Control Module for a Vehicle With at Least an Electric Motor and a Transmission

Abstract

A control module for a vehicle with at least one electric motor and a transmission is provided. The control module has a housing for receiving a transmission control electronics unit and an inverter electronics unit for controlling an electric motor, and a heat sink. The heat sink is disposed between a housing upper part and a housing lower part in such a manner that the heat sink forms part of the housing. The housing lower part and the heat sink form a medium-tight cavity for receiving the inverter electronics unit. The transmission control electronics unit is surrounded by a plastic casing. The transmission control electronics unit with the plastic casing forms the housing upper part. The housing upper part is connected to the heat sink in a thermally conductive manner such that a heat transport from the transmission control electronics unit to the heat sink takes place.

Claims

1. A control module for a vehicle with at least one electric motor and a transmission, the control module comprising: a housing for receiving a transmission control electronics unit, the housing including a housing upper part and a housing lower part; an inverter electronics unit for controlling an electric motor; a heat sink disposed between the housing upper part and the housing lower part in such a manner that the heat sink forms part of the housing; and a media-tight cavity defined by the housing lower part and the heat sink form for receiving the inverter electronics unit, the inverter electronics unit is connected to the heat sink in a thermally conductive manner, wherein the transmission control electronics unit is surrounded by a plastic casing, the transmission control electronics unit with the plastic casing forms the housing upper part; and wherein the housing upper part is connected to the heat sink in a thermally conductive manner such that a heat transport from the transmission control electronics unit to the heat sink takes place.

2. The control module of claim 1, wherein the inverter electronics unit comprises a circuit board with electronic construction elements as a circuit carrier, wherein the circuit board of the inverter electronics unit is able to be populated with electronic construction elements on both sides.

3. The control module of claim 2, wherein those electronic construction elements of the inverter electronics unit that are disposed on the side of the circuit board facing the housing upper part are connected directly to the heat sink in a thermally conductive manner.

4. The control module of claim 2, wherein at least the thermally conductive connection between the inverter electronics unit and the heat sink, or the thermally conductive connection between the electronic construction elements of the inverter electronics unit that are disposed on a side of the circuit board facing the housing upper part and the heat sink, is established by a thermal conducting material.

5. The control module of claim 2, wherein the thermally conducting material is a thermally conductive paste or a thermally conductive adhesive.

6. The control module of claim 1, wherein cooling ducts of the heat sink, on a side that lies opposite the inverter electronics unit, are sealed in a media-tight manner with the housing upper part.

7. The control module of claim 1, wherein the housing upper part including the transmission control electronics unit with plastic casing and the heat sink are connected to one another mechanically and in a thermally conducting manner by at least one connector, wherein the connector engages in each case with a corresponding receptacle of the heat sink.

8. The control module of claim 7, wherein at least one of the connectors is a screw or a rivet.

9. The control module of claim 1, wherein the plastic casing of the housing upper part is made of a thermosetting or a thermoplastic material.

10. The control module of claim 1, wherein the plastic casing is provided with at least one inorganic filler for increasing the thermal conductivity.

Description

DESCRIPTION OF DRAWINGS

[0026] FIG. 1 shows a schematic sectional view of a control module.

[0027] FIG. 2 shows a further sectional view of a control module.

[0028] FIG. 3 shows a view of a further control module.

[0029] Like reference symbols in the various drawings indicate like elements.

DETAILED DESCRIPTION

[0030] FIG. 1 shows a control module for a vehicle which has at least one electric motor and a transmission, for example, an electric car or a hybrid vehicle. The control module has a housing 11, 12 for receiving a transmission controller 5 for controlling the transmission, and an inverter electronics unit 1 for controlling an electric motor. In addition, the control module has a heat sink 3 in order to dissipate the heat generated by the electronics unit of the control module via a coolant.

[0031] The housing 11, 12 includes a housing upper part 11 and a housing lower part 12.

[0032] The heat sink 3 is disposed between the housing upper part 11 and the housing lower part 12, and thus also between the transmission control electronics unit 5 and the inverter electronics unit 1, such that the heat sink 3 forms part of the housing 3, 11, 12.

[0033] The housing lower part 12 and the heat sink 3 form a media-tight cavity 9 for receiving the inverter electronics unit 1. The housing lower part 12 and the heat sink 3 are connected to one another mechanically, for example in a materially-bonded manner by adhesive bonding or welding. To increase the tightness, a seal 13 is disposed between the housing lower part 12 and the heat sink 3. The seal 13 can be may be, for example, a separate insert seal or an adhesive seal.

[0034] The inverter electronics unit 1 includes a circuit board 18 and electronic construction elements 1.1 disposed thereon. The electronic construction elements 1.1 are attached here both to the lower side of the circuit board 18 of the inverter electronics unit 1, which faces the housing upper part 11, and to the upper side of said circuit board 18. The electronic construction elements 1.1 are disposed here on the lower side in the central region of the circuit board 18, for example, in the vicinity of a coolant duct 4 of the heat sink 3. As a result of the circuit board 18 of the inverter electronics unit 1 being populated on both sides, the heat sink 3 on the periphery has a step 3.2 which runs in each case in the direction of a connecting means 8 and on which that part of the lower side of the inverter electronics unit 1 which is free of construction elements rests. A heat-conducting material 2 between the step 3.2 of the heat sink 3 and the inverter electronics unit 1 ensures good heat transport 10 from the inverter electronics unit 1 to the heat sink 3. With the use of a heat-conductive adhesive 2, an extra mechanical connection between the inverter electronics unit 1 and the heat sink 3 can be dispensed with.

