The invention includes a display positioning assembly comprising a support, a display supported by the support, and a balance mechanism carried by the display and operatively connected to the support. The invention also includes an article for selectively exposing a display comprising a generally pl
The invention includes a display positioning assembly comprising a support, a display supported by the support, and a balance mechanism carried by the display and operatively connected to the support. The invention also includes an article for selectively exposing a display comprising a generally planar support surface having a first side and a second side opposite the first side. A balance mechanism operatively connected to a display may be positionable between a storage position proximate the first side of the generally planar support surface and an exposed position proximate the second side of the generally planar support surface. The invention also includes an assembly for arresting the free fall of an object. The assembly may comprise an outer slide in sliding or rolling engagement with an inner slide, and a brake comprising at least one pivot member may be coupled to the inner slide.
대표청구항▼
1. A lift mechanism, comprising: a fixed component having proximal and distal ends;a movable component disposed in sliding or rolling engagement with the fixed component, the engagement including a contracted configuration in which the movable component is disposed a minimum distance from the fixed
1. A lift mechanism, comprising: a fixed component having proximal and distal ends;a movable component disposed in sliding or rolling engagement with the fixed component, the engagement including a contracted configuration in which the movable component is disposed a minimum distance from the fixed component distal end and an expanded configuration in which the movable component is disposed a maximum distance from the fixed component distal end;a wheel pivotally supported by one of the components about a pivot axis, the wheel comprising a pulley member and a cam member with an eccentric shape, the wheel having a rotational range of travel from a first angular orientation corresponding to the expanded configuration of the fixed and movable components to a second angular orientation corresponding to the contracted configuration of the fixed and movable components;a first cable connecting the cam member of the wheel to a spring for biasing the wheel to rotate in a first direction, wherein the spring has a first end with a first spring diameter and a second end with a second spring diameter, the first spring diameter being smaller than the second spring diameter, wherein the first cable is coupled to the spring by a bullet mechanism having a larger diameter than a diameter of the first cable that is configured to contact an inner surface of the spring at the first end; anda second cable connecting the pulley member to one of the components so that the wheel rotates when the movable component is moved relative to the fixed component, wherein at least the first cable does not include metal but rather comprises a tensile polymer, wherein the cam member is shaped and positioned so that the first cable contacts the cam member at a first intersection disposed a first distance from the pivot axis when the wheel is disposed in the first angular orientation and the first cable contacts the cam member at a second intersection disposed a second distance from the pivot axis when the wheel is disposed in the second angular orientation, the first distance being different than the second distance. 2. The left mechanism of claim 1, wherein the spring comprises an extension spring. 3. The lift mechanism of claim 1, wherein the cam member is shaped and positioned so that a torque applied to the wheel by the first cable is substantially constant while a force applied to the cam member by the first cable varies. 4. The lift mechanism of claim 1, wherein the cam member is shaped and positioned so that a torque applied to the wheel by the first cable varies. 5. The lift mechanism of claim 1, wherein the cam member is shaped so that the bias urging the wheel to rotate in the first direction is substantially constant or varied as an output of the spring changes. 6. The lift mechanism of claim 1, wherein an effective radius of the cam member varies as a function of the angular orientation of the wheel. 7. The lift mechanism of claim 1, wherein an effective radius of the cam member varies as a function of an output of the spring. 8. The lift mechanism of claim 1, wherein the apparatus includes an adjustment system adapted to vary an output of the spring. 9. The lift mechanism of claim 1, wherein the wheel is pivotally supported by the fixed component and the spring has an end fixed with respect to the fixed component. 10. The apparatus of claim 1, wherein the first cable comprises a polymer fiber rope. 11. An apparatus, comprising: a support surface;one or more legs configured to support the support surface;a lift mechanism positioned under the support surface, including a fixed component having proximal and distal ends,a movable component disposed in sliding or rolling engagement with the fixed component, the engagement including a contracted configuration in which the movable component is disposed a minimum distance from the fixed component distal end and an expanded configuration in which the movable component is disposed a maximum distance from the fixed component distal end,a wheel pivotally supported by one of the components about a pivot axis, the wheel comprising a pulley member and a cam member with an eccentric shape, the wheel having a rotational range of travel from a first angular orientation