EP3210284A2

EP3210284A2 - Fluid-cooled housing for an electrical machine

Info

Publication number: EP3210284A2
Application number: EP15763247.2A
Authority: EP
Inventors: Armin Ploeger; Uwe Knappenberger; Camilo CARRILLO; Karsten Kirchhoff
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2014-10-23
Filing date: 2015-09-01
Publication date: 2017-08-30
Also published as: WO2016062440A3; US20170244305A1; CN107078597A; CN107078597B; WO2016062440A2; US10680497B2; DE102015220509A1

Abstract

The invention relates to a housing (10) for an electrical machine (50) and to an electrical machine (50) having such a housing (10). The housing (10) comprises an inner wall (12) and an outer wall (14), with a hollow space (16) therebetween for cooling the electrical machine (50) with a fluid. The housing (10) further has a sealing device (24, 26) on a front face (22, 23) of the housing (10). The housing is particularly characterised in that the sealing device (24, 26) comprises an annular sealing element (28) mounted between the inner wall (12) and the outer wall (14) so as to seal the front face, and in that the sealing device (24, 26) comprises a deflection ridge (30) which projects from the sealing element (28) in the axial direction of the housing (10) and is at least partially arranged between the walls (12, 14), the deflection ridge (30) being designed to lead a cooling fluid in the hollow space (16). A compact, economical and fluid-tight housing (10) can thus be advantageously provided.

Description

description

Fluid cooled housing for an electrical machine

Field of the invention

The invention relates to a housing with fluid cooling for an electrical machine and an electrical machine with a fluid-cooled housing.

Background of the invention

In electrical machines, such as electric motors or generators, for example, due to increased power requirements and / or

Efficiency requirements suitable cooling devices for dissipating heat generated by power loss may be required.

Frequently, cooling devices in the form of a cooling jacket are formed in a housing of the electrical machine, so that the housing

Cooling function takes over. Such cooling jackets can be about as

be realized double-walled housing. For this purpose, the housing may be formed as a hollow cylindrical extruded part having a plurality of channels open to both end sides. For example, a bearing plate may be provided as a cover on each end face of the housing, which may have Umlenknuten, which connect the channels with each other and can deflect a cooling fluid between the channels. In such cases, however, a complicated sealing device may be required, which can reliably prevent leakage of cooling fluid from the housing. Accordingly, a manufacture of such a housing can be relatively complicated and expensive.

In order to increase a heat transfer from the electric machine to the cooling fluid, among other things, a cooling surface can be increased and / or a Flow rate of the cooling fluid can be increased. This can

For example, a meander-shaped cooling channel may be formed in the housing, as described for example in DE 10 2012 215 018 AI.

Disclosure of the invention

Embodiments of the present invention may advantageously enable to provide a low-cost, compact and sealed housing with an efficient cooling device for an electric machine.

According to a first aspect of the invention, a housing for an electrical machine, such as an electric motor or a generator, is proposed. The housing has an inner wall and an outer wall which are concentric with each other and spaced apart in a radial direction. In this case, between the inner wall and the outer wall in the radial direction of the walls limited cavity for fluid cooling of the electric machine is formed. Furthermore, the housing has a sealing device, which is arranged on an end face of the housing. The housing according to the invention is characterized in particular by the fact that the sealing device has a ring-shaped design

Has sealing element, which frontally sealing between the inner

Wall and the outer wall is added. Furthermore, the

Sealing a Umlenksteg, which protrudes in an axial direction of the housing of the sealing element and is at least partially disposed between the inner wall and the outer wall, wherein the

Umlenksteg is adapted to lead or divert a cooling fluid in the cavity and / or a flow resistance for the cooling fluid

provide.

The sealing device with the annular sealing element can thus provide a comprehensive and reliable sealing of the housing in the radial and in the axial direction. Furthermore, the sealing device can simultaneously advantageously provide a deflection function of the cooling fluid, so that a sufficiently high flow of cooling fluid through the housing and, consequently, efficient cooling with high heat transfer from the electric machine to the cooling fluid can be ensured. By

Integration of the deflection function in the sealing device, the housing be made compact and inexpensive to manufacture without a

Forming Umlenknuten, approximately in the form of casting cavities in one

End shield of the housing, would be necessary.

