Auxiliary grip system

Abstract

A protective phone case system enabling quick release coupling of an auxiliary grip with a phone case. Two arms enable couple of the auxiliary grip with a phone case. A push button is configured to interact with the arms to couple and detach from the phone case. Two rails may enable coupling of the auxiliary grip within an adjustment range.

Claims

1. An auxiliary grip system, comprising: a. a push button and two arms; b. the push button capable of a first and a second position; c. the two arms comprising a locked position when the push button is in the first position; d. each of the two arms comprising an end; e. the ends defining an alterable grip width; f. the push button contacting the two arms in the second position, whereby the arms are displaced into an adjustment position; g. the adjustment position comprising a grip width greater than the locked position's grip width; h. a case, the case being configured to couple a mobile device; i. the auxiliary grip being capable of coupling with the case when the push button is in the first position; j. a button biasing component biases the push button into the first position; k. the case comprising two rails, the two rails comprising an adjustment range; l. a plurality of arm biasing components bias the two arms into the locked position; m. a switch capable of securing the push button in the first position.

2. An auxiliary grip system, comprising: a. a push button and two arms; b. the push button capable of a first and a second position; c. the two arms comprising a locked position when the push button is in the first position; d. each of the two arms comprising an end; e. the ends defining an alterable grip width; f. the push button contacting the two arms in the second position, whereby the arms are displaced into an adjustment position; g. the adjustment position comprising a grip width greater than the locked position's grip width; h. a case, the case being configured to couple a mobile device; i. the auxiliary grip being capable of coupling with the case when the push button is in the first position; j. a button biasing component biases the push button into the first position; a. the case comprising two rails, the two rails comprising an adjustment range; b. a plurality of arm biasing components bias the two arms into the locked position; k. a switch capable of securing the push button in the second position.

3. An auxiliary grip system, comprising: a. a push button and two arms; b. the push button capable of a first and a second position; c. the two arms comprising an adjustment position when the push button is in the first position; d. each of the two arms comprising an end; e. the ends defining an alterable grip width; f. the push button contacting the two arms in the second position, whereby the arms are displaced into a locked position; g. the adjustment position comprising a grip width greater than the locked position's grip width; h. a case, the case comprising a planar back surface and two sides; i. the auxiliary grip being capable of coupling with the case when the push button is in the second position.

4. The auxiliary grip system in claim 3, wherein a button biasing component biases the push button into the first position.

5. The auxiliary grip system in claim 3, wherein a plurality of arm biasing components bias the two arms into the adjustment position.

6. The auxiliary grip system in claim 3, comprising a switch capable of securing the push button in the first position.

7. The auxiliary grip system in claim 3, comprising a switch capable of securing the push button in the second position.

8. The auxiliary grip in claim 3, wherein an ancillary grip comprises at least one ancillary coupling means.

9. The auxiliary grip system in claim 3, wherein the case comprises two rails, the two rails comprising an adjustment range.

10. The auxiliary grip system in claim 9, wherein the auxiliary grip may operatively couple with the rails and move within the adjustment range while in the first position.

11. The auxiliary grip system in claim 9, wherein the two rails comprise a plurality of steps, the plurality of steps defining predetermined grip orientations.

12. The auxiliary grip system in claim 9, wherein the auxiliary grip comprises a housing, the housing housing at least a portion of the two arms and the push button.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a front and top and right perspective view of an auxiliary grip.

(2) FIG. 2A is a front view of an auxiliary grip in a first position with a bumper removed.

(3) FIG. 2B is a front view of the auxiliary grip in a second position with a bumper removed.

(4) FIG. 3 is a front and top and right perspective view of an auxiliary grip exploded.

(5) FIG. 4A is a right side view of an auxiliary grip in a first position.

(6) FIG. 4B is the sectional view from FIG. 4A wherein a switch is in a secured position

(7) FIG. 4C is the sectional view from FIG. 4A wherein a switch is in an unsecured position.

(8) FIG. 4D section of a switch in unsecured position and a push button is in a second position.

(9) FIG. 5 is a back view of case isolated.

(10) FIG. 6 is a back right perspective of case isolated.

(11) FIG. 7A is a right side view of an isolated case.

