WO2019170516A1 - Housing element, assembly of electrical components on a housing element and electric machine - Google Patents

Abstract

The present invention relates to a housing element (10) for a housing (2) of an electric machine (1), which element can be fastened to an axial end section (2a) of the housing (2), having at least one first receiving region (12; 112) for receiving first electrical components (14) on a surface (10a) of the housing element (10), having at least one second receiving region (16; 116) for receiving second electrical components (18) on the surface (10a) of the housing element (10), having a coolant supply opening (20) for supplying coolant to the housing element (10) and a coolant drain opening (22) for draining coolant from the housing element (10), and having a coolant duct (24) extending in the housing element (10), wherein a first section (24a) of the coolant duct (24) is designed to cool the first receiving region (12; 112) at least in sections and wherein a second section (24b) of the coolant duct (24) is designed to cool the second receiving region (16; 116). The invention further relates to an assembly of a housing element (10) and electrical components. The present invention further relates to an electric machine (1) having a housing element (10).

Description

 description

title

 Housing element, arrangement of electrical components on one

Housing element and electrical machine

The present invention relates to a housing element of a housing of an electrical machine. The present invention further relates to an arrangement of electrical components on a housing element for a housing of an electrical machine. The invention also relates to an electrical machine with the housing element according to the invention.

State of the art

Electrical machines are known from the prior art. In the context of this invention, an electric machine is understood in particular to mean an electric motor which is designed to drive a vehicle. Such electrical machines have a housing which also serves as a carrier of electronic components for driving the electric machine. Furthermore, known housings have coolant channels to cool the electrical machine during operation.

US 2013/0049495 A1 discloses a rotary electric machine system comprising a rotary electric machine with a stator and a rotor arranged with a gap to the stator, a housing configured to hold the stator, an electric motor

A power conversion device, which is held by the housing and is configured to drive the rotary electric machine, and a first coolant path, which is disposed in a portion of the housing between the stator and the electric power conversion device, over which a coolant flows to the Stator and the electric To cool power conversion device. The electric

The power conversion device further includes a power module configured to include a power semiconductor element. The

The power module further comprises a heat radiating fin disposed so as to extend over an opening interposed between the heat radiating fin

Power module and the first coolant path is formed, projecting in the direction of a coolant side.

However, the above-mentioned devices for cooling a power electronics have the disadvantage that they are insufficient or

Provide uneven cooling of the power electronics or represent a high space requirement.

Against this background, there is a need to improve

Cooling devices for power electronics of an electrical machine.

Disclosure of the invention

The present invention provides a housing member for a housing of an electrical machine, which is attachable to an axial end portion of the housing, with at least a first receiving area for receiving first electrical components on a surface of the

Housing element, with at least a second receiving area for

Receiving second electrical components on the surface of the housing member, with a coolant supply opening for supplying

Coolant to the housing member and a coolant discharge port for discharging coolant from the housing member, and having a coolant channel extending in the housing member, wherein a first portion of the coolant channel is adapted to at least partially cool the first receiving portion, and wherein a second portion of the cooling channel thereto is designed to cool the second receiving area.

The present invention further provides an arrangement of electrical components on a housing element according to the invention for a housing of an electrical machine, wherein first electrical components in a first receiving portion of the housing member are disposed on a surface of the housing member, and wherein second electrical components are disposed in a second receiving portion of the housing member on the surface of the housing member.

The present invention also provides an electric machine with the housing element according to the invention.

One idea of the present invention is to provide various electrical

To arrange components in different areas of the housing member and provide a corresponding coolant guide in the housing member, which can provide efficient cooling of the respective electrical components. Furthermore, the housing element can be connected to a coolant guide of a remaining housing of the electrical machine, so that a combined coolant guide for power electronics and electrical machine can be provided in the region of the bearing plate of the electric machine, without a significant additional expense arises with respect to a production or a parts requirement ,

Advantageous embodiments and further developments emerge from the dependent claims and from the description with reference to the figures.

According to a preferred development it is provided that the first section of the cooling channel extends from the coolant supply opening to the second receiving area for receiving the second electrical components on the surface of the housing element. Thus, an efficient cooling of the arranged in the region of the first receiving portion electrical components can be provided in an advantageous manner.

According to a further preferred development, it is provided that the second section of the cooling channel is formed by a recess of the housing element formed on the second receiving area for receiving the second electrical components on the surface of the housing element. Thus, advantageously, components that have their own Have heat exchanger geometry, are mounted on the housing member or bearing plate so that they protrude into a coolant-carrying depression.

According to a further preferred refinement, it is provided that the second section of the cooling channel is designed such that a surface of a heat sink of the second electrical system is filled by coolant filled therein

Components can be rinsed. Thus, advantageously, an effective cooling of the second electrical components can be provided.

