IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0244055
(2008-10-02)
|
등록번호 |
US-8172297
(2012-05-08)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Toyota Motor Engineering & Manufacturing North America, Inc.
|
대리인 / 주소 |
Gifford, Krass, Sprinkle, Anderson & Citkowski, P.C.
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
8 |
초록
▼
A multi-position rotary detent assembly operable to selectively retain a first component and a second component in a first position, a second position, and at least one intermediate position is provided. The detent assembly includes a first biasing assembly urging the first component into the first
A multi-position rotary detent assembly operable to selectively retain a first component and a second component in a first position, a second position, and at least one intermediate position is provided. The detent assembly includes a first biasing assembly urging the first component into the first position. A cam plate is disposed opposite a guide pin assembly and has a cam path having a first detent feature and at least one intermediate detent feature. The guide pin is configured to engage the cam plate and is movable along the cam path. The first component is in the first position when the guide pin engages the first detent feature, is placed in an intermediate position when the guide pin engages a corresponding intermediate detent feature, and is urged into in the second position when disengaged from the cam path.
대표청구항
▼
1. A multi-position rotary detent assembly operable to selectively retain a first component and a second component in a first position, a second position, and at least one intermediate position relative to one another, the multi-position rotary detent assembly comprising: a first biasing assembly fo
1. A multi-position rotary detent assembly operable to selectively retain a first component and a second component in a first position, a second position, and at least one intermediate position relative to one another, the multi-position rotary detent assembly comprising: a first biasing assembly for biasing the first component and the second component between the first and second positions;a cam plate disposed on the first component, the cam plate having a cam path rib defining a cam path, the cam path rib having a first detent feature and at least one intermediate detent feature;a guide pin assembly including a guide pin configured to engage the cam plate so as to be movable along the cam path, and a guide pin biasing assembly for urging the guide pin from either a first pin position to a neutral position;the first biasing assembly and the guide pin assembly operable to move the guide pin in one direction along the cam path so as to sequentially engage the first detent feature, and each of the at least one intermediate detent feature, when the guide pin engages the first detent feature, the guide pin is in the first pin position, the first biasing assembly urges the guide pin against the first detent feature so as to place the first and second component in the first position, and when the guide pin is moved from the first pin position towards the neutral position, the first biasing assembly urges the guide pin against the at least one intermediate detent feature so as to place the first and second component in one of the at least one intermediate position, and first biasing assembly further operable to urge the guide pin to disengage from the cam path so as to move the guide pin to the neutral position and place the first and second component in the second position. 2. The multi-position rotary detent assembly as set forth in claim 1, wherein the first detent feature is disposed lower than each of the at least one intermediate detent features, and each of the at least one intermediate detent features are sequentially arranged along the cam path rib and each of the at least one intermediate detent features is positioned relatively higher than a previous at least one intermediate detent feature so as to give the cam path rib a generally ramp shape. 3. The multi-position rotary detent assembly as set forth in claim 1, wherein the cam plate further includes a guide rib adjacent the first detent feature, the guide rib defining a first path of travel leading towards the first detent feature, the guide rib, the first biasing assembly and the guide pin assembly working in concert so as to guide the guide pin along the first path of travel and into the first detent feature. 4. The multi-position rotary detent assembly as set forth in claim 1, wherein the cam plate further includes a bypass rib adjacent the at least one intermediate detent features, the bypass rib defining a second path of travel over each of the at least one intermediate detent features, the bypass rib , the first biasing assembly, and the guide pin assembly working in concert to bypass each of the at least one intermediate detent features, wherein when the first component is moved relative to the second component in a predetermined manner the first biasing assembly and guide pin assembly urges the guide pin along the second path of travel defined by the bypass rib to a predetermined location along the bypass rib whereupon the guide pin is disengaged from the cam plate. 5. The multi-position rotary detent assembly as set forth in claim 1, wherein one of the first and second components is a door and the other of the first and second components is a door frame. 6. The multi-position rotary detent assembly as set forth in claim 1, wherein the first biasing assembly is a torsion spring urging a door away from a door frame. 7. The multi-position rotary detent assembly as set forth in claim 1, wherein the guide pin assembly includes a housing, and a spring, the housing including a slot for which a portion of the guide pin may extend through, the spring interconnects the guide pin to opposite sides of the housing so as to place the guide pin in a neutral position. 8. A multi-position rotary detent assembly operable to selectively retain a door in an open position, a closed position, and at least one partially open position relative to a door frame, the multi-position rotary detent assembly comprising: a first biasing assembly for biasing the door between the open position and the closed position;a cam plate disposed on either the door or the door frame, the cam plate having a cam path rib defining a continuous cam path, a first detent feature and at least one intermediate detent feature;a guide pin assembly disposed on the other of the door or the door frame, the guide pin assembly including a guide pin configured to engage the cam plate so as to be movable along the cam path, the guide pin biasing assembly urging the guide pin from either a first pin position to a neutral position;wherein the cam plate further includes a guide rib adjacent the first detent feature, the guide rib defining a path of travel leading towards the first detent feature, the guide rib, the first biasing assembly and the guide pin assembly working in concert so as to guide the guide pin into the first detent feature;wherein the cam plate further includes a bypass rib adjacent the at least one intermediate detent features, the bypass rib defining a path of travel over each of the at least one intermediate detent features, the bypass rib, the first biasing assembly, and the guide pin assembly working in concert to guide the guide pin past each of the at least one intermediate detent features, wherein when the first component is moved relative to the second component in a predetermined manner the first biasing assembly and guide pin assembly urges the guide pin along the path of travel defined by the bypass rib to a predetermined location whereupon the guide pin is disengaged from the cam plate;the first biasing assembly and the guide pin assembly operable to move the guide pin in one direction along the continuous cam path so as to sequentially engage the first detent feature, and each of the at least one intermediate detent feature, when the guide pin engages the first detent feature, the guide pin is in the first pin position, the first biasing assembly urges the guide pin against the first detent feature so as to place the door in the closed position, and the guide pin is moved from the first pin position towards the neutral position, the first biasing assembly urges the guide pin against the at least one intermediate detent feature so as to place the door in one of the at least one intermediate positions, and the first biasing assembly operable to urge the guide pin to disengage from the cam plate so as to move the guide pin to the neutral position and place the door the open position.
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