corresponding to the expanded configuration of the fixed and movable components to a second angular orientation corresponding to the contracted configuration of the fixed and movable components,a first cable connecting the cam member of the wheel to a spring for biasing the wheel to rotate in a first direction, wherein the spring has a first end with a first spring diameter and a second end with a second spring diameter, the first spring diameter being smaller than the second spring diameter, wherein the first cable is coupled to the spring by a bullet mechanism having a larger diameter than a diameter of the first cable that is configured to contact an inner surface of the spring at the first end, anda second cable connecting the pulley member to one of the components so that the wheel rotates when the movable component is moved relative to the fixed component, wherein at least the first cable does not include metal but rather comprises a tensile polymer, wherein the cam member is shaped and positioned so that the first cable contacts the cam member at a first intersection disposed a first distance from the pivot axis when the wheel is disposed in the first angular orientation and the first cable contacts the cam member at a second intersection disposed a second distance from the pivot axis when the wheel is disposed in the second angular orientation, the first distance being different than the second distance. 12. The apparatus of claim 11, wherein the swing comprises an extension spring. 13. The apparatus of claim 11, wherein the cam member is shaped and positioned so that a torque applied to the wheel by the first cable is substantially constant while a force applied to the cam member by the first cable varies. 14. The apparatus of claim 11, wherein the cam member is shaped and positioned so that a torque applied to the wheel by the first cable varies. 15. The apparatus of claim 11, wherein the cam member is shaped so that the bias urging the wheel to rotate in the first direction is substantially constant or varied as an output of the spring changes. 16. The apparatus of claim 11, wherein an effective radius of the cam member varies as a function of the angular orientation of the wheel. 17. The apparatus of claim 11, wherein an effective radius of the cam member varies as a function of an output of the spring. 18. The apparatus of claim 11, wherein the apparatus includes an adjustment system adapted to vary an output of the spring. 19. The apparatus of claim 11, wherein the wheel is pivotally supported the fixed component and the spring has an end fixed with respect to the fixed component. 20. The apparatus of claim 11, wherein the first cable comprises a polymer fiber rope. 21. A lift mechanism, comprising: a fixed component having proximal and distal ends;a movable component disposed in sliding or rolling engagement with the fixed component, the engagement including a contracted configuration in which the movable component is disposed a minimum distance from the fixed component distal end and an expanded configuration in which the movable component is disposed a maximum distance from the fixed component distal end;a wheel pivotally supported by one of the components about a pivot axis, the wheel comprising a pulley member and a cam member with an eccentric shape, the wheel having a rotational range of travel from a first angular orientation corresponding to the expanded configuration of the fixed and movable components to a second angular orientation corresponding to the contracted configuration of the fixed and movable components;a first cable connecting the cam member of the wheel to a spring for biasing the wheel to rotate in a first direction; wherein the spring has a first end with a first spring diameter and a second end with a second spring diameter, the first spring diameter being smaller than the second spring diameter;a second cable connecting the pulley member to one of the components so that the wheel rotates when the movable component is moved relative to the fixed component; wherein at least the first cable does not include metal but rather comprises a tensile polymer, wherein the cam member is shaped and positioned so that the first cable contacts the cam member at a first intersection disposed a first distance from the pivot axis when the wheel is disposed in the first angular orientation and the first cable contacts the cam member at a second intersection disposed a second distance from the pivot axis when the wheel is disposed in the second angular orientation, the first distance being different than the second distance; anda bullet mechanism having a larger diameter than the first spring diameter, wherein the bullet mechanism is configured to translate within the swing and configured to contact an inner surface of the spring at the first end.
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Sweere, Harry C.; Sweere, legal representative, Janice M.; Ergun, Mustafa A.; Fluhrer, Robert W.; Lindblad, Shaun C.; Eliason, Jeffrey M.; Nistler, Steve; Saltz, Ron; Funk, Joe, Lift mechanism systems and methods.
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Danzyger Howard L. ; Caruso James F. ; Brown David C. ; Thuma Michael C. ; Anguiano Michael J., Mounting device for an apparatus for supporting a keyboard.
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Vermeer Adrianus J. P. M.,NLX ; De Bie Petrus A.,NLX ; Cox Jeroen G. P.,NLX, Positioning device and component placement machine including the positioning device.
Sweere, Harry C.; Ergun, Mustafa A.; Fluhrer, Robert William; Lindblad, Shaun Christopher; Eliason, Jeffrey M.; Funk, Joseph, Lift mechanism systems and methods.
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