According to a further preferred embodiment, it is provided that a third section of the cooling channel from the second receiving area for

Receiving the second electrical components on the surface of the housing member extends to the first receiving area for receiving first electrical components on a surface of the housing member. By providing both the first section and the third

Section of the cooling channel can thus have a larger area of the first

Receiving area to be cooled.

According to a further preferred embodiment, it is provided that the third section of the cooling channel at a second receiving area

opposite axial end portion with one in the other

Housing element of the housing disposed further fluid channel fluidly communicates. Thus, the coolant guide can be connected in the housing member in an advantageous manner to a coolant guide a remaining housing of the electrical machine.

According to a further preferred development, it is provided that the first section of the cooling channel opens into the recess of the housing element formed on the surface of the housing element at a first axial end portion of the recess, and wherein the third section of the cooling channel at a second axial end portion of the recess in the Recess opens. Thus, the recess of the housing element can be completely traversed by coolant. According to a further preferred embodiment, it is provided that the first portion of the cooling channel and the third portion of the cooling channel are introduced through a bore in the housing element, and wherein the recess of the second portion of the cooling channel with the housing element integrally formed, in particular by die casting of the housing member is. Thus, a simple production of the coolant guide of the housing member can be provided.

According to a further preferred development, it is provided that the coolant discharge opening communicates fluidically with a further cooling channel arranged in the further housing element of the housing. The coolant discharge opening is connected in an advantageous manner to the coolant guide of the housing of the electric machine.

According to a further preferred development it is provided that the housing element has a plurality of first receiving areas and a plurality of second receiving areas, wherein the first

Receiving areas and the second receiving areas are each arranged intermittently and substantially along an edge region of the housing element.

This configuration of the coolant guide advantageously enables an arrangement or effective cooling of a plurality of first and second electrical components, which are arranged intermittently in accordance with respective structural or systemic requirements.

According to a further preferred embodiment, it is provided that the first electrical components are formed by capacitors and the second electrical components by power semiconductors. Since each of these components has different cooling requirements, it is therefore advantageous to use them in different receiving areas of the

To arrange housing element.

According to a further preferred embodiment, it is provided that the housing element is formed by a bearing plate of the electric machine is. Thus, a space-saving arrangement of the electrical components on the bearing plate or an effective cooling of the components can be ensured by the introduced in the bearing plate coolant guide in an advantageous manner.

The described embodiments and developments can be combined with each other as desired.

Further possible refinements, developments and implementations of the invention also include combinations, not explicitly mentioned, of features of the invention described above or below with regard to the exemplary embodiments.

Brief description of the drawings

 The accompanying drawings are intended to provide a further understanding of the

Embodiments of the invention mediate. They illustrate

Embodiments and in conjunction with the description serve to explain principles and concepts of the invention.

Other embodiments and many of the stated advantages will become apparent with reference to the drawings. The illustrated elements of the drawings are not necessarily shown to scale to each other.

Show it:

1 shows a schematic representation of an electrical machine with an arrangement of a housing element of a housing of the electrical machine and electrical components of the electrical machine according to a preferred embodiment of the invention;

Figure 2 is a schematic representation of arranged on a printed circuit board electrical components of the electrical machine according to the preferred embodiment of the invention. Fig. 3 is a schematic representation of the mounted on the electric machine housing element according to the preferred embodiment of the invention;

Fig. 4 is a schematic representation of the attached to the electric machine housing element with the electrical arranged thereon

Components according to the preferred embodiment of the invention;

5 shows a schematic representation of an electrical machine with an arrangement of a housing element of a housing of the electrical machine and electrical components of the electrical machine according to a further preferred embodiment of the invention;

6 shows a schematic representation of electrical components of the electrical machine arranged on a printed circuit board according to the further preferred embodiment of the invention; and

 Fig. 7 is a schematic representation of the attached to the electric machine housing element according to the further preferred

Embodiment of the invention.

In the figures of the drawings, like reference characters designate like or functionally identical elements, components or components, as far as nothing is concerned

The contrary is stated.

1 shows a schematic representation of an electrical machine with an arrangement of a housing element of a housing of the electrical machine and electrical components of the electrical machine according to a preferred embodiment of the invention.

 The housing member 10 of the housing 2 of the electric machine 1 is fixed to an axial end portion 2 a of the housing 2. The (not shown in FIG. 1) electrical components are arranged or attached to a back side of a printed circuit board 11 and form with a surface 10 a of

Housing element 10 contact. Fig. 2 shows a schematic representation of on a circuit board

arranged electrical components of the electric machine according to the preferred embodiment of the invention.

