DRIVE UNIT FOR AN ELECTROMECHANICAL BRAKE, ELECTROMECHANICAL BRAKE, AND VEHICLE BRAKE SYSTEM

Abstract

A drive unit for an electromechanical brake. The drive unit includes an electric motor, a transmission, and a control unit. The control unit includes a circuit board and a housing, and the transmission includes a housing cover. The housing and the housing cover surround the motor and the circuit board, and at least partially form a housing.

Claims

1. A drive unit for an electromechanical brake, comprising: an electric motor; a transmission; and a control unit; wherein the control unit includes a circuit board and a housing, and the transmission includes a housing cover, and wherein the housing of the control unit and the housing cover of the transmission surround the motor and the circuit board, and at least partially form a housing of the drive unit.

2. The drive unit according to claim 1, wherein the motor includes a rotor, a motor housing, a first bearing, and a second bearing, wherein the rotor is mounted using the first bearing and the second bearing, wherein the first bearing is received in the housing cover and the second bearing is received in the motor housing.

3. The drive unit according to claim 2, wherein the motor includes a rotation sensor arranged between the motor housing and the housing of the control unit.

4. The drive unit according to claim 1, wherein a wall element is arranged between the circuit board and the motor, wherein the wall element includes feedthroughs for phase lines and/or a ground connection of the motor.

5. The drive unit according to claim 4, wherein the housing of the control unit includes a housing part and a cover part, wherein, a second sealing element is arranged between the housing part and the cover part.

6. The drive unit according to claim 5, wherein the housing cover of the transmission is configured in one piece with the housing part, wherein, a further sealing arrangement is arranged between the housing part and the wall element.

7. The drive unit according to claim 5, wherein the wall element is configured in one piece with the housing part.

8. The drive unit according to claim 1, wherein a first sealing element is arranged between the housing part and the housing cover.

9. The drive unit according to claim 1, wherein the control unit includes a parking brake control element, wherein the control element is arranged inside the housing of the control unit, and wherein the control element is arranged adjacent to the motor and the housing cover.

10. An electromechanical brake, comprising: a drive unit including: an electric motor, a transmission, and a control unit, wherein the control unit includes a circuit board and a housing, and the transmission includes a housing cover, and wherein the housing of the control unit and the housing cover of the transmission surround the motor and the circuit board, and at least partially form a housing of the drive unit.

11. A vehicle brake system, comprising: at least one electromechanical brake including: an electromechanical brake, including: a drive unit including: an electric motor, a transmission, and a control unit, wherein the control unit includes a circuit board and a housing, and the transmission includes a housing cover, and wherein the housing of the control unit and the housing cover of the transmission surround the motor and the circuit board, and at least partially form a housing of the drive unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] In the following section, the present invention is explained on the basis of exemplary embodiments, which can result in further inventive features, to which the scope of the present invention is however not limited. Exemplary embodiments of the present invention are illustrated in the figures.

[0026] FIG. 1 shows an exploded view of a drive unit 100 for an electromechanical brake according to an exemplary embodiment of the present invention in an oblique view.

[0027] FIG. 2 shows an exploded side view of the drive unit 100.

[0028] FIG. 3 shows a sectional view of the drive unit 100.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

[0029] In the figures, identical reference signs denote identical or functionally identical elements.

[0030] The drive unit 100 shown in FIGS. 1 and 2 for an electromechanical brake comprises a transmission 1, an electric motor 9 and a control unit 5. The control unit 5 controls the motor 9, which drives the transmission 1.

[0031] The transmission 1 comprises a transmission housing 11 with a housing cover 2, a drive shaft 10, and an output shaft. The drive shaft 10 is connected to a rotor of the motor 9 in a rotationally fixed manner. The drive shaft 10 may be designed as a pinion shaft.

[0032] The output shaft of the transmission 1 is connected to a spindle drive arrangement not shown in the figures, which in turn is connected to a brake piston that is displaceable between a braking position and a rest position.