(12) FIG. 7B sectional view of the case from FIG. 7A.

(13) FIG. 7C is a right side view of an auxiliary grip and a case coupled.

(14) FIG. 8 is a back right perspective view of an auxiliary grip and a case coupled.

(15) FIG. 9A is a bottom view of an auxiliary grip in a locked position, coupled with a case.

(16) FIG. 9B is a bottom view of an auxiliary grip in an adjustment position, detached from a case.

(17) FIG. 10 is the enlarged view from FIG. 7B of aspects of a rail and an end.

DRAWING NUMERALS

(18) 10 auxiliary grip

(19) 12 case

(20) 14 bumper

(21) 16 gripping surface

(22) 20 push-button

(23) 22 internal button

(24) 24 button biasing component

(25) 30 switch

(26) 32 switch spring

(27) 34 switch screw

(28) 36 switch stop

(29) 37 secured position

(30) 38 unsecured position

(31) 40 end

(32) 50 arm

(33) 52 arm biasing component

(34) 54 buttress

(35) 56 cap

(36) 60 locked position

(37) 62 adjustment position

(38) 64 first position

(39) 66 second position

(40) 70 ancillary coupling means

(41) 80 rail

(42) 81 step

(43) 82 aperture

(44) 83 slots

(45) 84 rail width

(46) 86 case length

(47) 88 adjustment range

(48) 94 grip width

(49) 100 mobile device

DETAILED DESCRIPTION OF THE EMBODIMENT

(50) An auxiliary grip 10 may comprise a push button 20 configured to interact with two arms 50. Two ends 40 may comprise the outer aspects of the two arms 50. A bumper 14 may be disposed between the two ends 40 and comprise an outer surface and housing aspect of the auxiliary grip 10. A gripping surface 16 may couple with the bumper 14 to form a housing. The push button 20 may be partially exposed from the gripping surface 16. A push-button 20 may be any component capable of being pressed, switched, or otherwise manually engaged. An internal push-button 22 aspect of the push button 20 may extend into the housing from an exposed, outer surface of the push button 20 (see FIGS. 2A-B). The internal push button 22 may contact the two arms 50. The arms 50 may extend laterally (relative to the push button 20) towards the ends 40. A cap 56 may couple the arm 52 and end 40. The ends 40 may define an alterable grip width 94.

(51) A button biasing component 24 may contact the internal push button 22 and urge the push button 20, into a first position 64 (see FIG. 2A). The first position 64 may be the default, unactivated position of the push button 20. The push button 20 in the first position 64 may force or allow the arms 50 and ends 40 into a locked position 60. The push button 20 may be adjusted into a second position 66 (see FIG. 2B). Pressing or other manipulation of predetermined force may be necessary to activate or adjust the push button 20 from the first position 64 to the second position 66. Movement of the push button 20 from the first position 64 to the second position 66 may displace the arms 50 and ends 40 into an adjustment position 62 (see FIG. 4C-4D).

(52) In alternative embodiments, the first position 64 may force or allow the arms 50 and ends 40 into the adjustment position 62. In such embodiments, movement of the push button from the first position 64 to the second position 66 may displace the arms 50 from an adjustment position into a locked position 60.

(53) Buttresses 54 may extend from the inner surface of the gripping surface 16 or bumper 14. Four arm biasing components 52 may be disposed between an arm 50 surface and the buttresses 54. The arm biasing components 52 may comprise torsion springs. The arm biasing components 52 may urge the arms 50 inward towards the internal push button 22, into the locked position 60. In the locked position 60, the ends 40 may be relatively contracted, abutting the bumper 14 and gripping surface 16.

(54) The arm biasing components 52 may be disposed between a relative inside surface of the buttress 54 and a relative outside surface of the arm 50, as in the embodiment depicted in FIGS. 4A-4D, thereby biasing the arms 50 inward, towards the locked position 60. In alternative embodiments, arm biasing components 52 may be disposed between a relative inside surface of the arms 50 and a relative outside surface of the buttress 54, thereby biasing the arms 50 outward, towards the adjustment position 62.

