ACTUATOR FOR SEAT ADJUSTMENT DEVICES

Abstract

An actuating drive, in particular for seat adjustment devices, comprising at least one electric motor, a downstream reduction gear, a coupling device which has a coupling engagement spring that ensures an engaged position of the coupling device during motorized operation and permits a manual disengagement against its coupling force. The coupling device has a coupling lever pivotably mounted in a pivot bearing of a bearing block. The coupling lever is connected at one end of the pivot bearing to a mechanical actuating unit and by which at the other end of the pivot bearing a coupling means can be adjusted to disengage the coupling device. The actuating drive ensures both reliable electrical and reliable manual operation, a high degree of efficiency during electrical operation and simple assembly for a generic actuating drive.

Claims

1. Actuating drive for seat adjustment devices, the actuating drive comprising: at least one electric motor capable of motorized operation; a mechanical actuating unit; a reduction gear positioned downstream of the at least one electric motor; a coupling device with a housing and having a coupling engagement spring which ensures an engaged position of the coupling device during motorized operation of the at least one electric motor and permits a manual disengagement against the coupling force of the coupling device; a bearing block with a pivot bearing, wherein the coupling device has a coupling lever pivotably mounted in the pivot bearing of the bearing block; and a coupling means for engaging and disengaging the coupling device; the coupling lever being connected on one side of the pivot bearing to the mechanical actuating unit and by which on the other side of the pivot bearing the coupling means can be adjusted to disengage the coupling device, wherein the coupling lever and the coupling means do not touch each other during motorized operation.

2. The actuating drive according to claim 1, wherein the coupling lever is held away from the coupling means by a return spring during motorized operation or during the idle state of the at least one electric motor.

3. The actuating drive according to claim 2, wherein the return spring is accommodated in the bearing block and is supported by it.

4. The actuating drive according to claim 3, wherein the bearing block has a projection which keeps the return spring under pretension.

5. The actuating drive according to claim 3, wherein the return spring is supported on the coupling lever and is positively accommodated in a cavity, in the form of a receiving hole,

6. The actuating drive according to claim 2, wherein the spring travel of the return spring is limited by a stop, wherein the stop is fastened to the bearing block or is part of the bearing block.

7. The actuating drive according to claim 2, wherein the spring travel of the return spring is limited by a stop, wherein the stop is fastened to the housing or is part of the housing.

8. Actuating drive according to claim 1 wherein the bearing block is mounted on the housing or is part of the housing.

9. Actuating drive according to claim 1 wherein the coupling device has a latching coupling.

10. Actuating drive according to claim 1 wherein the coupling lever has an actuating face which, in the disengaged state of the coupling, is perpendicular to a crowned shaft end of the coupling means.

11. Actuating drive according to claim 1 wherein the return spring is able to overcome the friction of the mechanical actuating unit and move it back into a starting position.

12. Actuating drive according to claim 1 wherein the return spring enables a variable restoring force of the mechanical actuating unit with different spring rates.

13. Actuating drive according to claim 1 wherein the return spring is a compression spring.

14. Actuating drive according to claim 1 wherein the return spring is a leg spring.

15. Actuating drive according to claim 1 further comprising a coupling axis in the housing and a Bowden cable, wherein the Bowden cable is oriented substantially perpendicular or parallel to a direction of movement or the coupling axis.

16. Actuating drive according to claim 15 wherein a leg spring is used when the Bowden cable is oriented substantially perpendicular to the coupling axis.

17. Actuating drive according to claim 15 wherein a compression spring is used when the Bowden cable is oriented substantially parallel to the coupling axis.

18. Actuating drive according to claim 1 further comprising a non-self-locking end stage in the form of a non-self-locking spindle.

19. Actuating drive according to claim 1 wherein an electromechanical brake is arranged between the electric motor and the reduction gear.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0022] The exemplary embodiments of the invention are explained in more detail below based on the drawing. The following is shown:

[0023] FIG. 1a shows a first embodiment of a coupling device of an actuating drive in a first position,

[0024] FIG. 1b shows the first embodiment in a second position,

[0025] FIG. 1c shows the first embodiment in a third position,

[0026] FIG. 1d shows the first embodiment in a fourth position,

[0027] FIG. 2a shows a second embodiment of a coupling device of an actuating drive in a first position,

[0028] FIG. 2b shows the second embodiment in a second position,

[0029] FIG. 2c shows the second embodiment in a third position,

[0030] FIG. 2d shows the second embodiment in a fourth position,

[0031] FIG. 3a is an exploded view of a third embodiment of a coupling device of an actuating drive,

[0032] FIG. 3b is a sectional view of the third embodiment,

[0033] FIG. 3c is a top view of the third embodiment,

[0034] FIG. 4 shows a coupling device of an actuating drive according to the prior art, and

[0035] FIG. 5 shows an actuating drive with a coupling device according to the prior art.