In Fig. 2, the (not shown in Fig. 1) back of the circuit board 11 is shown. On the circuit board 11 are first electrical components 14, which are formed by capacitors and second electrical components 18, which are formed by the power semiconductor elements arranged.

The second electrical components 18 are not directly shown in FIG. 2, but rather a heat sink 28 arranged at their rear side, which has a surface 28a with a multiplicity of pin elements. Alternatively, the surface of the heat sink 28 may, for example, be rib-shaped or, if sufficient for heat dissipation to a coolant, may be planar or have a suitably rough surface texture.

The heat sink 28 is inserted in the assembled state of the electrical components in a recess provided for this purpose of the housing member, so that the surface 28 a of the heat sink 28 is flushed with coolant.

Fig. 3 shows a schematic representation of the mounted on the electric machine housing element according to the preferred embodiment of the invention.

The housing element 10 has a first receiving area 12 for

Receiving the first electrical components on the surface (not shown in FIG. 3) of the housing element 10. The housing element 10 also has a second receiving area 16 for receiving the second electrical components on the surface of the housing element 10.

Furthermore, the housing element 10 has a coolant supply opening 20 for supplying coolant to the housing element 10 and a

Coolant discharge opening 22 for discharging coolant from the

Housing element 10 on. In addition, the housing element 10 has a cooling channel 24 extending in the housing element 10. A first Section 24 a of the cooling channel 24 is adapted to the first

Reception area 12 to cool at least in sections.

A second portion 24b of the cooling channel 24 is configured to cool the second receiving area 16. The first portion 24a of the cooling passage 24 extends from the coolant supply port 20 to the second

Receiving portion 16 for receiving the second electrical components 18 on the surface of the housing member 10th

The second section 24b of the cooling channel 24 is formed by a recess 26 of the housing element 10 formed on the second receiving area 16 for receiving the second electrical components 18 on the surface of the housing element 10.

A third portion 24c of the cooling channel 24 extends from the second receiving portion 16 for receiving the second electrical components 18 (not shown in FIG. 3) to the first receiving portion 12 for

Receiving first electrical components 14 (not shown in FIG. 3).

The third section 24c of the cooling channel 24 also communicates at a second receiving area 16 opposite axial arranged

End portion 32 with a further housing element in the housing 2 arranged further cooling channel 24 fluidly.

The first portion 24a of the cooling channel 24 opens into the notch 26 (not shown in FIG. 3) of the housing element 10 of the housing element 10 at a first axial end portion 26a of the recess 26. The third portion 24c of the cooling channel 24 opens at one second axial end portion 26b of the recess 26 in the recess 26th

The first portion 24 a of the cooling channel 24 and the third portion 24 c of the cooling channel 24 are each introduced through a bore in the housing member 10. The recess 26 of the second portion 24 b of the cooling channel 24 is integral with the housing element 10, in particular by die casting Housing element 10, formed. The coolant discharge opening 22 communicates fluidically with a further cooling channel arranged in the further housing element of the housing 2.

4 shows a schematic representation of the housing element fastened to the electric machine with the electrical elements arranged thereon

Components according to the preferred embodiment of the invention. On the surface 10 a of the housing element 10, the embedded in a socket 30 second electrical components 18 are inserted into the recess of the housing member 10. Furthermore, a plurality of first electrical components 14 are arranged on the surface 10 a of the housing element 10 in the first receiving region 12.

5 shows a schematic representation of an electrical machine with an arrangement of a housing element of a housing of the electrical machine and electrical components of the electrical machine according to a further preferred embodiment of the invention. In the further preferred embodiment shown in FIG. 5, the first electrical

Components 14 and the second electrical components 18 mounted on the housing member 10 in a different arrangement than in the arrangement shown in Fig. 2.

The first electrical components 14 and the second electrical

Components 18 are arranged on a rear side of the printed circuit board 11, as already described with regard to the embodiment of FIGS. 1 to 4. The printed circuit board 11 preferably has a shape adapted to the shape of the housing element 10.

Fig. 6 shows a schematic representation of on a printed circuit board

arranged electrical components of the electric machine according to the further preferred embodiment of the invention. The first electrical components 14 and the second electrical components 18 are each intermittent on the circuit board 11 and substantially along one

Edge region 11 a of the circuit board 11 is arranged. FIG. 7 shows a schematic representation of the housing element attached to the electric machine according to the further preferred

Embodiment of the invention.

The housing element 10 has a first receiving region 12 on the surface (not shown in FIG. 7) of the housing element 10, which is designed to receive the first electrical components.