[0033] The control unit 5 comprises a housing 12, comprising a housing part 7 and a cover part 6, as well as a plug connector connection part 4. The housing part 7 comprises a first sealing surface 8, by means of which the transmission housing 11 is connectable to the housing cover 2. The housing part 7 comprises a second sealing surface, by means of which the transmission housing 11 is connectable to the cover part 6. The cover part 6 is arranged opposite to the housing cover 2, and the housing part 7 is arranged between the cover part 6 and the housing cover 2. The plug connector connection part 4 is arranged on the cover part 6, in particular adjacent to the housing part 7. The plug connector connection part 4 extends in the same direction as the housing part 7.

[0034] The motor 9 comprises a motor housing 3. The motor 9 is arranged inside the housing 12 of the control unit 5. The motor 9 is surrounded by the cover part 6, the housing part 7, and the housing cover 2, which at least partially form a housing. The drive shaft 10 extends from the transmission 1 through a recess in the housing cover 2 to the motor 9.

[0035] In FIG. 3, further details of the drive unit 100 are shown in a sectional view. A cut surface through an axis of rotation 36 of the motor 9 is shown.

[0036] The motor 9 comprises a rotor, which is mounted by means of a first bearing 20 and a second bearing 37. On an outside of the motor housing 3, a rotation sensor 21 or rotary encoder for determining a rotor position is arranged opposite to the second bearing 37. The first bearing 20 extends at least partially into the housing cover 2. Preferably, the first bearing 20 is received in the housing cover 2 so that a first end of the rotor is mounted in the housing cover 2 by means of the first bearing 20 and a second end of the rotor is mounted in the motor housing 3 by means of the second bearing 37.

[0037] The rotor and the stator 40 of the motor 9 are arranged inside the motor housing 3.

[0038] The control unit 5 comprises a circuit board 35, which is arranged in the housing 12. A wall element 39, which is connected to the housing part 7, is arranged between the circuit board 35 and the motor 9, wherein, in particular, the wall element 39 and the housing part 7 are designed in one piece. The circuit board 35 is arranged between the wall element 39 and the cover part 6 so that the circuit board 35 is surrounded by the housing part 7, the cover part 6, and the wall element 39, which form a housing.

[0039] The stator 40 comprises windings 40 that are electrically conductively connected to the circuit board 35. For this purpose, the motor 9 comprises a connection element 41, which is connected to the circuit board 35 by means of three phase conductors 34. Preferably, the phase conductors 34 each comprise a flat plug, which is received in a respective socket of the connection element 41.

[0040] The phase conductors 34 and a ground connection 38 of the circuit board 35, which ground connection is electrically conductively connected to the motor housing 3, are passed through the wall element 39 by means of feedthroughs.

[0041] The circuit board 35 is connected to the plug connector connection part 4 by means of a bridge element 33. The bridge element 33 is designed as a three-phase bridge. The bridge element 33 is arranged between the circuit board 35 and the cover part 6.

[0042] The control unit 5 comprises a parking brake control element 31. The control element 31 is arranged inside the housing 12 and adjacent to the motor 9 and the housing cover 2. The control element 31 is thus arranged spaced apart from the second bearing 37.

[0043] A first sealing means 30 is arranged between the cover part 6 and the housing part 7. A second sealing means 32 is arranged between the housing cover 2 and the housing part 7.

[0044] According to an alternative embodiment not shown in the figures, the housing part 7 is designed in one piece with the housing cover 2. In this case, the wall element 39 is designed to be separate, and a further sealing means is arranged between the wall element 39 and the housing part 7. For assembly, the housing part 7 and the housing cover 2 are connected to the transmission housing 11, the motor 9 is subsequently connected to the transmission 1. The wall element 39 is then inserted and sealed to the housing part 7 by means of the further sealing means. Thereafter, the circuit board 35 is mounted and connected. Finally, the housing part 7 is closed with the cover part 6, wherein the second sealing means 32 is arranged between the cover part 6 and the housing part 7.