made of the material of metal or plastic. Axle-locking circular dykes 135 may each be made of the material of metal or plastic.

[0133] In some embodiments, Cost-saving production-increasing anti-noise shuttling axles 136 may each be made of the material of metal or plastic. Quadruple snap-locking tails 137 may each be made of the material of metal or plastic. Automatic-multi-louver-shuttling system 138 may be made of the combined materials of its components. Automatic-multi-louver-shuttling multi-articulated linkage arm 139 may be made of the material of metal or plastic. Automatic-multi-louver-shuttling gear-box axle 140 may be made of the material of metal or plastic. Automatic-multi-louver-shuttling shuttling gear box 141 may be made of the material of metal or plastic. Automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 may be made of the material of metal or plastic. Automatic-multi-louver-shuttling control-bar axle 143a may be made of the material of metal or plastic. Automatic-multi-louver-shuttling control-bar axle-screw 143b may be made of the material of metal or plastic. Louver-mounted bracket 144a may be made of the material of metal or plastic.

[0134] In some embodiments, Louver-mounted axle 144b may be made of the material of metal or plastic. Louver-mounted bracket-plate 144c may be made of the material of metal or plastic. Automatic multi-louver-shuttling hand-crank axle 145a may be made of the material of metal or plastic. Automatic multi-louver-shuttling hand-crank coupler 145b may be made of the material of metal or plastic. Automatic multi-louver-shuttling hand-crank 146 may be made of the material of metal or plastic. Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 may each be made of the combined materials of its components. Cost-saving production-increasing rainwater-shedding leaf-filtering beam 148 may be made of the material of metal or plastic.

[0135] In some embodiments, Axle-mounting plateau 149 may be made of the material of metal or plastic. Noise-canceling axle saddle 150 may be made of the material of metal or plastic. Noise-canceling axle clamp 151 may be made of the material of metal or plastic. Rainwater-shedding gutter 152 may be made of the material of metal or plastic. Leaf-filtering drain-holes 153 may each be made of the material of metal or plastic.

Shape

[0136] Referring to FIG. 1-FIG. 45: In some embodiments, Anti-twisting anti-warping cost-saving production-increasing outer corner system 101 may be formed into the combined shapes of its components. Anti-twisting anti-warping cost-saving production-increasing outer corner 102 may be formed into the shape of a cross-section of letter L. Outer-corner mounting flange 103 may be formed into the shape of a rectangle. Outer-corner-mounting holes 104 may each be formed into the shape of a circle or rounded rectangle. Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105 may be formed into the combined shapes of its components. Cost-saving production-increasing inner corner parapet 106 may be formed into the shape of rectangles with opposite-L-shaped cross-sections.

[0137] In some embodiments, Leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 may be formed into the shape of a square with hexagonal openings. Inner-corner mounting flange 108 may be formed into the shape of a rectangle. Anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 may be formed into the shape of a letter L. Corner screws 110a may each be formed into the shape of a screw. Anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b may each be formed into the shape of a flat figure eight. Corner nuts 111 may each be formed into the shape of a nut. Nut-securing holes 112 may each be formed into the shape of a circle.

[0138] In some embodiments, Double-gutter-supporting-and-locking post system 113 may be formed into the combined shapes of its components. Double-gutter-supporting-and-locking post 114 may be formed into the shape of a square tube with a square notch cut-out of two sides of the top. Post-top double-gutter-supporting-and-locking parapet-mounting flange 115 may be formed into the shape of a rectangle. Post-top flange holes 116 may each be formed into the shape of a circle. Post-top double-gutter-supporting-and-locking opening 117 may be formed into the shape of a square. Anti-twisting anti-warping 4-opposite-direction-securing post-plate system 118 may be formed into the combined shapes of its components. Anti-twisting anti-warping 4-opposite-direction-securing post plate 119 may be formed into the shape of a flat square.

