DE102009029004A1 - Electromechanical actuator assembly - Google Patents

Abstract

An electromechanical actuation arrangement for at least one shift element of a vehicle transmission with at least one drive device is proposed which is coupled to an actuation device for actuating the shift element, the actuation device comprising at least one spring-loaded lever element (3) for applying a predetermined actuating force to the shift element and at least a lever bearing (4) of the lever element (3) can be moved at least in the radial direction, based on a gear shaft (6) of the vehicle transmission, with an adjusting mechanism (5) of the actuating device for setting a predetermined actuating force.

Description

The present invention relates to an electromechanical actuator for at least one switching element of a vehicle transmission according to the closer defined in the preamble of claim 1. Art.

For example, from the document US 2006/0 278 489 A1 an electromechanical clutch actuator for a vehicle clutch, whose adjustment is controlled by an additional pneumatic or hydraulic system. This results in this arrangement, a complicated structure that requires a considerable amount of space.

The present invention is based on the object to propose an electromechanical actuator assembly of the type described above, which requires the smallest possible space requirement and also the lowest possible drive power.

This object is achieved by the features of claim 1, wherein further advantageous embodiments of the dependent claims and the drawings.

Accordingly, an electromechanical actuating arrangement for at least one switching element, in particular a multi-disc clutch or the like, proposed a vehicle transmission with at least one drive means which is coupled to an actuating device for actuating the switching element, wherein the actuating device at least one spring-loaded lever element or the like for applying a predetermined force the switching element comprises and wherein at least one lever bearing of the lever element is movable at least in the radial direction relative to the gear shaft with an adjusting mechanism of the adjusting device for setting a predetermined actuating force.

In this way, a spring-compensated lever switching element actuation is realized by the spring force for setting the desired force only the position of the lever bearing of the lever element is changed, for which only a small power in the drive device for high actuating forces is required. The adjustment of the position of the lever bearing takes place electromechanically via the adjustment mechanism actuated by the drive device. In the compensated system, high actuating forces can be stored as potential energy via the spring system, wherein the drive device controls only the system or adjusts the lever bearing of the lever element, for which only a comparatively low electrical power is required.

The electromechanical actuating arrangement can also achieve a power saving compared to hydraulic drives by reducing the required hydraulic power. Furthermore, there is a need-based power adjustment of the power supply from the electrical system in the electrical drive device of the actuator assembly according to the invention. In addition, expensive channels and hydraulic components that are required for a hydraulic drive can be omitted. Another advantage is that with the actuator assembly according to the invention, a start-stop function of an internal combustion engine and a hybrid drive can be realized.

According to an advantageous embodiment of the invention can be provided that the adjusting mechanism comprises two mutually rotatable disc-shaped or the like running elements, such as sheets or the like, which are coupled via at least one in predetermined paths or the like of the discs guided bolts together such that the rotation of one of the elements or discs of the bolt acting as a lever bearing is radially movable, so that the resulting lever arm of the lever element can be changed. Thus, the force acting on the lever element constant spring force on the change of the resulting lever arm can be converted into a desired actuating force, which depends on the switching element to be actuated, for. B. on the disk set of a multi-plate clutch, acts.

Preferably, the first disk-shaped element can be rotatably supported as a rotating disk or adjusting disk via, for example, bearings or the like on the second element as a fixed plate or the like, and driven by the drive unit comprising a spindle drive or the like. The second fixed member may be rotatably connected to the housing of the transmission or the like, for example. Due to the non-rotatable arrangement, the support and force introduction takes place, whereby this is realized evenly over the circumference of the disk-shaped elements (two-dimensional).

In order to change the position of the lever bearing or the lever arm of the lever member, the tracks on the disc-shaped elements may be aligned with each other so that the bolt or the bolt in a counterclockwise rotation of the adjusting disc by a predetermined angle from a radially inner position to a radially outer position and can be moved in a clockwise direction from a radially outer position to a radially inner position. Other mechanisms are also conceivable for effecting an adjustment of the lever bearing in the lever element by a rotary movement, so that a desired actuating force can be transmitted to the switching element.

For example, in the adjustment mechanism of the bolt as a lever bearing in its radially inner position realize a shorter lever arm and in its radially outer position a longer lever arm in the lever element. There are also other constructive versions possible, which also allow a different type of adjustment of the lever bearing by the bolt.

