1—Field of the Invention
The present invention relates to a clamping device of a system for adjusting the position of a first member relative to a support assembly considered as fixed. The clamping device has a clamping axis that is substantially perpendicular to the axis of the first member and to the two uprights of the support assembly between which said first member is disposed. This clamping device of a position adjustment system can be applied in particular to an automobile vehicle steering column which can be adjusted in height and/or in depth in the vertical plane.
2—Description of the Prior Art
There exist steering columns adjustable in height and/or in depth which include a system for adjusting the position of the steering column relative to a support member connected to the chassis of the automobile vehicle. This position adjustment system includes a clamping device having two positions: an unlocked or unclamped position enabling adjustment of the steering column to the required position, and a locked or clamped position once the latter position has been selected. In prior art systems, the clamping device of the system for adjusting the steering column of the automobile vehicle has a clamping rod whose axis is the clamping axis and which is disposed underneath the first member or body-tube of the steering column. This clamping device has an operating handle and a locking assembly, for example a cam assembly, disposed at one of the ends of the clamping rod. This clamping rod passes through the two uprights of the support assembly. This type of support assembly and architecture has an overall size that is problematical, as much for the difficulty of installing a steering column in a vehicle architecture when the clamping rod is on top of the column as for the safety in the event of an accident of the driver, whose impact knees on the support, when the clamping rod is positioned underneath the column.
The object of the present invention is to propose a clamping device that avoids the problems described above and whose clamping axis can be disposed at any position, regardless of the overall size of the steering column, in order to free up the area located underneath the steering column.
According to a mode of embodiment of the invention, the clamping device relates to a system for adjusting the position of one member relative to a support assembly considered as fixed. The member has an axis and the support assembly consists of two uprights connected to each other by a connecting member. The two uprights are substantially parallel to each other. The member is disposed inside the two uprights of the support assembly, so that the two uprights are substantially parallel to the axis of the member. Said position adjustment system is locked in the selected position by said clamping device, whose clamping axis is substantially perpendicular to the two uprights and to the axis of the member.
The clamping device includes:
The axial retention assembly is adjusted along the clamping axis so that in the locked position of the clamping device:
According to the invention, the bracket can have several kinds of embodiment. In a first kind of embodiment, the bracket is obtained so that the base and the two tie-rods of the bracket constitute a one-piece component. In a second kind of embodiment, the bracket is obtained from the base and the two tie-rods which are joined together by assembly means.
Advantageously according to the invention, the assembly means of the closure and bearing member and the two tie-rods consist of two pins, each of the two pins being forced into a hole made at the end of the corresponding tie-rod and forced into a hole made on the corresponding side of the closure and bearing member. The assembly means can be so two screws or two rivets integrated or no integrated to the base for assuring their retention in position.
According to a mode of embodiment of the invention, the assembly means of the base and the two tie-rods consist of two pins, each of the two pins being forced into a hole made at the end of the corresponding tie-rod and forced into a hole made on the corresponding side of the base.
According to an embodiment of the invention, the external clamping rod is fastened to the base to constitute a one-piece component. In another embodiment of the invention, the external clamping rod is mounted in a hole through the base, said external clamping rod being provided with a head that abuts against said base.
According to an embodiment of the invention, the closure and bearing member includes at least two bearing uprights that face each other and are pressed against the external face of the corresponding upright. Each of the two bearing uprights receiving the assembly means with the end of the corresponding tie-rod.
Advantageously according to the invention, the intermediate bearing member includes two bearing uprights that face each other and are pressed against the external face of the corresponding upright around the base of the bracket.
According to an embodiment of the invention, the axial retention assembly includes an abutment with a nut and a lock-nut that are screwed onto the threaded end of the external clamping rod.
In a kind of embodiment of the invention, the locking assembly includes:
In a first kind of the embodiment of a complete structure according to the invention:
In a second kind of the embodiment of a complete structure according to the invention:
The clamping device in accordance with the invention of the system for adjusting an automobile vehicle steering column therefore has the advantage of having a clamping axis that is situated within the overall vertical dimension of the body-tube, providing a smaller overall size than prior art devices. This essential aspect of the invention frees up the areas on top of and underneath the steering column, which enhances the safety of the driver in the event of an accident. Moreover, the clamping device can easily be fitted to existing steering columns.
Other features and advantages of the present invention will become more clearly apparent on reading the following description of preferred embodiments of the invention given with reference to the corresponding accompanying drawings, in which:
The clamping device according to the invention relates to a system 7 for adjusting the position of a first member relative to a support assembly 6 as shown in the various figures. The first member is an automobile vehicle steering column body-tube in which is rotatably mounted a steering shaft 1 whose axis is a steering axis 3. The vertical plane passing through the steering axis 3 is denoted 2.
According to the invention, the body-tube can have various structures, including the structure with the body-tube 30 shown in
In all of
In the remainder of the description, and in respect of the same member, the expression “internal” or “interior” relative to the steering axis 3 of the member 30 or 60 means nearer the steering axis 3 and the term “external” or “exterior” means farther therefrom. Thus the upright 11 of the support assembly 6 has an internal face 15 and an external face 17 relative to the steering axis 3. Similarly, the upright 12 has an internal face 16 and an external face 18 relative to the same steering axis 3. Moreover, the upright 11 has a slot 71 that is oriented in the adjustment direction of the position adjustment system 7. The upright 12 also has a slot 72 that is likewise oriented in the adjustment direction.