[0139] In some embodiments, Anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120 may each be formed into the shape of a trapezoid. Post-plate mounting holes 121 may each be formed into the shape of a circle. Post-plate ground-securing screws 122 may each be formed into the shape of a screw. Post-plate cover 123 may be formed into the shape of a low box with a square opening. Rainwater-shedding rainwater-directing louver systems 124 may each be formed into the combined shapes of its components. Rainwater-shedding louver 125 may be formed into the shape of a rectangle with curved edge.

[0140] In some embodiments, Rainwater-directing walls 126 may each be formed into the shape of a letter L. Overlapping rainwater shield 127 may be formed into the shape of an upside-down letter U. Noise-deleting cushion 128 may be formed into the shape of a nipple. Cost-saving production-increasing noise-canceling wind-dissipating louver end systems 129 may each be formed into the combined shapes of its components. Cost-saving production-increasing left-side louver end 130 may be formed into the shape of a letter C with a left, a central, and a right holes.

[0141] In some embodiments, Cost-saving production-increasing right-side louver end 131 may be formed into the shape of a letter C with a left, a central, and a right holes. Noise-canceling rainwater-draining axle bores 132 may each be formed into the shape of a tunnel. Triple wind-dissipating tunnels 133 may each be formed into the shape of an opening. Cost-saving production-increasing anti-noise louver axles 134 may each be formed into the shape of a tube. Axle-locking circular dykes 135 may each be formed into the shape of a ring.

[0142] In some embodiments, Cost-saving production-increasing anti-noise shuttling axles 136 may each be formed into the shape of a tube. Quadruple snap-locking tails 137 may each be formed into the shape of multiple rectangles. Automatic-multi-louver-shuttling system 138 may be formed into the combined shapes of its components. Automatic-multi-louver-shuttling multi-articulated linkage arm 139 may be formed into the shape of a pendulum pivotably joined to a flat extension stick. Automatic-multi-louver-shuttling gear-box axle 140 may be formed into the shape of a cylinder. Automatic-multi-louver-shuttling shuttling gear box 141 may be formed into the shape of a square.

[0143] In some embodiments, Automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 may be formed into the shape of an elongated rectangle. Automatic-multi-louver-shuttling control-bar axle 143a may be formed into the shape of a tube. Automatic-multi-louver-shuttling control-bar axle-screw 143b may be formed into the shape of a screw. Louver-mounted bracket 144a may be formed into the shape of a letter C. Louver-mounted axle 144b may be formed into the shape of a tube. Louver-mounted bracket-plate 144c may be formed into the shape of a letter C. Automatic multi-louver-shuttling hand-crank axle 145a may be formed into the shape of a tube. Automatic multi-louver-shuttling hand-crank coupler 145b may be formed into the shape of a tube. Automatic multi-louver-shuttling hand-crank 146 may be formed into the shape of a letter S.

[0144] In some embodiments, Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 may each be formed into the combined shapes of its components. Cost-saving production-increasing rainwater-shedding leaf-filtering beam 148 may be formed into the shape of a letter U. Axle-mounting plateau 149 may be formed into the shape of an upside-down letter U. Noise-canceling axle saddle 150 may be formed into the shape of a letter C. Noise-canceling axle clamp 151 may be formed into the shape of a letter A. Rainwater-shedding gutter 152 may be formed into the shape of a letter U. Leaf-filtering drain-holes 153 may each be formed into the shape of a circular opening.

Connection

[0145] Referring to FIG. 1-FIG. 45: In some embodiments, Anti-twisting anti-warping cost-saving production-increasing outer corner system 101 has the combined connections of its components. Anti-twisting anti-warping cost-saving production-increasing outer corner 102 may be formed to outer-corner mounting flange 103. Outer-corner mounting flange 103 may be secured to cost-saving production-increasing inner corner parapet 106. Outer-corner-mounting holes 104 may be respectively drilled into outer-corner mounting flange 103.

[0146] In some embodiments, Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105 has the combined connections of its components. Cost-saving production-increasing inner corner parapet 106 may be formed to leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107. Leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 may be formed within anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109. Inner-corner mounting flange 108 may be formed to cost-saving production-increasing inner corner parapet 106. Anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 may be formed to cost-saving production-increasing inner corner parapet 106.

