IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0170876
(2008-07-10)
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등록번호 |
US-7726689
(2010-06-22)
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발명자
/ 주소 |
- Mulhern, James P.
- Levi, Ronald
- Grymko, Christopher E.
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출원인 / 주소 |
- Pride Mobility Products Corporation
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
22 인용 특허 :
34 |
초록
▼
An anti-tip system is provided for improving the stability of a powered vehicle, such as a powered wheelchair. The vehicle includes a drive-train assembly pivotally mounted to a main structural frame. A suspension system biases the drive-train assembly and its connected anti-tip wheel to a predeterm
An anti-tip system is provided for improving the stability of a powered vehicle, such as a powered wheelchair. The vehicle includes a drive-train assembly pivotally mounted to a main structural frame. A suspension system biases the drive-train assembly and its connected anti-tip wheel to a predetermined resting position. The drive-train assembly bi-directionally rotates about a pivot in response to torque applied to or acceleration forces on the vehicle. A linkage arrangement is provided and is characterized by a suspension arm pivotally mounting to the main structural frame about a pivot at one end thereof and an anti-tip wheel at the other end. The linkage may further include at least one link operable to transfer the bi-directional displacement of the drive-train assembly to the suspension arm. The link may include a bell crank member and/or may be resiliently compressible.
대표청구항
▼
What is claimed is: 1. A powered wheelchair-comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and
What is claimed is: 1. A powered wheelchair-comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and for powering movement of the wheelchair across a ground plane; and at least one anti-tip assembly comprising a suspension arm pivotably mounted to the frame at a suspension arm pivot axis, said suspension arm extending from said suspension arm pivot axis outwardly from the frame, said suspension arm pivot axis vertically spaced above the ground plane, and an anti-tip wheel assembly including an anti-tip wheel-having a rotational axis about which the anti-tip wheel rotates, said anti-tip wheel assembly disposed proximate the extended end of the suspension arm, the vertical position of the suspension arm pivot axis with respect to the ground plane in normal operation being spaced from and positioned relatively below a line drawn between the drive wheel axis and the rotational axis of the anti-tip wheel; and means for operatively connecting the drive motor to the suspension arm, wherein the suspension arm pivots about the suspension arm pivot axis in response to torque created by the rotation of the drive wheel and causing a corresponding vertical movement of the anti-tip assembly. 2. The wheelchair of claim 1 wherein a second drive motor is operatively coupled to the one drive wheel and the first mentioned drive motor is operatively coupled to the other drive wheel, each said drive motors having a corresponding anti-tip assembly, and wherein each said anti-tip assembly is independent of the other anti-tip assembly. 3. The wheelchair of claim 1 wherein the anti-tip wheel comprises a castor assembly having a vertical castor axis. 4. The wheelchair of claim 1 wherein the anti-tip wheel normally contacts the ground plane during driving movement of the wheelchair. 5. The wheelchair of claim 1 wherein the drive motor is pivotally coupled to the frame at a position relatively above the drive wheel axis. 6. The wheelchair of claim 5 wherein the drive motor is pivotally coupled to the frame at a position vertically above the position on the frame of the suspension arm pivot. 7. A powered vehicle comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and for powering movement of the vehicle across a ground plane; and at least one anti-tip assembly comprising: a suspension arm pivotably mounted to the frame at a suspension arm pivot axis, said suspension arm extending from said suspension arm pivot axis outwardly from the frame, said suspension arm pivot axis vertically spaced above the ground plane; an anti-tip wheel assembly including an anti-tip wheel having a rotational axis about which the anti-tip wheel rotates, said anti-tip wheel assembly disposed proximate the extended end of the suspension arm; and an anti-tip suspension pivot resiliently connecting the anti-tip wheel assembly to the suspension arm for resiliently responding to contact of an obstacle by the anti-tip wheel during driving movement of the vehicle, the vertical position of the suspension arm pivot axis with respect to the ground plane in normal operation being spaced from and positioned relatively below a line drawn between the drive wheel axis and the rotational axis of the anti-tip wheel. 8. A powered vehicle comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and for powering movement of the vehicle across a ground plane; and at least one anti-tip assembly comprising a suspension arm pivotably mounted to the frame at a suspension arm pivot axis, said suspension arm extending from said suspension arm pivot axis outwardly from the frame, said suspension arm pivot axis vertically spaced above the ground plane; an anti-tip wheel assembly including an anti-tip wheel having a rotational axis about which the anti-tip wheel rotates, said anti-tip wheel assembly disposed proximate the extended end of the suspension arm; and an anti-tip suspension pivot connecting the anti-tip wheel to the suspension arm for resiliently responding to contact of an obstacle by the anti-tip wheel during driving movement of the vehicle, the vertical position of the suspension arm pivot axis with respect to the ground plane in normal operation being spaced from and positioned relatively below a line drawn between the drive wheel axis and the rotational axis of the anti-tip wheel, and the anti-tip suspension pivot is positioned on the suspension arm relatively above the anti-tip wheel. 