SEAT ADJUSTMENT DEVICE FOR VERTICAL ADJUSTMENT OF A VEHICLE SEAT

Abstract

Seat height adjustment having vertical slots (21, FIG. 3) provided on the seat structure (20) and a displacer (14) which is provided with tilted slots (15) and which can be moved horizontally in order to lift or lower the seat.

Description

In the figures:

FIG. 1 schematically shows e perspective illustration of e vehicle seat,

FIG. 2 schematically shows a perspective illustration of a first embodiment of the seat adjustment device of the vehicle seat

FIG. 3 schematically shows a sectional illustration of a vehicle seat with a seat adjustment device,

FIG. 4 schematically shows a sectional illustration of a seating element and a disputer element,

FIG. 5 schematically shows a perspective illustration of a seating element of a motor vehicle,

FIG. 6 schematically shows a perspective illustration of a second embodiment of the seat adjustment device,

FIG. 7 schematically shows a sectional illustration of a second embodiment of the seat adjustment device.

FIG. 8 a-9 show another embodiment of the seat adjustment device.

FIG. 10 shows a preferred embodiment of the adjustment device according to FIGS. 8a-9.

Parts that correspond to one another are provided with the same reference signs in all of the figures.

FIG. 1 schematically shows a perspective illustration of a vehicle seat 1. The seat 1 comprises a seating element 20, in particular for placing a cushion (not shown) on the seating element 20. The seat 1 further comprises a backrest 30, in particular an adjustable backrest being finable relative to the seating element 20. The seat 1 further comprises a seat adjustment device 10 for a vertical adjustment of the whole seat 1 into a vertical direction 101, wherein the vertical direction 101 is arranged substantially perpendicular to a horizontal plane of all possible driving directions and/or substantially perpendicular to a plane of main extension of the seating part 20. The seat adjustment device 10 may further be configured for adjustment of the wrote seat within the horizontal plane, for example parallel to the driving direction 102.

FIG. 2 schematically shows a perspective illustration of a first embodiment of the seat adjustment device 10 of the vehicle seat 1. The seat adjustment device comprises a seating element 20 with a structure 20′, a bracket 12 and displacer means located between the bracket 12 and the structure 20′, wherein the displaces means 14 are moved in an essentially horizontal direction 10 and thereby lower and lift the seating element 20, wherein guiding means 21 are provided at the structure 20′ which restrict the movement of the seating element 20 to an essentially vertical direction 101. The seat adjustment device 10 comprises guide rails 11 for sliding the seat 1 forwards and backwards along a main direction of extension of the guide rails 11 parallel to the horizontal direction 102. The bracket 12 being slidable arranged along the guide rails 11, wherein a guiding means 21, in particular formed as a slotted hole 21 or long-hole 21, is arranged on the structure 20′ of the seating element 20 or on a guiding element 25 fixedly attached, in particular by a force-fitted or welding connection, to the structure 20′. The guiding means 21 are configured to constrain the movement of the seating element 20 relative to the structural element 13, in particular a tube 13 or impact tube 13 such that the seating element 20 is preferably moveable only parallel to the vertical direction 101. The structural element 13 is fixedly connected, in particular by a force-fitted or welding connection, to the bracket 12 or the structural element 13 is an integral part of the bracket 12. Preferably, the guiding means 21 are arranged such that the structural element 13 of the bracket 12 absorbs the force, in particular the force acting parallel to the horizontal direction 102, acting on the seat 1 during a crash. In particular, the seat adjustment device 10 comprises further guiding means 2121′ (see FIG. 3) and a further structural element (not shown). The seat adjustment device 10 further comprises the displacer means 14 comprising a transmission means 15, in particular in the form of a slotted hole. In particular, a ramp 16 is formed by the transmission means 15 on the displacer means 14, in particular by an edge of the slotted hole 15 of the transmission means 15. The displacer means 14 is in particular movable relative to the bracket 12 along the horizontal direction 102 relative to the seating part 20. The transmission means 15 are guided by the structural element 13, in particular via the ramp 16, such that the seating element 20 is lifted and lowered parallel to the vertical direction 101 by the displacer means 14, if the displacer means 14 is moved parallel to the horizontal direction 102. Thus, a movement of the displacer means 15 parallel to the horizontal direction 102 is transmitted into a movement of the structural element 15 parallel to the vertical direction 101, and therefore in particular of the seating element 20. In particular, the displacer means 14 comprises a further transmission means 15′ with a further ramp 16′ for guiding a further structural means 13′, wherein the further transmission means 15′ is of the same construction as the transmission means.