[0035] In FIG. 1, the height of the step 3.2 is adapted to the height of the electronic construction elements 1.1 disposed on the lower side of the inverter electronics unit 1 such that here the construction elements 1.1 are connected directly in a thermally conductive manner to the heat sink 3 by the thermally conducting material 2.

[0036] In the case of these electronic construction elements 1.1 disposed on the lower side of the inverter electronics unit 1, the heat transport 10 to the heat sink 3 thus takes place both via the circuit board 18 of the inverter electronics unit 1 as well as directly from the construction elements 1.1. For example, electronic construction elements 1.1 that generate a particularly large amount of heat can therefore populate the circuit board 18 here. In addition, to further increase the heat transport 10 to the heat sink 3, instead of a standard heat-conducting material 2 an albeit more expensive but better high-performance thermally conducting material can be used.

[0037] The housing upper part 11, includes transmission control electronics unit 5 with plastic casing 16, is connected mechanically, for example, in a force-fitting manner, and in a thermally conducting manner to the heat sink 3 by connecting means 8 or connector. The connecting means 8 or connector engages in each case with a corresponding receptacle 3.1 of the heat sink 3. In FIG. 1, a screw 8 is screwed into a corresponding thread 3.1 in the heat sink 3 here. A rivet could also be used instead of a screw, for example.

[0038] A circumferential seal 13 is disposed between the housing upper part 11 and the heat sink 3 in FIG. 1 here in order to increase the sealing effect. This seal 13 can be, for example, as an insert seal or an adhesive seal.

[0039] The transmission control electronics unit 5 has a circuit board 6 with electronic construction elements 5.1 disposed thereon. The connecting element 8 is guided through a corresponding bore in the circuit board 6 of the transmission control electronics unit 5. In FIG. 1, the plastic casing 16 of the transmission control electronics unit 5, which is made from a thermosetting or a thermoplastic material, substantially encases that region of the circuit board 6 in which the electronic construction elements are disposed. However, the plastic casing 16 of the transmission control electronics unit 5 could also extend up to the periphery of the circuit board 6, in which case the connecting means 8 would then be guided through a corresponding bore in the plastic casing 16 and the circuit board 6.

[0040] The electronic construction elements 5.1 are disposed here in FIG. 1 on that side of the circuit board of the transmission control electronics unit 5 which faces away from the inverter electronics unit 1.

[0041] The housing lower part 12 is fastened mechanically, for example in a materially-bonded manner, to that side of the heat sink 3 that lies opposite the housing upper part 11, and forms the interface of the control module, here as an attached-to example, to a transmission, not shown. The control module, however, could also be installed in the vehicle as a standalone design, separated from the transmission.

[0042] In FIG. 2, in contrast to FIG. 1, in which the heat sink 3 is inherently closed, that is to say made from one piece, the cooling ducts 4 of the heat sink 3, on the side that lies opposite the inverter electronics unit 1, are sealed with the housing upper part 11. As a result, the manufacturing costs of the heat sink 3 can be significantly reduced.

[0043] FIG. 3 shows an external view of a control module housing with a housing upper part 11 with a plastic casing 16 and a circuit board 6, a heat sink 3, and a housing lower part 12. The heat sink 3 is disposed between the housing upper part 11 and the housing lower part 12.

[0044] The housing upper part 11, including transmission control electronics unit 5 with plastic casing 16 and circuit board 6, and the heat sink 3 are connected to one another by the connecting means 8 or connector. The connecting means 8 or connector is in each case guided through a bore in the circuit board 6.

[0045] The heat transport 10 thus takes place from the circuit board 6 of the transmission control electronics unit 5 directly to the heat sink 3.

[0046] The electrical connectors 17 of the transmission control electronics unit 5, for exchanging signals and supply voltages with a surrounding electronics unit (not shown), are located here on the upper side of the housing upper part 11, but could also be placed on the side of the housing upper part 11, for example.

[0047] The electrical connector 14 for the inverter electronics unit 1 is disposed on the housing lower part 12 here.

[0048] The heat sink 3, here on its longitudinal sides, has in each case a cooling connector 15.

[0049] This compact control unit for an inverter and a transmission with a common efficient cooling device can be used in a vehicle both as an attached-to and as a standalone control unit.

[0050] A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the disclosure. Accordingly, other implementations are within the scope of the following claims.

LIST OF REFERENCE SIGNS

[0051] 1 Inverter electronics unit [0052] 1.1 Electronic construction element of the inverter electronics unit [0053] 2 Thermally conducting material [0054] 3 Heat sink [0055] 3.1 Receptacle for connecting means [0056] 3.2 Step of the heat sink [0057] 4 Coolant duct [0058] 5 Transmission control electronics unit [0059] 5.1 Electronic construction element of the transmission control electronics unit [0060] 6 Circuit board of the transmission control electronics unit [0061] 8 Connecting means [0062] 9 Cavity [0063] 10 Heat transport [0064] 11 Housing upper part [0065] 12 Housing lower part [0066] 13 Seal [0067] 14 Inverter electronics unit connector [0068] 15 Cooling connector [0069] 16 Plastic casing [0070] 17 Transmission control electronics unit connector [0071] 18 Circuit board of the inverter electronics unit