[0036] Note: The reference symbols with index and the corresponding reference symbols without index refer to details with the same name in the drawings and the drawing description. This reflects use in another embodiment or the prior art, and/or where the detail is a variant. For the sake of simplicity, the list of reference symbols contain only reference numbers without an index.

DETAILED DESCRIPTION OF THE INVENTION

[0037] In describing preferred embodiments of the present invention illustrated in the drawings, specific terminology is employed for the sake of clarity. However, the invention is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner to accomplish a similar purpose.

[0038] FIG. 1a, FIG. 1b, FIG. 1c and FIG. 1d show a first embodiment of a coupling device 4 of an actuating drive in four different positions, with a housing 13, a coupling means 10 rotatably mounted about a coupling axis 24 in the housing 13 by a ball bearing 19, a coupling disc 17 and a Bowden cable 30. The coupling disc 17 is in geared engagement with a final gear stage (not shown here). The coupling means 10 is in geared connection with an electric motor via a plurality of gear stages and a friction brake.

[0039] The coupling means 10 carries a pressed-on ring 29 with radially pressed-in coupling pins 18 which engage positively in corresponding recesses 22 of the coupling disc 17. A coupling engagement spring 5 ensures stable positive locking between the coupling pins 18 and the recesses 22 during motorized operation.

[0040] The Bowden cable 30 has a bearing block 7 mounted on the housing 13, a coupling lever 6, a return spring 11, a pull cable 25, a sleeve 26 and a bushing 27. The Bowden cable 30 is routed from the actuating drive to an actuating lever on the seat (not shown here).

[0041] The coupling lever 6 consists of a coupling arm 8 and an actuating arm 9 and is pivotably mounted in the bearing block 7, wherein the return spring 11 for the Bowden cable 30 is positively accommodated between an angled projection 14 of the bearing block 7 and a cavity 15 of the coupling lever 6. For ease of assembly, the cavity is provided with an insertion chamfer.

[0042] The pull cable 25 of the Bowden cable 30 terminates with a barrel nipple 28 which is suspended in a spring-loaded manner through a slot 42 in a receiver 31 of the actuating arm 9. The coupling lever 6 is pivotably mounted about a pivot bearing 49 of the bearing block 7 and has an oblique face 21 on the coupling arm 8 which serves as an actuating surface and interacts with a crowned end of the coupling means 10 during manual operation.

[0043] FIG. 1a shows the first embodiment of the coupling device 4 in a first position in which a Bowden cable 30 is not actuated. In this case, the coupling pins 18 of the coupling means 10 engage positively in the recesses 22 of the coupling disc 17 and can transmit a torque. The coupling engagement spring 5 maintains this state.

[0044] FIG. 1b shows the first embodiment of the coupling device 4 in a second position in which the coupling lever 6 touches the coupling means 10 at its end, but the coupling pins 18 of the coupling means are still positively engaged in the recesses 22 of the coupling disc 17.

[0045] FIG. 1c shows the first embodiment of the coupling device in a third position in which the coupling lever 6 has shifted the coupling means 10 to the maximum against the force of the coupling engagement spring 5 so that the coupling pins 18 of the coupling means 10 are disengaged from the recesses 22 of the coupling disc 17. The flow of force from the electric motor 3 with the electromechanical brake (power-off brake) to the actuator is thus interrupted and a manual adjustment of the seat is possible.

[0046] FIG. 1d shows the first embodiment of the coupling device 4 in a fourth position in which the coupling lever 6 is held back again in its starting position by the return spring 11 but the coupling pins 18 lie on the coupling disc 17 in an angular position between the recesses 22, whereby the coupling engagement spring 5 remains tensioned. In the case of a following electrical or manual adjustment, the coupling pins 18 would again latch into the recesses 22 and transmit a torque under the action of the coupling engagement spring 5.

[0047] FIG. 2a, FIG. 2b, FIG. 2c and FIG. 2d show a second embodiment of a coupling device 4 of an actuating drive in four different positions, with a housing 13a, a coupling means 10a rotatably mounted about a coupling axis 24a in the housing 13a by a ball bearing 19a, a coupling disc 17a and a Bowden cable 30a. The coupling disc 17a is in geared engagement with a final gear stage (not shown here). The coupling means 10a is in geared connection with an electric motor via a plurality of gear stages (not shown here).

[0048] The coupling means 10a carries a pressed-on ring 29a with radially pressed-in coupling pins 18a which engage positively in corresponding recesses 22a of the coupling disc 17a. A coupling engagement spring 5a ensures stable positive locking between the coupling pins 18a and the recesses 22a during motorized operation.