[0147] In some embodiments, Corner screws 110a may be respectively inserted through anti-twisting anti-warping anti-vibrating 90-degree-double-yoke 110b and screwed into cost-saving production-increasing inner corner parapet 106. Anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b may be respectively fit around corner screws 110a. Corner nuts 111 may be respectively secured to corner screws 110a. Nut-securing holes 112 may be respectively drilled into cost-saving production-increasing inner corner parapet 106 and cupped around corner nuts 111.

[0148] In some embodiments, Double-gutter-supporting-and-locking post system 113 has the combined connections of its components. Double-gutter-supporting-and-locking post 114 may be secured to cost-saving production-increasing inner corner parapet 106 and anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Post-top double-gutter-supporting-and-locking parapet-mounting flange 115 may be formed to double-gutter-supporting-and-locking post 114. Post-top flange holes 116 may be respectively drilled into post-top double-gutter-supporting-and-locking parapet-mounting flange 115. Post-top double-gutter-supporting-and-locking opening 117 may be formed into double-gutter-supporting-and-locking post 114.

[0149] In some embodiments, Anti-twisting anti-warping 4-opposite-direction-securing post-plate system 118 has the combined connections of its components. Anti-twisting anti-warping 4-opposite-direction-securing post plate 119 may be formed to anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120 may be respectively secured to double-gutter-supporting-and-locking post 114. Post-plate mounting holes 121 may be respectively drilled into anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Post-plate ground-securing screws 122 may be respectively inserted through anti-twisting anti-warping 4-opposite-direction-securing post plate 119 and into a surface (for example, a ground surface, a patio surface, etc.).

[0150] In some embodiments, Post-plate cover 123 may be place around the bottom of double-gutter-supporting-and-locking post 114 and over anti-twisting anti-warping 4-opposite-direction-securing post plate 119 and post-plate ground-securing screws 122. Rainwater-shedding rainwater-directing louver systems 124 has the combined connections of its components. Rainwater-shedding louver 125 may be secured between cost-saving production-increasing left-side louver end 130 and cost-saving production-increasing right-side louver end 131. Rainwater-directing walls 126 may be respectively formed to rainwater-shedding louver 125. Overlapping rainwater shield 127 may be formed to rainwater-shedding louver 125. Noise-deleting cushion 128 may be snap-fit into rainwater-shedding louver 125. Cost-saving production-increasing noise-deleting wind-dissipating louver end systems 129 has the combined connections of its components. Cost-saving production-increasing left-side louver end 130 may be secured to the left end of rainwater-shedding louver 125.

[0151] In some embodiments, Cost-saving production-increasing right-side louver end 131 may be secured to the right end of rainwater-shedding louver 125. Noise-canceling rainwater-draining axle bores 132 may be respectively formed within cost-saving production-increasing anti-noise louver axles 134. Triple wind-dissipating tunnels 133 may be respectively formed in cost-saving production-increasing left-side louver end 130 and in cost-saving production-increasing right-side louver end 131. Cost-saving production-increasing anti-noise louver axles 134 may be respectively formed to cost-saving production-increasing left-side louver end 130 and cost-saving production-increasing right-side louver end 131. Axle-locking circular dykes 135 may be respectively formed to the axle ends of cost-saving production-increasing anti-noise louver axle 134. Cost-saving production-increasing anti-noise shuttling axles 136 may be respectively formed to cost-saving production-increasing left-side louver end 130 and cost-saving production-increasing right-side louver end 131. Quadruple snap-locking tails 137 may be respectively formed to cost-saving production-increasing left-side louver end 130 and cost-saving production-increasing right-side louver end 131.