The element to be rotated or the adjusting disk of the adjusting mechanism can be actuated for example via a spindle drive of the drive device. For example, an axially adjustable along a spindle spindle nut can be coupled to the disk. The spindle drive can be driven, for example, via an electric motor, which can be arranged below a plate carrier of the switching element designed as a multi-disc clutch, in order to thus realize a particularly compact arrangement.

The lever element quasi as a disengagement of the actuating arrangement can be assigned to the switching element for applying a predetermined force, starting from the lever bearing with a first end at least one spring element for applying a predetermined spring force and with a second end. As a spring element, for example, a compression spring or the like may be used, which is preferably aligned axially to the transmission shaft, so as to require the smallest possible space requirement. In addition, this results in a particularly favorable arrangement of the lever element and the spring element coaxially within the disk set of the switching element designed as a multi-disc clutch.

According to a possible development of the invention it can be provided that the lever element is designed as a rotationally symmetrical, flexible sheet metal. There are also other structural embodiments conceivable. In the rotationally symmetrical configuration, the force can be applied uniformly over the circumference.

Preferably, the proposed actuating arrangement is arranged coaxially with the transmission shaft. In this way, a particularly compact and space-saving design. In particular, the actuating arrangement can be used for actuating switching elements in automatic transmissions. However, it is also possible that the actuator assembly is used in other applications.

The invention will be further explained with reference to the drawings. Show it:

1 a schematic partial section through a transmission housing with a possible embodiment of an actuating arrangement according to the invention for actuating a switching element;

2 a schematic, enlarged plan view of an adjusting disc as the adjusting mechanism of the actuating assembly in the operating state of the switching element; and

3 a schematic, enlarged plan view of the adjusting of the actuating assembly in the non-actuated state of the switching element.

In 1 is a possible embodiment of an inventive electromechanical actuator assembly exemplified. The actuator assembly is used to operate as a multi-plate clutch 1 trained load switching element in an automatic transmission and includes a spindle drive 2 trained drive device. The spindle drive 2 is with an actuating device for actuating the multi-plate clutch 1 coupled, wherein the adjusting device is a spring-loaded lever element 3 for applying a predetermined actuating force to the disk set of the multi-plate clutch 1 having.

According to the invention, at least one lever bearing 4 of the lever element 3 at least in the radial direction with an adjusting mechanism 5 the adjusting device for setting a predetermined actuating force movable.

As in particular from 1 it can be seen, the spring-compensated actuator assembly is coaxial with the transmission shaft 6 arranged the automatic transmission. The spring force on the lever element 3 is arranged by a plurality of coaxially arranged on the circumference of the transmission shaft spring elements 7 Applied to the housing 8th support the automatic transmission. The other end of the spring elements 7 is located at a first end of the lever element 3 on, wherein the lever element 3 is designed as a rotationally symmetrical, bendable sheet. The second end of the lever element 3 is based on the disk pack of the multi-plate clutch 1 to press this.

The adjustment mechanism 5 comprises two mutually rotatable elements, which over several in each case in predetermined paths 11 . 12 Elements guided bolts 13 coupled together. A first element is as a rotatable adjusting disc 9 trained and rotatable about bearings 14 on the second element as a housing-fixed sheet metal 10 stored. The adjusting disc 9 is from the spindle drive 2 driven. By the rotation of the adjusting disc 9 can be used as a lever bearing 4 acting bolt 13 be moved radially, so that thereby the resulting lever arm of the lever element 3 can be changed to thereby a predetermined force on the multi-plate clutch 1 to effect. Bolts 13 , which are virtually a fulcrum by which a moment is effected, are uniform over the circumference of the adjusting disc 9 and the housing-fixed sheet 10 distributed. The axial spring forces of the spring elements 7 rely on the housing-fixed sheet metal 10 for example, on the housing 8th of the automatic transmission.

Bolts 13 can on the predetermined paths 11 . 12 on the stationary sheet 10 roll or slide along when the adjusting disc 9 for example, as a slotted sheet of the spindle drive 2 is twisted. This will move the bolts 13 radially along the lever member 3 , If the bolts 13 at the spring engagement point at the first end of the lever element 3 abutment, resulting in no moment and the multi-plate clutch 1 stays open. By moving the bolts 13 radially outward, the resulting lever arm of the lever element increases 3 , so that at constant spring force of the spring elements 7 a predetermined force on the disk set of the multi-plate clutch 1 is transferred, so that the multi-plate clutch 1 is pressed or closed.