[0049] The Bowden cable 30a has a bearing block 7a mounted on the housing 13a, a coupling lever 6a, a return spring 11a, a pull cable 25a, a sleeve 26a and a bushing 27a. The coupling lever 6a consists of a coupling arm 8a, an actuating arm 9a and two side parts 58a angled away from a center piece 57a. The pivot bearing 49 is arranged in the side parts 58a. The coupling arm 8a is angled away from the center piece 57a and has a Z-shaped shape. The actuating arm 9a is angled away from the center piece 57a and has an L-shaped shape. The Bowden cable 30a is routed from the actuating drive to an actuating lever on the seat (not shown here). The bushing 27a of the Bowden cable 30a is supported on a separate angled plate 32a which is fastened to the housing 13 by screws. The return spring 11a here takes the form of a leg spring which is arranged around a pivot pin of a pivot bearing 49a, wherein a retaining leg 33a of the leg spring is held on an angled retaining portion 50 of the bearing block 7a and an actuating leg 34a contacts the coupling lever 6a via the center piece 57a. The coupling lever 6a is pivotably mounted in the bearing block 7a, consists of a punched and bent part, is multiply angled and is supported on a stop 12 mounted in the bearing block 7a.

[0050] The pull cable 25a of the Bowden cable 30a terminates with a barrel nipple 28a which is suspended in a spring-loaded manner on the actuating arm 9a.

[0051] FIG. 2a shows the second embodiment of the coupling device 4a in a first position in which a Bowden cable 30a is not actuated. In this case, the coupling pins 18a of the coupling means 10a are positively engaged in the recesses 22a of the coupling disc 17a and can transmit a torque. The coupling engagement spring 5a maintains this state.

[0052] FIG. 2b shows the second embodiment of the coupling device 4a in a second position in which the coupling lever 6a touches the coupling means 10a at its end, but the coupling pins 18a of the coupling means are still positively engaged in the recesses 22a of the coupling disc 17a.

[0053] FIG. 2c shows the second embodiment of the coupling device in a third position in which the coupling lever 6a has shifted the coupling means 10a to the maximum against the force of the coupling engagement spring 5a so that the coupling pins 18a of the coupling means 10a are disengaged from the recesses 22a of the coupling plate 17a. The flow of force from the electric motor 3 with the electromechanical brake (power-off brake) to the actuator is thus interrupted and a manual adjustment of the seat is possible.

[0054] FIG. 2d shows the second embodiment of the coupling device 4a in a fourth position in which the coupling lever 6a is held back again in its starting position by the return spring 11a but the coupling pins 18a lie on the coupling disc 17a in an angular position between the recesses 22a, whereby the coupling engagement spring 5a remains tensioned. In the case of a following electrical or manual adjustment, the coupling pins 18a would again latch into the recesses 22a and transmit a torque under the action of the coupling engagement spring 5a.

[0055] FIG. 3a shows an exploded view of a third embodiment of a coupling device of an actuating drive, with a bearing block 7b, a coupling lever 6b, a return spring 11b in the form of a compression spring, a pivot pin 53b and a stop 12b. Pivot pin receivers 55b and stop pin receivers 56b are provided in the bearing block 7b for receiving the pivot pin 53b and the stop 12b. Pivot pin through-holes 23b for receiving the pivot pin 53b are formed in the pivot lever 6b. In FIG. 3a the pivot pin and the stop 12b are shown with press-fit stemmed ends; however, during assembly at least the press-fit stemming 59b at one end is produced only after these components have been assembled in the bearing block 7a. The bearing block 7b has an L-shaped, angled projection 14b which is provided with two notches 35b. These serve as support points for the return spring 11b. Fastened in the coupling lever 6a is a receiving pin 36b (riveted here) which represents a guide for the return spring 11b. For ease of assembly, the receiving pin is provided with a distinct chamfer. For this purpose, the receiving pin 36b has a rivet pin 54b which is positively connected to the coupling lever 6b. The annular region 51b extending around the receiving pin 36b (see FIG. 3b) of the coupling lever 6b forms a support for the return spring 11b. The coupling lever 6b consists of an actuating arm 9b and a coupling arm 8b. The coupling arm has an oblique face 21b which serves as an actuating surface for a coupling means 10. The actuating arm 9b at its end takes the form of a receiver 31b for a barrel nipple at the end of a pull cable 25. The receiver 31b is provided with a slot 42b which is open toward its end and serves to facilitate assembly of the pull cable. The bearing block 7b has two side cheeks 37b which are connected by a yoke 38b. A leadthrough 39b for a Bowden cable is present in the yoke 38b. A support 40b is angled away on each of the side cheeks 37b. The supports 40b are provided as contact faces on a housing 13.