[0152] In some embodiments, Automatic-multi-louver-rotating system 138 has the combined connections of its components. Automatic-multi-louver-shuttling multi-articulated linkage arm 139 may be secured to automatic-multi-louver-shuttling gear-box axle 140 and to louver-mounted bracket-plate 144c (at its two opposite linkage-arm ends, respectively). Automatic-multi-louver-shuttling gear-box axle 140 may be secured to automatic-multi-louver-shuttling shuttling gear box 141 and automatic-multi-louver-shuttling multi-articulated linkage arm 139. Automatic-multi-louver-shuttling shuttling gear box 141 may be secured to automatic-multi-louver-shuttling gear-box axle 140 and automatic-multi-louver-shuttling control-bar axle 143a. Automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 may be pivotably secured to automatic-multi-louver-shuttling control-bar axle 143a, cost-saving production-increasing anti-noise shuttling axle 136 and automatic-multi-louver-shuttling control-bar axle 143a. Automatic-multi-louver-shuttling control-bar axle 143a is secured to louver-mounted bracket 144a. Automatic-multi-louver-shuttling control-bar axle-screw 143b may be fit through automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 and into automatic-multi-louver-shuttling control-bar axle 143a. Louver-mounted bracket 144a may be secured to rainwater-shedding louver 125. Louver-mounted axle 144b may be secured to louver-mounted bracket 144a. Louver-mounted bracket-plate 144c may be secured to louver-mounted bracket 144a.

[0153] In some embodiments, Automatic multi-louver-shuttling hand-crank axle 145a may be rotatably secured to automatic multi-louver-shuttling hand-crank coupler 145b and automatic-multi-louver-shuttling shuttling gear box 141. Automatic multi-louver-shuttling hand-crank coupler 145b is secured to automatic multi-louver-shuttling hand-crank axle 145a. Automatic multi-louver-shuttling hand-crank 146 may be twistably and releasably secured to automatic multi-louver-shuttling hand-crank coupler 145b. Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 has the combined connections of its components. Cost-saving production-increasing rainwater-shedding leaf-filtering beam 148 may be secured between two of double-gutter-supporting-and-locking posts 114. Axle-mounting plateau 149 may be formed to cost-saving production-increasing rainwater-shedding leaf-filtering beam 148. Noise-canceling axle saddle 150 may be secured to axle-mounting plateau 149. Noise-canceling axle clamp 151 may be secured to noise-canceling axle saddle 150. Rainwater-shedding gutter 152 may be formed to cost-saving production-increasing rainwater-shedding leaf-filtering beam 148. Leaf-filtering drain-holes 153 may be respectively drilled into rainwater-shedding gutter 152.

Function

[0154] Referring to FIG. 46-FIG. 166: In some embodiments, Anti-twisting anti-warping cost-saving production-increasing outer corner system 101 may be for performing the combined functions of its components. Anti-twisting anti-warping cost-saving production-increasing outer corner 102 may be for: Providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Saving cost by being injection-molded in a single piece; and Increasing production capabilities by being injection-molded in a single piece. Outer-corner mounting flange 103 may be for: Providing an area for securing anti-twisting anti-warping cost-saving production-increasing outer corner 102 to cost-saving production-increasing inner corner parapet 106. Outer-corner-mounting holes 104 may be respectively for: Providing places for corner screws 110a to be inserted. Leaf-filtering-and-breaking cost-saving production-increasing auto-centering inner corner system 105 may be for performing the combined functions of its components.

[0155] In some embodiments, Cost-saving production-increasing inner corner parapet 106 may be for: Being used to support a pergola or an RV gutter to shed rainwater therefrom in the direction of arrow 156 (see FIG. 3, FIG. 4, FIG. 46, and FIG. 47); Being used to support a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Being used to support a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Being used to support a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); Being used to support an awning when attached to a building (see FIG. 8, and FIG. 51); Saving cost by being injection molded in a single piece; and Increasing production capabilities by being injection molded in a single piece. Leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 may be for: Filtering leaves and other debris from getting inside double-gutter-supporting-and-locking post 114 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Breaking up leaves and other debris to prevent large leaves from getting into double-gutter-supporting-and-locking post 114 in the direction of arrow 160 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Securing a solar panel (see FIG. 9 and FIG. 52); Securing an outdoor speaker (see FIG. 10 and FIG. 53); Securing an outdoor light for illuminating through leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 (see FIG. 11 and FIG. 54); Saving cost by being injection molded in a single piece; and Increasing production capabilities by being injection molded in a single piece. Inner-corner mounting flange 108 may be for: Securing cost-saving production-increasing inner corner parapet 106 to double-gutter-supporting-and-locking post 114. Anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 may be for: Providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14 and FIG. 57); Auto-centering cost-saving production-increasing inner corner parapet 106 into the top of double-gutter-supporting-and-locking post 114 Saving cost by being injection molded in a single piece; and Increasing production capabilities by being injection molded in a single piece.