The position adjustment device 7 is locked in the selected position by the clamping device according to the invention. The clamping device has a clamping axis 5 that is substantially perpendicular to the vertical plane 2 of the steering axis 3. The clamping axis 5 is also substantially perpendicular to the two uprights 11 and 12 of the support assembly 6. The clamping device has two positions: an unlocked position, in which the clamping device is unlocked to allow the required adjustment of the steering column, and a locked position, in which the clamping device is locked to guarantee that the selected position is maintained.
According to the invention, and like it is represented on the different figures, the clamping device includes substantially:
The axial retention assembly 47 is adjusted along the clamping axis 5 so that in the locked position of the clamping device:
In the mode of embodiment shown in
The body-tube 30 includes a build-in device between the two uprights 11,12 of the support assembly 6. Said build-in device consists of:
The bracket 20 comprises:
The closure and bearing member 56 is outside the other upright 12. The closure and bearing member 56 bears on the external face 18 of the upright 12. The closure and bearing member 56 connects the two tie-rods 22 and 23 with assembly means.
The assembly means of the closure and bearing member 56 and the two tie-rods 22 and 23 comprise two pins 26, each of the two pins 26 being forced into a hole 25 in the end of the corresponding tie-rod 22, 23 and forced into a hole 59 made on the corresponding side of the closure and bearing member 56.
The external clamping rod 19 is mounted in a hole through the base 21, said external clamping rod 19 being provided with a head that abuts against said base 21.
The closure and bearing member 56 includes at least two bearing uprights 57, 58 that face each other and that are pressed against the external face 18 of the corresponding upright 12, each of the two bearing uprights 57, 58 receiving the assembly means with the end of the corresponding tie-rod 22, 23. In the embodiment shown in the figures, the bearing uprights 57 and 58 are connected by two other bearing uprights.
The intermediate bearing member 50 includes two bearing uprights 53, 54 that face each other and that are pressed against the external face 17 of the corresponding upright 11, around the vertical faces 24 of the base 21 of the bracket 20. The intermediate bearing member 50 has an internal face 51, an external face 52, and a slot 55.
The axial retaining assembly 47 includes an abutment with a nut and a lock-nut that are screwed onto the threaded end of the external clamping rod 19.
The locking assembly 40 includes:
The internal cam 41 is provided with a tongue-shaped protuberance 48 that is engaged in the slot 55 in the intermediate bearing member 50.
The external cam 42 is provided with an excrescence 49 that is engaged in the clamping handle 45.
The internal cam 41, the external cam 42, and the clamping handle 45 are mounted on the clamping rod 19 by means of respective through-holes. 43, 44 and 46.
In the mode of embodiment shown in
The body-tube 60 includes a build-in device between the two uprights 11, 12 of the support assembly 6.
Said build-in device consists:
The bracket 20 comprises:
The assembly means of the base 27 and the two tie-rods 22, 23 consist of two pins 29, each of the two pins 29 being forced into a hole 28 made at the end of the corresponding tie-rod 22, 23 and forced into a hole 38 on the corresponding side of the base 27. The assembly means can equally well be two screws or two rivers, either integrated with the base to retain them in position or not.
The closure and bearing member 56 is outside the other upright 12. The closure and bearing member 56 bears on the external face 18 of the upright 12. The closure and bearing member 56 connects the two tie-rods 22 and 23 with assembly means.
The assembly means of the closure and bearing member 56 and the two tie-rods 22, 23 consist of two pins 26, each of the two pins 26 being forced into a hole 25 made at the end of the corresponding tie-rod 22, 23 and forced into a hole 59 on the corresponding side of the closure bearing member 56.
The external clamping rod 19 is attached to the base 27 to constitute a one-piece component. The connection can be effected by welding, for example.
The external clamping rod 19 is mounted in a hole through the base 27, said external clamping rod 19 being provided with a head that abuts against said base 27, said head being welded to the base 27.
The closure and bearing member 56 includes at least two bearing uprights 57, 58 that face each other and are pressed against the external face 18 of the corresponding upright 12, each of the two bearing uprights 57, 58 receiving the assembly means with the end of the corresponding tie-rod 22, 23. In the embodiment shown in the figures, the bearing uprights 57 and 58 are connected by two other bearing uprights.
The intermediate bearing member 50 includes two bearing uprights 53, 54 that face each other and are pressed against the external face 17 of the corresponding upright 11, around the base 27 of the bracket 20.
The axial retaining assembly 47 includes an abutment with a nut and a lock-nut that are screwed onto the threaded end of the external clamping rod 19.
The locking assembly 40 includes:
According to the invention, the build-in device for the body-tube between the two uprights 11 and 12 can have any desired structure
Number | Date | Country | Kind |
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00 17256 | Dec 2000 | FR | national |
This application is a continuation of the PCT International Application No. PCT/FR01/04026 filed Dec. 14, 2001, which is based on the French Application No. 00/17256 filed Dec. 26, 2000.
Number | Name | Date | Kind |
---|---|---|---|
3825358 | Eisenhardt et al. | Jul 1974 | A |
5927152 | Marzio et al. | Jul 1999 | A |
6357318 | Koellisch et al. | Mar 2002 | B1 |
6467807 | Ikeda et al. | Oct 2002 | B2 |
Number | Date | Country |
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9806063 | Nov 1999 | FR |
Number | Date | Country | |
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20030226943 A1 | Dec 2003 | US |
Number | Date | Country | |
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Parent | PCTFR01/04026 | Dec 2001 | US |
Child | 10458207 | US |