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According to one embodiment, a docking station for a portable device is provided with an improved latching mechanism for securing the portable device within the docking station. In general, the latching mechanism may comprise a pivotable lever and a larch assembly that operate together as a cam-foll

According to one embodiment, a docking station for a portable device is provided with an improved latching mechanism for securing the portable device within the docking station. In general, the latching mechanism may comprise a pivotable lever and a larch assembly that operate together as a cam-follower mechanism. The pivotable lever may have a curved lower surface and contoured upper surface, and may be generally configured to rotate about a rotational axis when a back surface of the portable device contacts and pushes against the curved lower surface of the pivotable lever. The latch assembly may be generally configured to translate a rotational motion of the pivotable lever into a linear motion, which causes a hidden latch portion of the latch assembly to extend out of the docking station for securing the portable device within the docking station.

대표청구항 ▼

1. A docking station for a portable device, the docking station comprising a latching mechanism for securing the portable device within the docking station, the latching mechanism comprising: a cam actuator having a curved lower surface and contoured upper surface, wherein the cam actuator is config

1. A docking station for a portable device, the docking station comprising a latching mechanism for securing the portable device within the docking station, the latching mechanism comprising: a cam actuator having a curved lower surface and contoured upper surface, wherein the cam actuator is configured to rotate about a rotational axis when a back surface of the portable device contacts and pushes against the curved lower surface of the cam actuator; anda latch assembly configured to translate a rotational motion of the cam actuator into a linear motion of the latch assembly, which causes a hidden latch portion of the latch assembly to extend linearly out of the docking station for securing the portable device within the docking station. 2. The docking station as recited in claim 1, wherein the latching mechanism further comprises a spring coupled between an interior surface of the docking station and an upper surface of the latch assembly, wherein the spring provides a spring force for biasing the linear motion of the latch assembly. 3. The docking station as recited in claim 1, wherein the cam actuator is configured to rotate about a pin, which is attached to an interior surface of the docking station and which provides the rotational axis. 4. The docking station as recited in claim 3, wherein the latching mechanism further comprises a torsion spring, which is wound around the pin and configured to provide a spring force between the cam actuator and the latch assembly. 5. The docking station as recited in claim 1, wherein a lower surface of the latch assembly comprises a projection and a cavity arranged adjacent to the projection. 6. The docking station as recited in claim 5, wherein the contoured upper surface of the cam actuator has a defined profile comprising: an indentation that provides a resting position for the projection to sit when the latching mechanism is in an unsecured position;a convex curvature that provides a smooth rise as the projection traverses the convex curvature; andan abrupt drop-off at one end of the convex curvature that provides a position for the projection to dwell when the latching mechanism is in a secured position. 7. The docking station as recited in claim 6, wherein as the cam actuator rotates about the rotational axis, the projection traverses the defined profile of the contoured upper surface of the cam actuator, causing the latch assembly to rise away from the rotational axis until the projection is pushed past the abrupt drop-off, which causes the latch assembly to return back towards the rotational axis until the contoured upper surface of the cam actuator rests within the cavity. 8. The docking station as recited in claim 7, wherein when the contoured upper surface of the cam actuator moves into the cavity, the hidden latch portion extends linearly out of the docking station for securing the portable device in the secured position. 9. The docking station as recited in claim 7, wherein the latch assembly further comprises a release button portion, which when pressed releases the contoured upper surface of the cam actuator from the cavity and enables the latching mechanism to return to the unsecured position. 10. The docking station as recited in claim 9, wherein the release button portion, the hidden latch portion, the projection and the cavity of the latch assembly are formed as one integral piece. 11. A docking station for a portable device, the docking station comprising: a support surface configured for supporting a back surface of the portable device;a cradle coupled to a lower portion of the docking station and configured for receiving a bottom portion of the portable device; anda latching mechanism coupled to a portion of the docking station and configured for restraining a portion of the portable device, wherein the latching mechanism comprises: a pivotable lever configured to rotate about a first rotational axis when the back surface of the portable device contacts and pushes against a curved lower surface of the pivotable lever; anda latch assembly operatively coupled to the pivotable lever, wherein rotation of the pivotable lever about the first rotational axis causes a hidden latch portion of the latch assembly to extend linearly out of the docking station for securing the portable device only after a front surface of the portable device surpasses a translational axis of the hidden latch portion. 12. The docking station as recited in claim 11, wherein the latching mechanism further comprises a spring coupled between an interior surface of the docking station and an upper surface of the latch assembly, wherein the spring provides a spring force that assists in extending the hidden latch portion out of the docking station. 13. The docking station as recited in claim 11, wherein the pivotable lever is configured to rotate about a pin, which is attached to an interior surface of the docking station and which provides the first rotational axis. 14. The docking station as recited in claim 13, wherein the latching mechanism further comprises a torsion spring, which is wound around the pin and configured to provide a spring force between the pivotable lever and the latch assembly. 15. The docking station as recited in claim 11, wherein a lower surface of the latch assembly comprises a projection and a cavity arranged adjacent to the projection. 16. The docking station as recited in claim 15, wherein a contoured upper surface of the pivotable lever has a defined profile comprising: an indentation that provides a resting position for the projection of the latch assembly to sit when the latching mechanism is in an unsecured position;a convex curvature that provides a smooth rise as the projection traverses the convex curvature; andan abrupt drop-off at one end of the convex curvature that provides a position for the projection to dwell when the latching mechanism is in a secured position. 17. The docking station as recited in claim 16, wherein as the pivotable lever rotates about the first rotational axis, the projection traverses the defined profile of the contoured upper surface of the pivotable lever, causing the latch assembly to rise away from the first rotational axis until the projection is pushed past the abrupt drop-off, which causes the latch assembly to return back towards the first rotational axis until the contoured upper surface of the pivotable lever rests within the cavity. 18. The docking station as recited in claim 17, wherein when the contoured upper surface of the pivotable lever moves into the cavity, the hidden latch portion extends linearly out of the docking station along the translational axis for securing the portable device in the secured position. 19. The docking station as recited in claim 17, wherein the latch assembly further comprises a release button portion, which when pressed releases the contoured upper surface of the pivotable lever from the cavity and enables the latching mechanism to return to the unsecured position. 20. The docking station as recited in claim 19, wherein the projection, the cavity, the hidden latch portion and the release button portion of the latch assembly are formed as one integral piece.