Furthermore, the housing element 10 has a second receiving region 16 on the surface of the housing element 10, which is designed to receive the second electrical components. In particular, a plurality of first receiving areas 12 and a plurality of second

Receiving areas 16 are provided, in the present embodiment in each case three first receiving areas 12 and three second receiving areas 16th

The cooling channel 24 extends from the coolant supply opening 20 and flows sequentially through the intermittently arranged first and second receiving regions 12, 16. The cooling channel 24 is in the region of the first

Receiving areas each introduced through a bore in the housing member 10 and in the region of the second receiving areas a recess analogous to the described with reference to FIG. 1 to FIG. 4 recess 26 is provided.

The described embodiments and developments can be combined with each other as desired.

For example, a shape, size or nature of the

Housing element to be adjusted accordingly.

Claims

claims

A housing element (10) for a housing (2) of an electrical machine (1) which can be fastened to an axial end section (2a) of the housing (2);

with at least a first receiving area (12; 112) for receiving first electrical components (14) on a surface (10a) of the

Housing element (10);

with at least a second receiving area (16; 116) for receiving second electrical components (18) on the surface (10a) of the

Housing element (10);

a coolant supply port (20) for supplying coolant to the housing member (10) and a coolant discharge port (22) for discharging coolant from the housing member (10); and

with a cooling channel (24) extending in the housing element (10), wherein a first section (24a) of the cooling channel (24) is designed to cool the first receiving region (12; 112) at least in sections, and wherein a second section (24b ) of the cooling passage (24) is adapted to cool the second receiving area (16; 116).

2. Housing element according to claim 1, characterized in that the first portion (24a) of the cooling channel (24) from the coolant supply opening (20) to the second receiving area (16) for receiving the second electrical components (18) on the surface (10a ) of the housing member (10).

3. Housing element according to claim 1 or 2, characterized in that the second portion (24b) of the cooling channel (24) by a on the second receiving portion (16) for receiving the second electrical components (18) on the surface (10 a) of the housing element (10) trained

Recess (26) of the housing element (10) is formed.

4. Housing element according to claim 3, characterized in that the second portion (24b) of the cooling channel (24) is adapted to be umspülbar by filled therein coolant, a surface (28a) of a heat sink (28) of the second electrical components (18) ,

5. Housing element according to one of the preceding claims, characterized in that a third section (24c) of the cooling channel (24) of the second receiving portion (16) for receiving the second electrical components (18) on the surface (10a) of the housing element ( 10) to the first receiving area (12) for receiving first electrical

Components (14) on the surface (10 a) of the housing member (10) extends.

6. Housing element according to claim 5, characterized in that the third section (24c) of the cooling channel (24) at one of the second

Receiving region (16) opposite the axial end portion (32) with a in the other housing element of the housing (2) arranged further cooling channel (24) fluidly communicates.

7. Housing element according to claim 5 or 6, characterized in that the first portion (24 a) of the cooling channel (24) formed in the on the surface (10 a) of the housing member (10) recess (26) of the

Housing member (10) at a first axial end portion (26 a) of the

Recess (26) opens, and wherein the third portion (24c) of the cooling channel (24) at a second axial end portion (26b) of the recess (26) opens into the recess (26).

8. Housing element according to one of claims 5 to 7, characterized in that the first portion (24 a) of the cooling channel (24) and the third portion (24 c) of the cooling channel (24) through a bore in the

Housing element (10) are introduced, and wherein the recess (26) of the second portion (24b) of the cooling channel (24) with the housing element (10) integrally, in particular by die-casting of the housing member (10) is formed.

9. Housing element according to one of claims 5 to 7, characterized in that the coolant discharge opening (22) communicates fluidically with a in the further housing element of the housing (2) arranged further cooling channel.

10. Arrangement of electrical components on a housing element (10) for a housing (2) of an electrical machine (1) according to one of claims 1 to 9, wherein first electrical components (14) in the first receiving area (12) of the housing element (10 ) are arranged on a surface (10a) of the housing element (10), and wherein second electrical components (18) are arranged in the second receiving area (16) of the housing element (10) on the surface (10a) of the housing element (10).

11. Arrangement according to claim 10, characterized in that the housing element (10) has a plurality of first receiving areas (12) and a plurality of second receiving areas (16), wherein the first receiving areas (12) and the second receiving areas (16) respectively intermittently and substantially along an edge region (10b) of the housing element (10) are arranged.

12. Arrangement according to claim 10 or 11, characterized in that the first electrical components (14) are formed by capacitors and the second electrical components by power semiconductors.

13. Arrangement according to one of claims 10 to 12, characterized

in that the housing element (10) is formed by a bearing plate of the electrical machine (1).

14. Electrical machine (1) with a housing element (10) according to one of claims 1 to 9.