FIG. 3 schematically shows a sectional illustration of a vehicle seat 1 with a seat adjustment device 10. The seat adjustment device 10 is configured to lift the seating element 20, in particular the cushion or whole vehicle seat 1 including the backrest 30, parallel to the vertical direction 101 between a lower position and an upper position, wherein in FIG. 3 the lower position is shown. The seat adjustment device 10 comprises drive means 22 for driving a displacer means 14 of the seat adjustment system 10 into the horizontal direction 102. Here, the drive means 22 includes a pinion 22, which is in particular rotatably adjusted on the seating element 20. The pinion is provided for driving a rack 17, which is fixedly attached to the displacer means 14, or which is an integral part of the displacer means 14. Hence, the displacer means 14 is driven by the drive means 22 in a positive interlocking manner parallel to the horizontal direction 102. The bracket comprises the structural element 13, which is an integral part of the bracket 20 or fixedly connected to the bracket 12, for example by a welding joint or another force-fitted connection. In particular, the bracket 1 comprises a further equivalently constructed structure element 13′. The seating element 13 is constraint relative to a movement into the horizontal direction 102 by the guiding means 21 at the structure 20 of the seating element 20. The displacer means 14 comprises transmission means 15 for the transmission of a movement of the displacer means 14 essentially parallel to the horizontal direction 102 to e movement of the seating element 20 essentially parallel to the vertical direction 101. The seating element 20 is thereby guided by the guiding means 21 into the vertical direction 101. The transmission means 15 is in particular a slotted hole 15 of the displacer means 14, which guides the displacer means 14 along a main direction of extension of the slotted hole 15 of the displacer means 14. Here, the main direction of extension of the slotted hole 16 of the displacer means 14 is tilted at an angle relative to the main direction of extension of the slotted hole 21 of the guiding element at the structure 20′ of the seating element 20. In particular, the the ramp 16 (see FIG. 2) of the slotted hole 15 of the displacer means 14 is guided along the structural element 13 of the bracket 12. Preferably, the angle is between 10 degrees and 80 degrees or between 100 degrees and 170 degrees, more preferably between 30 degrees and 60 degrees or between 120 degrees and 150 degrees, even more preferably approximately 45 degrees or approximately 215 degrees. Preferably, the displacer means 14 is movable relative to the bracket 12, wherein in a first end position of the displacer means 14 a top portion of the slotted hold 21 of the guiding means 21 at the structure 20′ overlaps with a top portion of the slotted hole 15 at the displacer means 14. When the displacer means 14 is in the first end position the seating element 20 is in a lower position. In a second end position of the displacer means 14 a bottom portion of the slotted hole 21 of the guiding means 21 overlaps with a bottom portion of the displacer means 14 and when the displacer means 14 is in the second end position the seating element 20 is in an upper position vertically above the lower position. In particular, the seat adjustment device 10 comprises equivalently constructed and/or equivalently operating further guiding means 21 and further transmission means 15′ for guiding along the further structural element 13′ at the bracket 12.

FIG. 4 schematically shows a sectional illustration of a seating element 20 and a displacer means 14, wherein a sliding element 23 is disposed between the seating element 20 and the displacer means 14. The sliding element is configured to enable a movement of the displacer means 14 into a horizontal direction 102 relative to the seating element 20 and/or cushion placed on the seating element 20 Here, the movement of the displacer means 14 is driven by a pinion 22, in particular rotatably connected with the seating element 20 by positive interlocking transmission of the rotational movement of the pinion 22 into a movement parallel to the horizontal direction 102 of the rack 17, which is fixedly connected to the displacer means 14, The rack 17 is in preferably connected to the displacer means 14 by a force-fitted connection.

FIG. 5 schematically shows a perspective illustration of a seating element 20 and a seat adjustment device 10. The seat adjustment device 10 is configured to lift the seating element 20 parallel to the vertical direction 101. Further, the seating device 20 and/or the backrest 30 (see FIG. 1) is/are adjustable parallel to the horizontal direction 102. Here, the seat 1 is slidably arranged on guide rails 11 that are fixedly attached by anchoring means 11′ to the vehicle, in particular to the vehicle chassis. The seat adjustment device 10 and therefore the whole vehicle seat 1 is/are locked in its position in case of a crash by means of a clutch 24 that is disposed on the seat adjustment device 10 or the seating element 20.

FIGS. 6 and 7 schematically show a second embodiment of the seat adjustment device 10, wherein a drive screw 18 is attached to the displacer means 14. The drive screw 18 is rotatable around an axis of rotation that is parallel to the horizontal direction 102. Thus, by turning the drive screw 18, the displacer means 14 is moved relative to the bracket 12, in particular substantially parallel to the horizontal direction 102. Due to the horizontal movement of the transmission means 15 and the displacer means 12, the seating element 21 is lifted between an upper position ice shown in FIGS. 6 and 7) anti a lower position (not shown) in reaction with the guiding means 21 at the structure 20′ of the seating element 20 that constrain the movement of the structural element 13—and therefore of the seating element 20—elative to the horizontal direction 102 such that the seating element 21 is only movable parallel to the vertical direction 101. The drive screw 18 in particular comprises a self-locking thread being configured to prevent the structural element 13 from returning back into the tower position, in particular due to the weight of a user seated on the seating element 20.