(55) An adjustment position 62 may be achieved by activating the push button 20 out of the first position 60. The push button 20 may be activated by pressing it downward towards the grip 10 (see FIGS. 2A-B). The activated push button 20 forces the internal push button 22 into the arms 50. The contacting surfaces of the internal push button 22 and the arms 50 may have corresponding chamfer configurations, whereby downward movement of the internal push button 22 forces the arms 50 to be displaced perpendicularly to the movement of the internal push button 22. In turn, the ends 40 extend laterally outward. There may be space between the ends 40 and gripping surface 16 in the adjustment position 62 (see FIG. 2B). Grip width 94 may be greater in the adjustment position 62 than the locked position 60.

(56) When the push button 20 is activated out of the first position 64, the button biasing component 24 may be compressed between the internal push button 22 and the inner surface—i.e. the surface facing the bumper and other components of the auxiliary grip 10—of the gripping surface 16. As the arms 50 move outward the arm biasing components 52 may be compressed between the arm 50 and the stationary buttress 54. The biasing components 22, 52 may simultaneously urge an activated push button 20 to return to the first position 64 and locked position 60. The locked position 60 may comprise a 0.5 mm to 2 mm grip width 94 tolerance range. The tolerance range may allow the arms 50 to couple with a case 12 in at a greater grip width 94 than the grip width 94 of the locked position 60 when the auxiliary grip is detached from a case 12. The first position 64 may have a tolerancing corresponding to the tolerance range of the locked position 60. The adjustment position 62 may be the arms 50 expanded to any grip width 94 greater than the tolerance range.

(57) The bumper 14 and gripping surface 16 may be integrated into one, continuous housing not requiring conjunction of the two components (14, 16). The housing may contact and align the arms so they can move between the locked 60 position and adjustment 62 position. The gripping surface 16 may be rounded or otherwise shaped to contour a human hand. The bumper 14 may be relatively flat, enabling it to abut or lie substantially flush with the case 12 when the auxiliary grip 10 is coupled.

(58) A switch 30 mechanism may integrate with the push button 20. A switch screw 34 may couple with the switch 30. A switch spring 32 may couple with the switch screw 34. The switch spring 32 may bias the switch 30 into a secured position 37. The secured position 37 may coincide with the first position 64. In the secured position 37, the switch spring 32 or switch screw 34 may be disposed between the switch 30 and a switch stop 36. In the secured position 37 it may not be possible to activate the push button 20 because the switch stop 36 may prevent the switch spring 32, or other switch 30 component, from moving downward, out of the first position 64. The switch stop 36 may extend from the gripping surface 16 or bumper 14, or may be an aspect of an arm 50. The stop 36 may remain stationary relative to the switch 30 and push button 20. The switch 30 may be capable of sliding away from the stop 36 (to the viewer's left when viewing FIGS. 4A-4B) into an unsecured position 38. In the unsecured position 38, the push button 20 may be activated out of the first position 64 (see FIGS. 4A-4D). When the push button 20 is pushed out of the first position 64, the switch spring 32, switch screw 34, switch 30, or some combination thereof may contact the side of the stop 36 and thereby maintain the unsecured position 38. The button biasing component 24 and arm biasing components 52 may simultaneously bias the push button 20 back into the first position 64 and the switch 30 out of the unsecured position 38. The switch spring 32 may urge the switch 30 into the secured position 37 when the push button 20 is returned to the first position 64.

(59) The secured switch 30 may augment the coupling force of the auxiliary grip 10 in the first position 64. The secured switch 30 may prevent the auxiliary grip 10 from becoming detached from the case 12 due to inadvertent activation of the push button 20 out of the first position 64-locked position 60 embodiment. In embodiments where the second position 64 corresponds to the locked position 60, the secured 37 switch 30 may lock the push button 20 in the second position 64, thereby overcoming the biasing force of the button biasing component 24.

(60) The switch 30 may be capable of coupling the push button 20 in the second position 66. A stop 36 may be configured to engage and secure the switch 36 in the second position 66, whereby the biasing force of arm biasing components 52 may be overcome, enabling preservation of the second position 66 without manual force being applied to the push button 20. This enables the user to maintain the position—locked position 60 or adjustment position 62—corresponding to the first position 64 or second position 66, in the respective embodiment.