Also, other sealing functions can be integrated with respect to an environment of the housing and an inlet and an outlet for the cooling fluid and their seal in the sealing device.

The axial direction may designate a longitudinal direction of extension of the housing, and the radial direction may denote a direction orthogonal to the axial direction.

According to one embodiment of the invention, the sealing element and the deflection web are integrally formed. For example, the sealing device with sealing element and deflecting web made of plastic in an injection molding process or made of metal. A one-piece design of the sealing device can reduce production costs and maintenance by reducing components.

According to one embodiment of the invention, the sealing device has a plurality of deflecting webs which along a circumference of the

Sealing element are arranged spaced apart in the circumferential direction and protrude in the axial direction finger-like from the sealing element. By forming a plurality of deflecting webs, a flow of the cooling fluid in the

Cavity of the housing be directed so that so-called dead water areas can be avoided, in which, for example, air bubbles can accumulate. Overall, such an efficiency of cooling can be increased.

According to one embodiment of the invention, spaced apart guide webs are arranged between the inner and the outer wall in the circumferential direction, which extend along the axial direction of the housing, wherein the guide webs are adapted to guide the cooling fluid in the cavity, ie in a preferred To direct flow directions. By means of the guide webs, the flow of the cooling fluid can be suitably deflected in addition to the deflection webs, so that a cooling efficiency can be further increased. The guide webs can be made approximately by an extrusion process and in one piece with the inner and / or the outer wall be educated. Due to the manufacturing process, the guide webs can therefore extend over at least 20%, preferably at least 50%, of a longitudinal extent of the walls. Also, the guide webs may be attached as a separate component on the inner and / or outer wall, such as glued or welded, be.

According to one embodiment of the invention, the deflection web is the

Sealing device arranged in alignment with one of the guide webs. The deflection web can adjoin the guide web and / or rest flush therewith.

According to one embodiment of the invention, the sealing device has a plurality of deflecting webs, which in each case aligned with one of

Guide webs are arranged. As a result, the cooling fluid can be deflected or guided in a complex deflection geometry for a further increase of the cooling efficiency.

According to a further embodiment of the invention, the housing has a further sealing device with a further sealing element and at least one further deflection web, wherein the sealing device and the other

Sealing device are arranged on two opposite end sides of the housing. As a result, the cooling fluid can advantageously be deflected alternately parallel and antiparallel to the axial direction, so that a meandering flow of the cooling fluid can be realized in the housing without dead water areas and heat can be dissipated efficiently.

According to one embodiment of the invention, the sealing device has a plurality of deflecting webs and the further sealing device has a plurality of further deflecting webs, wherein between the inner and the outer wall in the circumferential direction spaced apart guide webs are arranged, which extend along the axial direction. In this case, one of the deflection webs and one of the further deflection webs are arranged in alignment with one of the guide webs. The remaining deflecting webs and the other further deflecting webs are each arranged alternately on opposite sides of the housing in alignment with one of the other guide webs, so that the deflecting webs and the guide webs have a

Form meandering cooling channel in the cavity. According to one embodiment of the invention is on the annular

Sealing element at least one on an inner circumference and / or a

Outer circumference of the sealing element encircling and radially projecting from this sealing lip, which bears sealingly against in each case one of the walls. As a result, a comprehensive and reliable sealing of the housing against leakage of cooling fluid from the cavity in both the axial and in the radial direction can be provided at low cost.

According to one embodiment of the invention, the walls of the

Housing extruded. The housing can be produced inexpensively as a double-walled housing with integrally formed on the inner and / or outer wall guide webs in a few steps.