[0156] In some embodiments, Corner screws 110a may be respectively for: Securing cost-saving production-increasing inner corner parapet 106 to double-gutter-supporting-and-locking post 114. Anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b may be respectively for: Providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14 and FIG. 57); and Providing anti-vibrating by cushioning corner screws 110a when attached to cost-saving production-increasing inner corner parapet 106. Corner nuts 111 may be respectively for: Securing corner screws 110a. Nut-securing holes 112 may be respectively for: Locking corner nuts 111 from spinning when corner screws 110a may be installed.

[0157] In some embodiments, Double-gutter-supporting-and-locking post system 113 may be for performing the combined functions of its components. Double-gutter-supporting-and-locking post 114 may be for: Supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4 and FIG. 47); Supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5 and FIG. 48); Supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6 and FIG. 49); Supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7 and FIG. 50); and Supporting an awning when attached to a building (see FIG. 8 and FIG. 51).

[0158] In some embodiments, Post-top double-gutter-supporting-and-locking parapet-mounting flange 115 may be for: Supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4 and FIG. 47); Supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5 and FIG. 48); Supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6 and FIG. 49); Supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7 and FIG. 50); and Supporting an awning when attached to a building (see FIG. 8 and FIG. 51).

[0159] In some embodiments, Post-top flange holes 116 Providing places for corner screws 110a to secure cost-saving production-increasing inner corner parapet 106 to double-gutter-supporting-and-locking post 114 Post-top double-gutter-supporting-and-locking opening 117 may be for: Providing a location for anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 to be inserted and secured.

[0160] In some embodiments, Anti-twisting anti-warping 4-opposite-direction-securing post-plate system 118 may be for performing the combined functions of its components. Anti-twisting anti-warping 4-opposite-direction-securing post plate 119 may be for: Providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14 and FIG. 57); and Stabilizing double-gutter-supporting-and-locking post 114.

[0161] In some embodiments, Anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120 may be respectively for: Providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14 and FIG. 57); Securing double-gutter-supporting-and-locking post 114 to anti-twisting anti-warping 4-opposite-direction-securing post plate 119.

[0162] In some embodiments, Post-plate mounting holes 121 may be respectively for: Providing a location for anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120 to be secured by screws to double-gutter-supporting-and-locking post 114. Post-plate ground-securing screws 122 may be respectively for: Securing anti-twisting anti-warping 4-opposite-direction-securing post plate 119 to a ground surface.

[0163] In some embodiments, post-plate cover 123 may be for: Securely covering anti-twisting anti-warping 4-opposite-direction-securing post plate 119 and Post-plate ground-securing screws 122. Rainwater-shedding rainwater-directing louver systems 124 may be for performing the combined functions of its components. Rainwater-shedding louver 125 may be for: Blocking rain, snow, or sunshine when closed.

[0164] In some embodiments, directing rainwater to rainwater-shedding gutter 152 in the direction of arrow 161 (see FIG. 165-FIG. 167). Rainwater-directing walls 126 may be respectively for: Directing rainwater to rainwater-shedding gutter 152 in the direction of arrow 161 (see FIG. 165-FIG. 167). Overlapping rainwater shield 127 may be for: Covering gaps between adjacent rainwater-shedding louvers 125 when closed.