(61) Ancillary coupling means 70 may permit coupling of auxiliary devices with the auxiliary grip 10. The ancillary coupling means 70 may comprise an aspect of the arms 50 or gripping surface 16. The ancillary coupling means 70 may comprise threaded sockets capable of threadably coupling an auxiliary device. Ancillary coupling means 70 may be configured to couple audio microphones, display screens, or other devices.

(62) The push button 20 and arms 50 may be comprised of aluminum or other sufficiently durable material. The ends 40 may be comprised of thermoplastic elastomer or other material capable of coupling with a case 12 without damage. The bumper 14 and grip 16 components may be comprised of thermoplastic elastomer or other material with appropriate tactile and durability qualifications.

(63) A case 12 configured to couple with a mobile device 100 may define a rail width 84 and case length 86. Two rails 80 may comprise aspects of a perimeter of the case 12. The rails 80 may define an adjustment range 88. The adjustment range 88 may be parallel to the case length 86. An aperture 82 aspect of the case 12 may allow exposure of a portion of the coupled mobile device 100.

(64) The rails 80 may partially penetrate the perimeter of the outer surface of the case 12, forming parallel grooves. The rail width 84 may correspond to the grip width 94 of the arms 50 in the locked position 60. The ends 40 and alterable grip width 94 may be configured with surfaces capable of simultaneously engaging and coupling with the rails 80 when in the locked position 60. The push button 20 and switch 30 remain exposed to manual manipulation while the auxiliary grip 10 is coupled with the case 12, enabling alteration between the locked 60 to the adjustment position 62. The the auxiliary grip 10 in an adjustment position 62 may be able to completely disengage from the case 12 in some embodiments.

(65) In some embodiments, the grip width 94 may be configured so the auxiliary grip 10 remains coupled with the case 12 but capable of movement within the adjustment range 88 when activated out of a locked position 60. To couple the auxiliary grip 10 with the case 12 in embodiments in which the first position 60 corresponds with the locked position 64, the push button 20 is activated into the adjustment position 62 and the auxiliary grip 10 is oriented within the adjustment range 88. When the desired auxiliary grip 10 orientation is achieved, the push button 20 is released, whereby the ends 40 retract to a locked position 60 and the auxiliary grip 10 stably couples with the case 12. Each end 40 may be configured to insert into a rail 80. The lock position 60 grip width 94 may be at the outer bound of the grip width 94 tolerance range when coupled with the case 12. The switch 30 altered into the secured position 37 to prevent inadvertent detachment of the auxiliary grip 10 from the case 12.

(66) To couple the auxiliary grip 10 with the case 12 in embodiments in which the first position 60 corresponds with the adjustment position 64, the auxiliary grip 10 is oriented within the adjustment range 88. When the desired auxiliary grip 10 orientation is achieved, the push button 20 is activated into the second position 66, whereby the ends 40 retract to a locked position 60 and the auxiliary grip 10 couples with the case 12. The switch may be altered into the secured position 37, whereby the second position 66 and locked position 60 may be maintained against the biasing forces of the button biasing component 24 and the arm biasing components 52.Steps 81 may define slots 83 within each rail 80. The outer surface of the steps 81 may be flush with the adjacent surface of the case 12. The slots 83 may partially penetrate the case 12. Steps 81 in opposing rails 80 may align relative to the case length 86, allowing rectilinear adjustment of the auxiliary grip 10 within the adjustment range 88. The slots 83 may define predetermined grip orientations, allowing a user to quickly identify and couple the auxiliary grip 10 at the desired orientation. The steps 81 may prevent the auxiliary grip 10 from moving out of the predetermined orientation when the auxiliary grip 10 is in the locked position 60 and coupled with the case 12. The auxiliary grip 10 grip width 94 may be perpendicular to the adjustment range 88 when the auxiliary grip 10 and case 12 are coupled.

(67) A combination of polycarbonate and thermoplastic materials may comprise the case 12.

(68) The foregoing discussion discloses and describes merely exemplary embodiments. As will be understood by those familiar with the art, the disclosed subject matter may be embodied in other specific forms without departing from the essence or characteristics thereof. Accordingly, the foregoing disclosure is intended to be illustrative, but not limiting, of the scope of the invention, which is set forth in the following claims.