Claims
- 1. A drop safe comprising:
a cam attached to an interior surface of the drop safe, the cam having a cam surface; a gas spring having a cam bearing at one end of the gas spring, wherein the cam bearing moves along the cam surface; a pivoting component; and a link attached to the gas spring and to the pivoting component, wherein as the cam bearing moves along the cam surface, the link applies a force to the pivoting component.
- 2. The drop safe of claim 1, wherein the cam surface has a neutral point detent for holding the pivoting component in a partially opened position and a fully open detent for holding the pivoting component in a fully opened position.
- 3. The drop safe of claim 2, further comprising an initial force bracket attached to the cam, wherein the cam bearing moves along the initial force bracket and along the cam surface, and wherein a proximal end of the initial force bracket and a distal portion of the cam surface combine to form the neutral point detent.
- 4. The drop safe of claim 3, wherein the neutral point detent is a substantially v-shaped gap between the proximal end of the initial force bracket and the distal portion of the cam surface.
- 5. The drop safe of claim 3, wherein the initial force bracket is rotatably mounted to the cam, such that an initial force, that is transferred from the gas spring to the pivoting component as the cam bearing moves along the initial force bracket, is adjustable.
- 6. The drop safe of claim 3, wherein the initial force bracket is removably attached to the cam, such that when the initial force bracket is detached from the cam, the gas spring is allowed to extend to a fully extended position, such that removal of the gas spring is facilitated.
- 7. The drop safe of claim 2, wherein the cam surface fully open detent is formed as a curved recess at a proximal end of the cam surface.
- 8. The drop safe of claim 1, wherein the cam surface has a fully closed detent for holding the pivoting component in a fully closed position and a fully open detent for holding the pivoting component in a fully opened position.
- 9. The drop safe of claim 1, wherein the pivoting component is a drop safe door.
- 10. The drop safe of claim 1, wherein the pivoting component is a chassis having at least one drop safe component mounted thereon, wherein the at least one drop safe component is selected from the group consisting of a bill validator cassette, a loose coin dispenser, a rolled coined dispenser, an envelope drop system and a door locking system.
- 11. A drop safe comprising:
a cam attached to an interior surface of the drop safe, the cam having a slot defining a cam surface; a gas spring having a cam bearing at one end of the gas spring, wherein the cam bearing moves within the slot along the cam surface; a pivoting component; and a link attached to the gas spring and to the pivoting component, wherein as the cam bearing moves within the slot along the cam surface, the link applies a force to the pivoting component.
- 12. The drop safe of claim 11, wherein the cam surface has a neutral point detent for holding the pivoting component in a partially opened position and a fully open detent for holding the pivoting component in a fully opened position.
- 13. The drop safe of claim 12, further comprising an initial force bracket attached to the cam, such that a portion of the initial force bracket overlaps a recessed area in a distal end of the slot, and wherein the cam bearing moves within the slot along the initial force bracket and along the cam surface, and wherein a proximal end of the initial force bracket and a distal portion of the cam surface combine to form the neutral point detent.
- 14. The drop safe of claim 13, wherein the neutral point detent is a substantially v-shaped gap between the proximal end of the initial force bracket and the distal portion of the cam surface.
- 15. The drop safe of claim 13, wherein the initial force bracket is rotatably mounted to the cam, such that an initial force, that is transferred from the gas spring to the pivoting component as the cam bearing moves within the slot along the initial force bracket, is adjustable.
- 16. The drop safe of claim 13, wherein the initial force bracket is removably attached to the cam, such that when the initial force bracket is detached from the cam, the portion of the slot that was overlapped by the initial force bracket is exposed, allowing the gas spring to extend to a fully extended position, such that removal of the gas spring is facilitated.
- 17. The drop safe of claim 2, wherein the cam surface fully open detent is formed as a curved recess in the cam surface at a proximal end of the slot.
- 18. The drop safe of claim 11, wherein the cam surface has a fully closed detent for holding the pivoting component in a fully closed position and a fully open detent for holding the pivoting component in a fully opened position.
- 19. The drop safe of claim 11, wherein the pivoting component is a drop safe door.
- 20. The drop safe of claim 11, wherein the pivoting component is a chassis having at least one drop safe component mounted thereon, wherein the at least one drop safe component is selected from the group consisting of a bill validator cassette, a loose coin dispenser, a rolled coined dispenser, an envelope drop system and a door locking system.
CROSS REFERENCE TO RELATED APPLICATION(S)
[0001] This application claims priority under 35 U.S.C. §119(e) to U.S. Provisional Application Serial No. 60/408,409, filed on Sep. 4, 2002.
Provisional Applications (1)
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Number |
Date |
Country |
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60408490 |
Sep 2002 |
US |