Another aspect of the invention relates to an electric machine, such as an electric motor or a generator, having a housing as described above and described below. The electric machine or the housing may further each have a bearing plate as a kind of cover on each end face of the housing, wherein the sealing device can also provide a tight connection between the end shields and other components of the housing in an advantageous manner.

It should be understood that some of the possible features and advantages of the invention are described herein with reference to different embodiments. A person skilled in the art will recognize that the features can be suitably combined, adapted or replaced in order to arrive at further embodiments of the invention.

Brief description of the drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which neither the drawings nor the description are to be construed as limiting the invention. Fig. 1 shows a section through a part of a housing according to a

Embodiment of the invention. 2A, 2B and 2C each show a section through a part of a housing according to a further embodiment of the invention.

Fig. 3 shows an electric machine according to an embodiment of the invention.

The figures are only schematic and not to scale. Like reference numerals in the figures designate the same or equivalent

Characteristics.

Embodiments of the invention

Fig. 1 shows a section through a part of a housing 10 for an electric machine according to an embodiment of the invention. The cut runs orthogonal to an axial direction or orthogonal to a

Longitudinal direction of the housing 10th

The housing 10 is designed as a double-walled, hollow-cylindrical housing with an inner wall 12 and an outer wall 14, which are arranged concentrically to each other and spaced apart in a radial direction, so that in the radial direction through the walls 12, 14 limited cavity 16 to Fluid cooling of the electric machine is formed. For this purpose, the cavity 16 may be filled with a cooling fluid, for example with water and / or with another liquid medium. The housing with the inner wall 12 and the outer wall 14 may for example be produced in one piece or formed in an extrusion process. Also, the inner wall 12 and the outer wall 14 may be locally bonded together as separate components and / or welded.

Between the inner wall 12 and the outer wall 14, the housing 10 in the circumferential direction of the housing 10 spaced apart guide webs 18 which extend along the axial direction of the housing 10 and which are adapted to the cooling fluid in the cavity 16, preferably in the axial direction respectively. The guide webs 18 may be integrally formed with the inner wall 12 and / or the outer wall 14 or attached as separate components on the inner wall 12 and / or the outer wall 14, for example glued and / or welded, be. The guide webs can be about at least 20%, preferably at least 50% or at least 80%, one

Longitudinal extent of the inner and / or the outer wall 12, 14 extend. Overall, a plurality of mutually parallel partial cavities can thus be formed in the cavity 16, which in each case in

Circumferential direction by two directly adjacent guide webs 18 and in the radial direction by the inner wall 12 and the outer wall 14 are limited. Next are on the outside of the outer wall 14 more

Fastening devices 20 arranged so that on each end face of the housing 10, a lid, such as a bearing plate, for example by means of a screw and / or rivet connection can be fastened. The fastening devices 20 can be arranged in the region of the guide webs 18 and / or lying therebetween.

2A, 2B and 2C each show a section through part of a housing 10 for an electric machine according to another embodiment of the invention.

The housing 10 has a sealing device 24 on a first end face 22 and a further sealing device 26 on a second end face 23.

The sealing devices 24, 26 each have an annular sealing element 28 which sealingly seals between the inner wall

12 and the outer wall 14 is received positively and rests with one side on one of the walls 12, 14. For mounting and / or receiving the sealing element 28 in the housing 10, a cylindrical seat, such as by turning, can be introduced on the front side on the inner and / or outer wall 12, 14, so that the sealing element 28 is received in a positive fit in a press fit.

Further, each of the sealing devices 24, 26 has a plurality of in

Circulation direction of the housing 10 from each other spaced deflecting webs 30. The Umlenkstege 30 protrude in the axial direction of the finger-like

Sealing element 28 and extend parallel to each other in the axial direction. The deflection webs 30 may have a rectangular, cuboidal, round or any differently configured cross-section. For storage and / or fixation may be provided on the inner wall 12 and / or the outer wall 14 in the region of the end faces 22, 23 cooperatively designed with an outer contour of the Umlenkstege recesses 30 in which the Umlenkstege 30 may be at least partially included.

