IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0168345
(2001-05-16)
|
우선권정보 |
IT-0000034 (2000-06-20) |
국제출원번호 |
PCT/EP01/05553
(2001-05-16)
|
국제공개번호 |
WO01/92084
(2001-12-06)
|
발명자
/ 주소 |
- Cocco, Gaetano
- Raffaelli, Andrea
- Scomazzon, Leandro
|
출원인 / 주소 |
|
대리인 / 주소 |
Wenderoth, Lind & Ponack, L.L.P.
|
인용정보 |
피인용 횟수 :
22 인용 특허 :
10 |
초록
▼
A motor-vehicle has at least a rear driving wheel and two front rolling and steering wheels connected to each other by a linkage mechanism that is provided with a suspension system that comprises at least a pair of shock-absorbing struts and rocking levers associated therewith. An interconnecting la
A motor-vehicle has at least a rear driving wheel and two front rolling and steering wheels connected to each other by a linkage mechanism that is provided with a suspension system that comprises at least a pair of shock-absorbing struts and rocking levers associated therewith. An interconnecting latticework extending along a median plane of the vehicle supports an axis of pins of the rocking levers so that the axis is caused to lie on the median plane and parallel to axes of fulcrum pins of cross bars of the linkage mechanism.
대표청구항
▼
1. A vehicle comprising:a rigid chassis;a rear driving wheel;two front steering wheels;a linkage mechanism interconnecting said two front steering wheels, said linkage mechanism including(i) a first rigid cross bar having a first fulcrum axis, and a second rigid cross bar having a second fulcrum axi
1. A vehicle comprising:a rigid chassis;a rear driving wheel;two front steering wheels;a linkage mechanism interconnecting said two front steering wheels, said linkage mechanism including(i) a first rigid cross bar having a first fulcrum axis, and a second rigid cross bar having a second fulcrum axis that is coincident with said first fulcrum axis,(ii) a third rigid cross bar having a third fulcrum axis, and a fourth rigid cross bar having a fourth fulcrum axis that is coincident with said third fulcrum axis, and(iii) a suspension system including(a) a first shock absorbing strut having an upper end portion connected to a first end of a first rocking lever at a first connecting point and also to a first end of a second rocking lever at a second connecting point, and having a lower end portion connected to said first rigid cross bar at a third connecting point, with said first and second connecting points defining a first line,(b) a second shock absorbing strut having an upper end portion connected to a second end of said first rocking lever at a fourth connecting point and also to a second end of said second rocking lever at a fifth connecting point, and having a lower end portion connected to said second rigid cross bar at a sixth connecting point, with said fourth and fifth connecting points defining a second line,(c) an interconnecting structure connected to said rigid chassis, with said first rocking lever being connected to said interconnecting structure so as to pivot relative to said interconnecting structure about a fifth fulcrum axis, and with said second rocking lever being connected to said interconnecting structure so as to pivot relative to said interconnecting structure about a sixth fulcrum axis that is coincident with said fifth fulcrum axis,with said first fulcrum axis being co-planar with each of said third fulcrum axis and said fifth fulcrum axis, and with each of said first fulcrum axis, said third fulcrum axis and said fifth fulcrum axis being in a median plane of the vehicle when the vehicle is at rest;a first rigid wheel-supporting member connected to said first rigid cross bar via a first ball and socket joint having a first rolling axis, and connected to said third rigid cross bar via a second ball and socket joint having a second rolling axis, with said first and second rolling axes being parallel to said median plane when the vehicle is at rest; anda second rigid wheel-supporting member connected to said second rigid cross bar via a third ball and socket joint having a third rolling axis, and connected to said fourth rigid cross bar via a fourth ball and socket joint having a fourth rolling axis, with said third and fourth rolling axes being parallel to said median plane when the vehicle is at rest,such that during various states of the vehicle a distance between said first fulcrum axis and said fifth fulcrum axis remains fixed, while a distance between said first line and said third connecting point varies and while a distance between said second line and said sixth connecting point varies. 