[0165] In some embodiments, Noise-deleting cushion 128 may be for: Preventing unwanted noise when closed. Cost-saving production-increasing noise-deleting wind-dissipating louver end systems 129 may be for performing the combined functions of its components. Cost-saving production-increasing left-side louver end 130 may be for: Saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0166] In some embodiments, Cost-saving production-increasing right-side louver end 131 may be for: Saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Increasing production by being injection molded in a single piece, eliminating unnecessary hardware. Noise-canceling rainwater-draining axle bores 132 may be respectively for: Draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 162a-162d (see FIG. 61-FIG. 64); and Dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 162a-162d (see FIG. 61-FIG. 64). Triple wind-dissipating tunnels 133 may be respectively for: Draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64); and Dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64).

[0167] In some embodiments, Cost-saving production-increasing anti-noise louver axles 134 may be respectively for: Saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Providing location for cost-saving production-increasing left-side louver end 130 or cost-saving production-increasing right-side louver end 131 to pivotably rotate in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117).

[0168] In some embodiments, Noise-cancelling when rotated between noise-canceling axle saddle 150 and noise-canceling axle clamp 151 in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117). Axle-locking circular dykes 135 may be respectively for: Securing cost-saving production-increasing anti-noise louver axle 134 within noise-canceling axle saddle 150 and noise-canceling axle clamp 151.

[0169] In some embodiments, Cost-saving production-increasing anti-noise shuttling axles 136 may be respectively for: Saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Increasing production by being injection molded in a single piece, eliminating unnecessary hardware; Providing location for automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 to be pivotably attached in the direction of arrow 165 (see FIG. 115 and FIG. 116)

[0170] In some embodiments, Quadruple snap-locking tails 137 may be respectively for: Saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Snap-locking to rainwater-shedding louver 125 without need for hardware.

[0171] In some embodiments, Automatic-multi-louver-rotating system 138 may be for performing the combined functions of its components. Automatic-multi-louver-shuttling multi-articulated linkage arm 139 may be for: Working in conjunction with automatic-multi-louver-shuttling shuttling gear box 141 to open and close rainwater-shedding rainwater-directing louver systems 124. Automatic-multi-louver-shuttling gear-box axle 140 may be for: Transferring motion generated from automatic-multi-louver-shuttling shuttling gear box 141 to engage automatic-multi-louver-shuttling multi-articulated linkage arm 139.

[0172] In some embodiments, automatic-multi-louver-shuttling shuttling gear box 141 may be for: Providing motion to open and close rainwater-shedding rainwater-directing louver systems 124. Automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 may be for: Conjoining multiple cost-saving production-increasing anti-noise shuttling axles 136 to allow multiple rainwater-shedding rainwater-directing louver systems 124 to be opened and closed simultaneously.

[0173] In some embodiments, Automatic-multi-louver-shuttling control-bar axle 143a may be for: Transferring motion generated from automatic multi-louver-shuttling hand-crank 146 to engage automatic-multi-louver-shuttling shuttling gear box 141 in the direction of arrow 166 (see FIG. 115-FIG. 117). Automatic-multi-louver-shuttling control-bar axle-screw 143b may be for: Securing automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 to multiple cost-saving production-increasing anti-noise shuttling axles 136. Louver-mounted bracket 144a may be for: Providing location onto rainwater-shedding louver 125 to engage automatic-multi-louver-rotating system 138.

[0174] In some embodiments, Louver-mounted axle 144b may be for: Providing a means for automatic-multi-louver-rotating system 138 to be rotated. Louver-mounted bracket-plate 144c may be for: Covering end of rainwater-shedding louver 125. Automatic multi-louver-shuttling hand-crank axle 145a may be for: Transferring motion generated from automatic multi-louver-shuttling hand-crank 146 to engage automatic-multi-louver-shuttling shuttling gear box 141 in the direction of arrow 166 (see FIG. 115-FIG. 117).