9. A powered vehicle comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and for powering movement of the vehicle across a ground plane; and at least one anti-tip assembly comprising a suspension arm pivotably mounted to the frame at a suspension arm pivot axis, said suspension arm extending from said suspension arm pivot axis outwardly from the frame, said suspension arm pivot axis vertically spaced above the ground plane, and an anti-tip wheel assembly including an anti-tip wheel-having a rotational axis about which the anti-tip wheel rotates, said anti-tip wheel assembly disposed proximate the extended end of the suspension arm, the vertical position of the suspension arm pivot axis with respect to the ground plane in normal operation being spaced from and positioned relatively below a line drawn between the drive wheel axis and the rotational axis of the anti-tip wheel, and the rotational axis of the anti-tip wheel is spaced from the ground plane by a height greater than or equal to the vertical spacing of the suspension arm pivot axis with respect to the ground plane. 10. A powered vehicle comprising: a frame; a seat mounted on the frame; a pair of drive wheels positioned on opposing sides of the frame; a drive motor operatively coupled to at least one of the drive wheels for powering rotation of the drive wheel about a drive wheel axis and for powering movement of the vehicle across a ground plane; and at least one anti-tip assembly comprising a suspension arm pivotably mounted to the frame at a suspension arm pivot axis, said suspension arm extending from said suspension arm pivot axis outwardly from the frame, said suspension arm pivot axis vertically spaced above the ground plane, an anti-tip wheel assembly including an anti-tip wheel-having a rotational axis about which the anti-tip wheel rotates, said anti-tip wheel assembly disposed proximate the extended end of the suspension arm, the vertical position of the suspension arm pivot axis with respect to the ground plane in normal operation being spaced from and positioned relatively below a line drawn between the drive wheel axis and the rotational axis of the anti-tip wheel, and a linkage operatively connecting the drive motor to the suspension arm wherein, in response to torque created by the rotation of the drive wheel, the suspension arm pivots about the suspension arm pivot axis causing a corresponding vertical movement of the anti-tip assembly. 11. The vehicle of claim 10 further wherein the suspension link comprises at least two link members for operable transfer of the bi-directional displacement of the drive motor assembly to the suspension arm, a first link member of the two rigidly fixed to the drive motor assembly and a second link member pivotally attached to the suspension arm, the first and second links pivotally attached to one another. 12. The vehicle of claim 11, wherein the second link is pivotally attached to the suspension arm at a point between said suspension arm pivot and the anti-tip wheel. 13. A vehicle comprising: a frame; a seat mounted on the frame; a pair of drive wheels on opposing sides of the frame; a drive motor assembly pivotably attached to the frame and operatively coupled to at least one of the drive wheels for powering the rotation of the drive wheel about a drive wheel axis and for driving the movement of the vehicle along a ground plane; at least one anti-tip assembly comprising a suspension arm having a suspension arm pivot axis, the suspension arm extending forward of the frame from the suspension arm pivot axis, said suspension arm pivot axis being vertically spaced above the ground plane, the pivotal attachment of the drive motor assembly to the frame being positioned substantially vertically above the suspension arm pivot axis, and an anti-tip wheel disposed proximate the extended end of the suspension arm, the anti-tip wheel having a rotational axis about which the anti-tip wheel rotates, the vertical position of the suspension arm pivot with respect to the ground plane in normal operation being spaced from and positioned vertically below the position of the drive wheel axis and the rotational axis of the anti-tip wheel; and a suspension link connecting the drive motor assembly to the suspension arm, said suspension link operatively transferring motion of the drive motor assembly about its pivotal frame mounting to the suspension arm. 14. A vehicle as claimed in claim 13, wherein the suspension link has a fixed maximum length and is resiliently compressible in response to a motion of the drive motor assembly about the pivotal mounting towards the suspension arm. 15. The vehicle of claim 13 wherein a second drive motor is operatively coupled to the one drive wheel and the first mentioned drive motor is operatively coupled to the other drive wheel, each said drive motors having an independent suspension arm, suspension link and anti-tip wheel assembly. 16. A vehicle as claimed in claim 13 further comprising an anti-tip suspension connecting the anti-tip wheel to the suspension arm, said anti-tip suspension including a substantially horizontal anti-tip pivot axis about which the anti-tip wheel assembly is capable of pivoting in response to the anti-tip wheel engaging an obstacle the anti-tip suspension pivot axis being vertically spaced above the ground plane to define an anti-tip suspension pivot height, the anti-tip suspension pivot height being relatively greater than the vertical position of the suspension arm pivot axis with respect to the ground plane. 17. The vehicle of claim 16 wherein displacement of the anti-tip wheel about the anti-tip pivot axis, in response to engaging an obstacle, moves in a direction toward the suspension arm pivot. 18. The vehicle of claim 13 wherein the anti-tip wheel comprises a castor having a substantially vertical caster axle. 19. The vehicle of claim 13 wherein the pivotal coupling of the drive motor to the frame is at a position substantially vertically aligned with the suspension arm pivot axis. 20. The vehicle of claim 13 wherein the anti-tip axis in normal operation of the vehicle is spatially located at a vertical position with respect to the ground plane substantially equal to or above the vertical position of the suspension arm pivot axis relative to the ground plane.
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