Thus, by the radial displacement of the lever bearing 4 or the bolt 13 on the lever element 3 the resulting moment changed, which thus at the lever element 3 about the radial position of the lever bearing 4 is controlled. About the electromechanically driven adjusting disc 9 thus can the bolts 13 be moved in the associated tracks, so that from a rotational movement, a linear displacement of the lever bearing 4 results.

In 2 is a non-actuated state of the multi-plate clutch 1 shown, at which the bolt 13 located radially inside, so that the lever bearing 4 of the lever element 3 located in the region of the spring application point, so that no actuating force on the multi-plate clutch 1 is effected.

In 3 is the actuated state of the multi-plate clutch 1 shown, at which the bolt 13 radially outward, which has been caused by the fact that the disc 9 by an angle α through the spindle drive 2 was twisted, leaving the bolt 13 along the assigned tracks 11 . 12 has been guided radially outward.

At the same time this is the lever bearing 4 of the lever element 3 in the drawing plane of 1 shifted upward so that the resulting lever arm of the lever element 3 is extended. This allows the on the lever element 3 acting spring force a corresponding actuating force via the lever element 3 on the multi-plate clutch 1 cause the multi-plate clutch 1 close.

LIST OF REFERENCE NUMBERS

1

multi-plate clutch

2

spindle drive

3

lever member

4

lever bearing

5

adjustment

6

gear shaft

7

spring element

8th

casing

9

adjusting disc

10

housing-fixed element or sheet metal

11

Path in the adjusting disc

12

Track in the housing-fixed element

13

Bolt, element

14

camp

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 2006/0278489 A1 [0002]

Claims (9)

Electromechanical actuating arrangement for at least one switching element of a vehicle transmission, with at least one drive device which is coupled to an actuating device for actuating the switching element, wherein the actuating device comprises at least one spring-loaded lever element (US Pat. 3 ) for applying a predetermined actuating force to the switching element, characterized in that at least one lever bearing ( 4 ) of the lever element ( 3 ) at least in the radial direction relative to a transmission shaft ( 6 ) of the vehicle transmission with an adjusting mechanism ( 5 ) of the adjusting device for setting a predetermined actuating force is movable. Electromechanical actuating arrangement according to claim 1, characterized in that the adjusting mechanism ( 5 ) two mutually rotatable disk-shaped elements ( 9 . 10 ), which pass over at least one in predetermined paths ( 11 . 12 ) of the elements ( 9 . 10 ) guided bolt ( 13 ) are coupled together in such a way that by the rotation of one of the elements ( 9 . 10 ) as a lever bearing ( 4 ) acting element ( 13 ) is radially movable, so that the resulting lever arm of the lever element ( 3 ) is changeable. Electromechanical actuating arrangement according to claim 2, characterized in that the first element as an adjusting disc ( 9 ) rotatable about bearings ( 14 ) on the second element ( 10 ) is mounted and by the one spindle drive ( 2 ) drive mechanism is drivable, and that the second element as a housing-fixed sheet metal ( 10 ) rotatably with the housing ( 8th ) of the transmission is connected. Electromechanical actuating arrangement according to claim 2 or 3, characterized in that the tracks ( 11 . 12 ) on the adjusting disc ( 9 ) and the housing-fixed sheet metal ( 10 ) are aligned with each other in such a way that the element ( 13 ) with a rotation of the adjusting disc ( 9 ) counterclockwise by a predetermined angle (α) from a radially inner position to a radially outer position and that the bolt ( 13 ) with a rotation of the adjusting disc ( 9 ) is movable clockwise by a predetermined angle (α) from a radially outer position to a radially inner position. Electromechanical actuating arrangement according to claim 4, characterized in that the element ( 13 ) as a lever bearing ( 4 ) in its radially inner position a shorter lever arm in the lever element ( 3 ) and in its radially outer position a longer lever arm in the lever element ( 3 ) realized. Electromechanical actuating arrangement according to one of claims 2 to 5, characterized in that the spindle drive ( 2 ) an axially along a spindle adjustable spindle nut for rotating the adjusting disc ( 9 ). Electromechanical actuating arrangement according to one of the preceding claims, characterized in that the lever element ( 3 ) starting from the lever bearing ( 4 ) with a first end at least one spring element ( 7 ) for applying a predetermined spring force and associated with a second end of the switching element for applying a predetermined force. Electromechanical actuating arrangement according to one of the preceding claims, characterized in that the lever element ( 3 ) is designed as a rotationally symmetric, bendable sheet. Electromechanical actuating arrangement according to one of the preceding claims, characterized in that it is coaxial with the transmission shaft ( 6 ) is arranged.

Images