[0175] In some embodiments, Automatic multi-louver-shuttling hand-crank coupler 145b may be for: Coupling automatic multi-louver-shuttling hand-crank 146 to automatic multi-louver-shuttling hand-crank axle 145a. Automatic multi-louver-shuttling hand-crank 146 may be for: Providing manual energy needed to engage automatic-multi-louver-rotating system 138 to open and close rainwater-shedding rainwater-directing louver systems 124 in the directions of arrows 164-166 (see FIG. 113-FIG. 117). Cost-saving production-increasing rainwater-shedding leaf-filtering beam systems 147 may be for performing the combined functions of its components. Cost-saving production-increasing rainwater-shedding leaf-filtering beam 148 may be for: Directing rainwater from rainwater-shedding rainwater-directing louver systems 124 to double-gutter-supporting-and-locking post 114 in the direction of arrow 161 (see FIG. 126-FIG. 128).

[0176] In some embodiments, Axle-mounting plateau 149 may be for: Providing location for noise-canceling axle saddle 150 to be installed. Noise-canceling axle saddle 150 may be for: Securing cost-saving production-increasing left-side louver end 130, cost-saving production-increasing right-side louver end 131, and louver-mounted axle 144b; and Noise-cancelling when cost-saving production-increasing anti-noise louver axle 134 may be rotated therein in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117).

[0177] In some embodiments, Noise-canceling axle clamp 151 may be for: Securing cost-saving production-increasing left-side louver end 130, cost-saving production-increasing right-side louver end 131, and louver-mounted axle 144b; and Noise-cancelling when cost-saving production-increasing anti-noise louver axles 134 may be rotated therein in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117). Rainwater-shedding gutter 152 may be for: Directing rainwater from rainwater-shedding rainwater-directing louver systems 124 to double-gutter-supporting-and-locking post 114 in the direction of arrow 161 (see FIG. 126-FIG. 128). Leaf-filtering drain-holes 153 may be respectively for: Filtering leaves and other debris from accumulated rainwater from rainwater-shedding rainwater-directing louver systems 124.

Variation

[0178] Referring to FIG. 167-FIG. 325: In some embodiments, Any component of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver can have any shape and size. Any component of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver can be made of any material(s). FIG. 167-FIG. 198 illustrate equivalent variations of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver. FIG. 199-FIG. 202 illustrate equivalent applications of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (being used to support a gutter to shed water from an RV, concert stage, house, and solar panel in the directions of arrows 156, 157, 158, and 159, respectively). FIG. 203 illustrates an equivalent application of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver being used to support an awning when attached to a building.

[0179] FIGS. 204-208 illustrate equivalent applications of leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 being used to support a solar panel, an outdoor speaker, an outdoor light, and being used to filter leaves and other debris. FIG. 209 illustrates equivalent applications of anti-twisting anti-warping cost-saving production-increasing auto-centering bracket 109 providing anti-twisting and anti-warping abilities to retain original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver. FIG. 210-FIG. 215 illustrate equivalent variations of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0180] FIG. 216-FIG. 269 illustrate equivalent variations of components of five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver. FIG. 270-FIG. 325 illustrate equivalent applications of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver.