2. The vehicle according to claim 1, whereinsaid first rocking lever is constructed and arranged to pivot about said fifth fulcrum axis and said second rocking lever is constructed and arranged to pivot about said sixth fulcrum axis such that for a rolling angle Φ of said two front steering wheels relative to a vertical plane, said first, second, third and fourth rigid cross bars exhibit an inclination angle β relative to a horizontal plane, and said first and second rocking levers exhibit a rotation angle γ relative to a horizontal plane, with the inclination angle β being greater than the rolling angle Φ and correlated with the rotation angle γ. 3. The vehicle according to claim 2, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said thi rd ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 4. The vehicle according to claim 3, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 5. The vehicle according to claim 1, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said third ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 6. The vehicle according to claim 5, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 7. The vehicle according to claim 1, whereinsaid first rigid cross bar is connected to said interconnecting structure by a first pin, with an axis of said first pin corresponding to said first fulcrum axis,said second rigid cross bar is connected to said interconnecting structure by a second pin, with an axis of said second pin corresponding to said second fulcrum axis,said first rocking lever is connected to said interconnecting structure by a third pin, with an axis of said third pin corresponding to said fifth fulcrum axis, andsaid second rocking lever is connected to said interconnecting structure by a fourth pin, with an axis of said fourth pin corresponding to said sixth fulcrum axis. 8. The vehicle according to claim 7, whereinsaid third and fourth rigid cross bars are connected to said interconnecting structure by a fifth pin, with an axis of said fifth pin corresponding to said third and fourth fulcrum axes, andsaid first fulcrum axis is parallel to each of said third fulcrum axis and said fifth fulcrum axis. 9. The vehicle according to claim 7, whereinsaid interconnecting structure comprises an open framework including a first beam spaced from and connected to a second beam, with said second beam being positioned between said first beam and said rear driving wheel, and with said median plane passing between said first and second beams. 10. The vehicle according to claim 9, whereinsaid first rocking lever is constructed and arranged to pivot about said fifth fulcrum axis and said second rocking lever is constructed and arranged to pivot about said sixth fulcrum axis such that for a rolling angle Φ of said two front steering wheels relative to a vertical plane, said first, second, third and fourth rigid cross bars exhibit an inclination angle β relative to a horizontal plane, and said first and second rocking levers exhibit a rotation angle γ relative to a horizontal plane, with the inclination angle β being greater than the rolling angle Φ and correlat ed with the rotation angle γ. 11. The vehicle according to claim 10, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said third ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 12. The vehicle according to claim 11, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 13. The vehicle according to claim 9, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said third ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 14. The vehicle according to claim 13, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 15. The vehicle according to claim 9, whereinsaid first beam is connected to said second beam via a third beam and a fourth beam, with said third and fourth beams extending transversely relative to said first and second beams. 16. The vehicle according to claim 15, whereinsaid first rocking lever is constructed and arranged to pivot about said fifth fulcrum axis and said second rocking lever is constructed and arranged to pivot about said sixth fulcrum axis such that for a rolling angle Φ of said two front steering wheels relative to a vertical plane, said first, second, third and fourth rigid cross bars exhibit an inclination angle β relative to a horizontal plane, and said first and second rocking levers exhibit a rotation angle γ relative to a horizontal plane, with the inclination angle β being greater than the rolling angle Φ and correlated with the rotation angle γ. 17. The vehicle according to claim 2, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said third ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 18. The vehicle ac cording to claim 17, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 19. The vehicle according to claim 15, whereina center of said first ball and socket joint and a center of said second ball and socket joint are each aligned a steering axis of one of said two front steering wheels,a center of said third ball and socket joint and a center of said fourth ball and socket joint are each aligned a steering axis of the other of said two front steering wheels,said first and second rolling axes are each in an equatorial plane of said one of said two front steering wheels, andsaid third and fourth rolling axes are each in an equatorial plane of said other of said two front steering wheels,with said equatorial plane of said one of said two front steering wheels and said equatorial plane of said other of said two front steering wheels each being parallel to said median plane. 20. The vehicle according to claim 19, whereinsaid steering axis of said one of said two front steering wheels and said steering axis of said other of said two front steering wheels are each inclined relative to a vertical plane so as to confer a forward stroke to said two front steering wheels. 21. The vehicle according to claim 1, whereinsaid third fulcrum axis is coincident with said fifth fulcrum axis.
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