FIGS. 8 a and 9 show a further embodiment of the vehicle seat according to the invention. In the present case, the lower rail 11 is provided which is attached to the vehicle body. According to the invention, the seating element 20 has in its front region 45 the thigh rest, a guiding means 21, here a slot 21 or a slotted hole, into which a structural element 13, here a crossmember, particularly a tube, which is affixed to the bracket 12. Furthermore, the seating element is mounted on a pivot lever in its rear region 46. In case the seating element 20 is now intended to be raised, the pivot lever is rotated in the clockwise direction, as a result of which the rear pad 46 of the seating element 20 rises. At the same time, the seat shell is raised in its front region 45, in that the slot 21 moves along the structural element 13. The height of the seating element 20 is consequently adjusted in its front region by a linear movement and in its rear region by rotation. Preferably, a spring means is provided between the seating element 20 and the bracket 12. This spring means can reduce the forces required of the occupant to actuate, but can also support the height adjustment of the seating element 20. Preferably, the movement of the seating element 20 is limited. This can be carried out by any desired means familiar to a person skilled in the art. The seating element 20 is lowered in an analogous manner. As can be gathered in particular from FIG. 9, the vehicle seat according to the invention has a structural element, here a cross member 13, which is connected firmly to the bracket 12 of the structure of the at part and does not move when the height of the seat shell is adjusted. The seating element 20 slides along the cross member 13 as its height is adjusted. The seating element 20 is supported on this cross member 13 in the event of a front-end impact, and so said cross member 13 absorbs all the forces and moments of momentum that occur in the event of such an accident.

FIG. 10 shows a preferred, alternative embodiment of the vehicle seat according to FIGS. 8a-9. In the present case, the seat has a cable pull 57, for example a Bowden cable and a guide 58. The height of the seating element 20 can be adjusted by way of the cable pull. In particular, the seat shell cart be moved thereby into a lowered position, with the seating element 20 being moved into the raised position preferably by spring force or output device exerting force on the cable or could be raised by the occupant reducing forces exerted onto the cushion. During the upward end downward movement, the seat shell is guided by the guide 58, which preferably also limits its movement. For this purpose, the guide 58 has at least one stop. In the present case, the guide configured as a pin which slides in a bearing. A person skilled in the at will recognize that other guides are also possible. For example, an element bent in the shape of a U can be provided on the seat shell. The limbs of the U slide along a guide, which is preferably arranged vertically, for example a pin, which is enclosed by the limbs of the U.

LIST OF REFERENCES

• 1 Seat
• 10 Seat adjustment device
• 11 Guide rails
• 11′ Anchoring means
• 12 Bracket
• 13 Structural element
• 13′ Further structural element
• 14 Displacer means
• 15 Transmission means
• 15′ Further transmission means
• 16 Ramp
• 16′ Further ramp
• 17 Rack
• 18 Drive screw
• 20 Setting element
• 20′ Structure
• 21 Guiding means 21′ Further Guiding means
• 22 Pinion
• 23 Sliding element
• 24 Clutch
• 25 Guiding element
• 30 Backrest
• 40 body of the vehicle
• 45 front region of the seating element
• 46 rear region of the seating element
• 57 Cable pull, Bowden cable
• 58 Guide
• 101 Vertical direction
• 102 Horizontal direction

Claims

1. A seat adjustment device which adjusts the height of a seating element relative to a the body of a vehicle, wherein the seating element comprises a structure, wherein a guiding means is provided at the structure (20′), which restricts the movement of the seating element during the height adjustment.

2. The seat adjustment device, according to claim 1, including a bracket and a displacer means located between the bracket and the structure, wherein the displacer means are moved in an essentially horizontal direction to lower and lift the seating element, wherein the guiding means restricts the movement of the seating element to an essentially vertical direction.

3. The seat adjustment device according to claim 1 wherein the guiding means is a slotted hole.

4. The seat adjustment device, according to claim 3, wherein a main direction of extension of the slotted hole tilted relative to the horizontal direction.

5. The seat adjustment device according to claim 2, wherein said bracket comprises a structural element.

6. The seat adjustment device according to claim 5, wherein the structural element extends through the guiding means.

7. The seat adjustment device according to claim 5, wherein said structural element is engaged with a slotted hole of the displacer means, wherein a main direction of extension of the slotted hole is tilted relative to the horizontal direction.

8. The seat adjustment device according to claim 4, wherein the structural element is engaged with the guiding means, the guiding means preferably being slotted holes haying a main direction of extension arranged parallel to the vertical direction and preferably tilted relative to the slotted hole of the displacer means.

9. The seat adjustment device according to claim 2, wherein the guiding means is provided in the region of a thigh rest.

10. The seat adjustment device according to claim 9, wherein a rear region of the seating element is adjustable in height relative to the body of the vehicle.

11. The seat adjustment device according to claim 10, wherein the rear region comprises a pivot leaver, which lowers and lifts the rear region of the seating element.

12. The seat adjustment device according to claim 10, which comprises the guiding means at the rear region of the structure of the seating element.

13. The seat adjustment device according to claim 12, wherein the displacer means comprises a slotted hole at its rear end.

14. A seat adjustment device according to claim 5 wherein the bracket comprises a tube.

15. The seat adjustment device according to claim 6, wherein the structural element in the form of e tube extends through the guiding means.

16. The seat adjustment device according to claim 4, wherein the structural element is engaged with the guiding means, the guiding means being dotted holes having a main direction of extension arranged parallel to the vertical direction and tilted relative to the slotted hole of the displacer means.