[0181] An embodiment substantially departs from the conventional concepts and designs of the prior art. In doing so, some embodiments provide a five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver (for being adapted to pergola, RV, house, solar panel, and concert stage), having many new and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows: [0182] 1) It is an object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping cost-saving production-increasing outer corner 102. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Capable of saving cost by being injection-molded in a single piece; and Capable of increasing production capabilities by being injection-molded in a single piece. [0183] 2) It is another object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing inner corner parapet 106. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of being used to support a pergola or an RV gutter to shed rainwater therefrom in the direction of arrow 156 (see FIG. 3, FIG. 4, FIG. 46, and FIG. 47); Capable of being used to support a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of being used to support a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of being used to support a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); Capable of being used to support an awning when attached to a building (see FIG. 8, and FIG. 51); Capable of saving cost by being injection molded in a single piece; and Capable of increasing production capabilities by being injection molded in a single piece. [0184] 3) It is still another object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of filtering leaves and other debris from getting inside double-gutter-supporting-and-locking post 114 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Capable of breaking up leaves and other debris to prevent large leaves from getting into double-gutter-supporting-and-locking post 114 in the direction of arrow 160 (see FIG. 12, FIG. 13, FIG. 55, and FIG. 56); Capable of securing a solar panel (see FIG. 9, and FIG. 52); Capable of securing an outdoor speaker (see FIG. 10, and FIG. 53); Capable of securing an outdoor light for illuminating through leaf-filtering-and-breaking cost-saving production-increasing honeycomb grate 107 (see FIG. 11, and FIG. 54); Capable of saving cost by being injection molded in a single piece; and Capable of increasing production capabilities by being injection molded in a single piece. [0185] 4) It is a further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping anti-vibrating 90-degree-double-yokes 110b. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of anti-vibrating while in use by cushioning cost-saving production-increasing inner corner parapet 106 (see FIG. 14, and FIG. 22); and Capable of absorbing vibrations caused by wind while in usc. [0186] 5) It is a further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having double-gutter-supporting-and-locking post 114. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51). [0187] 6) It is another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having post-top double-gutter-supporting-and-locking parapet-mounting flange 115. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of supporting an RV gutter to shed rainwater from an RV in the direction of arrow 156 (see FIG. 4, and FIG. 47); Capable of supporting a concert stage gutter to shed rainwater from a concert stage in the direction of arrow 157 (see FIG. 5, and FIG. 48); Capable of supporting a house gutter to shed rainwater from a house in the direction of arrow 158 (see FIG. 6, and FIG. 49); Capable of supporting a solar panel gutter to shed rainwater from a solar panel in the direction of arrow 159 (see FIG. 7, and FIG. 50); and Capable of supporting an awning when attached to a building (see FIG. 8, and FIG. 51).

[0188] It is yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having anti-twisting anti-warping 4-opposite-direction-securing post-mounting flanges 120. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of providing anti-twisting and anti-warping reverse tension to retain the original shape and size of the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver in the directions of arrows 154, and 155 (see FIG. 14, and FIG. 57); Capable of securing double-gutter-supporting-and-locking post 114 to anti-twisting anti-warping 4-opposite-direction-securing post plate 119.

[0189] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing left-side louver end 130. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0190] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing right-side louver end 131. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware.

[0191] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having noise-canceling rainwater-draining axle bore 132. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64); and Capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 162a and 162b (see FIG. 61-FIG. 64).

[0192] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having triple wind-dissipating tunnels 133. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of draining rainwater away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64); and Capable of dissipating wind away from rainwater-shedding louver 125 in the directions of arrows 163a-163d (see FIG. 61-FIG. 64).

[0193] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing anti-noise louver axle 134. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of providing location for cost-saving production-increasing left-side louver end 130 or cost-saving production-increasing right-side louver end 131 to pivotably rotate in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117). Capable of noise-cancelling when rotated between noise-canceling axle saddle 150 and noise-canceling axle clamp 151 in the direction of arrow 164 (see FIG. 113, FIG. 114, FIG. 116, and FIG. 117).

[0194] It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having cost-saving production-increasing anti-noise shuttling axle 136. Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; Capable of providing location for automatic-multi-louver-shuttling multi-louver-conjoining control-bar 142 to be pivotably attached in the direction of arrow 165 (see FIG. 115 and FIG. 116) It is still yet another further object of an embodiment to provide the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver, having quadruple snap-locking tails 137.

[0195] Therefore, the five-device-in-one anti-twisting anti-warping anti-vibrating cost-saving production-increasing corner and noise-canceling wind-dissipating louver are: Capable of saving cost by being injection molded in a single piece, eliminating unnecessary hardware; Capable of increasing production by being injection molded in a single piece, eliminating unnecessary hardware; and Capable of snap-locking to rainwater-shedding louver 125 without need for hardware.

[0196] 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.

[0197] 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.

[0198] 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.

[0199] 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.

[0200] 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.

[0201] 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.

[0202] 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.

[0203] 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 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.

[0204] 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.