IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0202290
(2008-08-31)
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등록번호 |
US-7675746
(2010-04-21)
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발명자
/ 주소 |
- Crooijmans, Wim
- Howarth, Richard P.
- Hobson, Phillip M.
|
출원인 / 주소 |
|
대리인 / 주소 |
Townsend and Townsend and Crew LLP
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
51 |
초록
▼
A docking system is disclosed. The docking system includes a single docking station and a plurality of inserts that are placed in the docking station so that the docking station can accommodate hand held devices with differing sizes and shapes. The docking system is configured with a docking station
A docking system is disclosed. The docking system includes a single docking station and a plurality of inserts that are placed in the docking station so that the docking station can accommodate hand held devices with differing sizes and shapes. The docking system is configured with a docking station and insert that matingly engage with one another via a rotating action. The docking system is also configured with a latching retention mechanism that secures the insert to the docking station when the insert is rotated into engagement with the docking station.
대표청구항
▼
What is claimed is: 1. A docking station for handheld devices with varying shapes and sizes, the docking station comprising: a top member with a cavity formed therein, the cavity being configured to rotatably receive a removable insert that accommodates the bottom end of a hand held device with a p
What is claimed is: 1. A docking station for handheld devices with varying shapes and sizes, the docking station comprising: a top member with a cavity formed therein, the cavity being configured to rotatably receive a removable insert that accommodates the bottom end of a hand held device with a particular size and shape, wherein the cavity includes one or more slots on a first side of the cavity, and a latch on the second side of the cavity, the first side being opposite the second side, the slots being configured to capture corresponding tabs of the removable insert, the latch being configured to capture a rib of the removable insert, wherein the latch includes a detent that springs into engagement with the rib of the removable insert when the removable insert is rotated into position within the docking station, the detent being disposed through an opening in the second side of the cavity. 2. The docking station as recited in claim 1 wherein the one or more slots include a pair of slots on a front side of the cavity, the pair of slots being spaced apart and located on opposite sides of the center of the cavity, and wherein the latch is located on a back side of the cavity proximate the center of the cavity, the pair of slots and latch working together to provide three point stability between the removable insert and the docking station. 3. The docking station as recited in claim 1 wherein the detent is attached to a flexure that biases the detent to a forward position in a direction towards the front side. 4. The docking station as recited in claim 1 wherein the cavity includes an opening and an enclosed region, and wherein the top member includes a recess extending from the opening, the recess being configured to support and position the removable insert relative to the docking station when the removable insert is rotatably received by the cavity, the recess providing a reference point about which the removable insert rotates when being inserted and extracted to and from the docking station. 5. The docking station as recited in claim 1 further including a connector disposed in the cavity, the connector protruding through a bottom wall of the cavity; and a collar surrounding and positioned at the base of the connector, the collar protruding through the bottom wall of the cavity with the connector. 6. The docking station as recited in claim 1 wherein the docking station is a stand alone unit that operatively couples to an external electronic device through wired or wireless connections. 7. The docking station as recited in claim 1 wherein the docking station is integrated into an electronic device. 8. A docking system for a handheld device, the docking system comprising: a docking station with a cavity formed therein; and a removable insert having a basin sized to accommodate a particular hand held device, the removable insert being configured to rotate relative to the docking station during insertion and extraction from the docking station, wherein the cavity includes one or more slots on a first side of the cavity, and a latch on the second side of the cavity, the first side being opposite the second side, the slots being configured to capture corresponding tabs of the removable insert, the latch being configured to capture a rib of the removable insert, wherein the latch includes a detent that springs into engagement with the rib of the removable insert when the removable insert is rotated into position within the docking station, the detent being disposed through an opening in the second side of the cavity. 9. The docking system as recited in claim 8 wherein the docking station includes a top member in which the cavity is formed, and wherein the removable insert includes a basin for receiving the bottom end of a particular handheld device, the basin being configured to rotate in and out of the cavity during insertion and extraction. 10. The docking system as recited in claim 9 wherein the removable insert rotates between an initial position, where the removable insert is capable of being inserted or removed from the docking station, and a mounted position, where the removable insert is positioned in the docking station. 11. The docking system as recited in claim 9 wherein the docking station includes a connector located within the cavity, and wherein the basin includes a hole for receiving the connector, the edge of the hole including a chamfer so as to provide clearance between the basin and the connector when the removable insert is rotated into the docking station, the base of the connector being surrounded by a collar, the collar filling the space between the edge of the hole and the outer surface of the connector. 12. A docking station, comprising: a top member with a cavity formed therein, the cavity being configured to rotatably receive a removable insert that accommodates the bottom end of a hand held device with a particular size and shape; a connector disposed in the cavity, the connector protruding through a bottom wall of the cavity; and a retention mechanism configured to secure the removable insert within the docking station, the retention mechanism including: one or more slots formed in a front wall of the cavity, the slots being configured to mate with one or more tabs extending from a front wall of the removable insert; a latch located on a back wall of the cavity and being configured to move between a latched position, where the latch captures a catch formed on a back wall of the removable insert, and an unlatched position, where the latch releases the catch, the latch including: a detent that springs into engagement with the catch when the removable insert is rotated into its final position within the cavity of the docking station; and a flexure that biases the detent towards a center of the cavity. 13. The docking station as recited in claim 12, further comprising: a collar surrounding and positioned at the base of the connector, the collar protruding through the bottom wall of the cavity with the connector, the collar being configured to produce a snug fit with an opening in the removable insert when the removable insert is positioned within the cavity of the top member, the opening in the removable insert being configured to allow rotation of the removable insert into the cavity without hitting the connector. 14. A docking system, comprising: a docking station including: a top member; a cavity formed in the top member and configured to receive a plurality of removable inserts therein, the cavity including an opening and an enclosed region that are sized to accommodate the largest removable insert, the enclosed region having sidewalls and a bottom wall that surround the inserts when they are placed in the cavity; a recess formed in the top member and surrounding the opening in the cavity; a connector located within the cavity and protruding through the bottom wall of the cavity; and a collar surrounding and positioned at the base of the connector, the collar protruding through the bottom wall of the cavity with the connector; a plurality of removable inserts, each removable insert including; a basin configured for rotatable insertion into the cavity of the docking station, the basin including an opening and an enclosed region that are sized to accommodate a particular hand held device, the enclosed region having sidewalls and a bottom wall that surround the bottom end of the particular hand held device, the bottom wall including a hole for receiving the connector and collar when the basin is rotated within the cavity of the docking station, the edge of the hole including a chamfer so that the basin clears the connector when the basin is rotated within the cavity of the docking station; and a lip that surrounds and extends away from the opening in the basin, the lip being configured for placement in the recess in the top member, the recess catching the lip and providing a reference point about which the removable insert is rotated when being inserted and extracted from the cavity of the docking station; and a retention mechanism configured to secure the removable inserts within the docking station, the retention mechanism including: one or more slots formed in a front wall of the cavity; one or more tabs extending from the front wall of the basin, and being configured to mate with the slots; a catch formed on the back wall of the basin; a latch located on the back wall of the cavity and being configured to move between a latched position, where the catch is captured by the latch, and an unlatched position, where the catch is released from the latch, the latch including, a detent that springs into engagement with the catch when the removable insert is rotated into its final position within the cavity of the docking station; and a flexure that biases the detent towards a center of the cavity.
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