[0056] FIG. 3b shows a sectional view of the third embodiment, with the bearing block 7b, the projection 14b, the return spring 11b, the receiving pin 36b, and the coupling lever 6b with the receiver 31b on the actuating arm 9b and the coupling arm 8b and with the oblique face 21b. The coupling lever 6a is stiffened by stiffening cheeks 41b.

[0057] FIG. 3c shows a top view of the third embodiment, with the bearing block 7b, the projection 14b, the coupling lever 6b, the pivot bearing 49b (formed by pivot pin 53b, pivot pin receiver on the bearing block 7b and pivot pin through-hole in the coupling lever 6b) and the stop 12b. The coupling lever 6b has the coupling arm 8b, the actuating arm 9b and the slot 42b. Screw-mounting through-holes 52b are present in the supports 40b.

[0058] FIG. 4 shows a coupling device 4d of an actuating drive according to the prior art, with a coupling means 10d rotatable about a coupling axis 24d, a coupling disc 17d, a bearing block 7d (indicated here), a Bowden cable 30d and a coupling lever 6d. The coupling means 10d has a toothing 47d and a pressed-on ring 29d with radially pressed-in coupling pins 18d which engage in recesses 22d of the coupling disc 17d. The toothing 47d is dimensioned such that upon axial movement of the coupling means 10d, a gear wheel (not shown) engaged therewith remains engaged in each coupling position. Furthermore, a coupling engagement spring 5d is arranged on the coupling means 10d between an axial ball bearing 43d and a retaining ring 44d, wherein the retaining ring 44d is held by a locking washer 45d. A sleeve 46d is arranged around the coupling engagement spring 5d and is likewise supported on the axial ball bearing 43d and serves as a stop for the retaining ring 44d when the coupling device 4d is actuated. The coupling lever 6d is pivotable about a pivot bearing 49d and consists of an actuating arm 9d and a coupling arm 8d. The pivot bearing 49d is a component of the bearing block 7d. A pull cable 25d of the Bowden cable 30d is routed through the return spring 11d. The return spring 11d is arranged between the bearing block 7d (dashed line) and the operating arm 9d. The end of the pull cable 25d is provided with a barrel nipple 28d abutting the actuating arm 9d. A significant disadvantage of this known coupling device is that, due to the installation position of the return spring 11d, this cannot be integrated into a compact actuating drive. It must therefore be mounted by the user.

[0059] FIG. 5 shows an actuating drive 1d with a coupling device 4 concealed in the housing 3d, a bearing block 7d, a coupling lever 6d and a non-self locking spindle 48d. An electromechanical brake is arranged between the electric motor (2) and the reduction gear (3).

[0060] Modifications and variations of the above-described embodiments of the present invention are possible, as appreciated by those skilled in the art in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims and their equivalents, the invention may be practiced otherwise than as specifically described.

LIST OF REFERENCE SYMBOLS

[0061] 1 Actuating drive [0062] 2 Electric motor with electromechanical brake [0063] 3 Reduction gear [0064] 4 Coupling device [0065] 5 Coupling engagement spring [0066] 6 Coupling lever [0067] 7 Bearing block [0068] 8 Coupling arm [0069] 9 Actuating arm [0070] 10 Coupling means [0071] 11 Return spring [0072] 12 Stop [0073] 13 Housing [0074] 14 Projection [0075] 15 Cavity [0076] 16 Latching coupling [0077] 17 Coupling disc [0078] 18 Coupling pin [0079] 19 Ball bearing [0080] 20 Actuating unit [0081] 21 Oblique face [0082] 22 Recess [0083] 23 Pivot pin through-hole [0084] 24 Coupling axis [0085] 25 Pull cable [0086] 26 Sleeve [0087] 27 Bushing [0088] 28 Barrel nipple [0089] 29 Ring [0090] 30 Bowden cable [0091] 31 Receiver [0092] 32 Angled plate [0093] 33 Retaining leg [0094] 34 Actuating leg [0095] 35 Notch [0096] 36 Receiving pin [0097] 37 Side cheek [0098] 38 Yoke [0099] 39 Leadthrough [0100] 40 Support [0101] 41 Stiffening cheek [0102] 42 Slot [0103] 43 Axial ball bearing [0104] 44 Retaining ring [0105] 45 Locking washer [0106] 46 Sleeve [0107] 47 Toothing [0108] 48 Spindle [0109] 49 Pivot bearing [0110] 50 Retaining portion [0111] 51 Annular region [0112] 52 Screw-mounting through-hole [0113] 53 Pivot pin [0114] 54 Rivet pin [0115] 55 Pivot pin receiver [0116] 56 Stop pin receiver [0117] 57 Center piece [0118] 58 Side part [0119] 59 Press-fit stemming