Each of the baffles 30 is disposed in alignment with one of the guide ribs 18 and adapted to guide and / or deflect the cooling fluid in the cavity 16, as described in greater detail below. For this purpose, the deflecting webs 28 each adjoin one of the guide webs 18 and / or rest flush therewith, so that a certain flow resistance to

Deflection of the cooling fluid is provided.

Furthermore, the deflecting webs 30 may each rest against the inner and / or the outer wall 12, 14 or be spaced from at least one of the walls 12, 14. Overall, the sealing device 24, 26 is thus received between the inner and the outer wall 12, 14, wherein the

Sealing element 28 for sealing with a press fit sealingly received between the walls 12, 14 and the deflecting webs 30 respectively

contactless, with contact contact or sealingly against at least one of the walls 12, 14 can rest. Accordingly, one in radial

Direction measured thickness of the deflecting webs 30 is less than or equal to a dimensioned in the radial direction thickness of the sealing element 28.

Preferably, the deflecting webs 30 and the sealing element 28 are designed in one piece. However, the deflecting webs 30 and the sealing element 28 can also be fastened together as separate components. Also, the baffles 30 may be introduced as pins or pin members between the inner wall 12 and the outer wall 14 and by the sealing element 28 and / or a stopper element on at least one of the inner or the outer

Wall 12, 14 to be fixed in the axial direction.

Overall, the sealing devices 24, 26 substantially from

Plastic and / or be made of metal and in the housing 10th

be joined for example by pressing, welding and / or gluing. In particular, the sealing devices 24, 26 made of an elastic

Material, for example an elastomer, for example silicone, exist. To seal the cavity 16 and to prevent leakage of cooling fluid from the cavity 16 are on each sealing element 28 at a

Inner circumference a plurality of circumferential and radially projecting sealing lips 32 a formed, which bear in each case sealingly against the inner wall 12. Also on an outer circumference of the sealing element 28 a plurality of circumferential and radially projecting sealing lips 32 b are formed, which rest in each case sealingly on the outer wall 14. By the sealing lips 32a, 32b, the cavity 16 and the housing 10 in both the axial and in the radial

Be sealed direction. The sealing lips 32a, 32b may be made, for example, of plastic, rubber and / or silicone and glued to the sealing element 28 and / or welded. Also, the sealing lips 32 a, 32 b may be formed integrally with the sealing element 28. Furthermore, in the inner and / or the outer wall 12, 14 with the sealing lips 32a, 32b cooperatively designed depressions may be provided, in which the sealing lips 32a, 32b may be at least partially received.

As an alternative or in addition to the sealing lips 32a, 32b, at least one insertion seal, for example in the form of an O-ring, and / or at least one sprayed onto the sealing element 28 and / or on the inner circumference and / or an outer circumference of the sealing element 28 may be provided on the sealing element 28 applied seal can be provided. Further, for further sealing, the sealing element 28 may at least partially be bonded and / or welded to the housing 10 or to the inner wall 12 and / or the outer wall 14.

Next, the housing 10 on each end face on a cover 34 which is fastened by means of the fastening device 20 to the housing 10, for example screwed, is. The lid 34 may, for example, as

End shields be executed and each with a page on a

Ablenkstegen 30 opposite side of the sealing element 28 adjacent and / or sealingly. This can on the one hand the

Sealing devices 24, 26 additionally fixed and on the other hand, a tight arrangement of the lid 34 may be provided on the housing,

especially in the axial direction.

Further, the housing 10 has an inlet 36 and an outlet 38 for

Cooling fluid, which in each case in the outer wall, approximately in the form of

Holes and / or recesses are introduced. The inlet 36 and the As an alternative, the outlet 38 can also be integrated into the front side of one of the sealing elements 24, 26. For example, a pumping device having a cooling line may be disposed at the inlet 36 and / or the outlet so that cooling fluid may be delivered into and / or out of the cavity 16 of the housing. Also, at the inlet 36 and / or the outlet 38

Valve devices for regulating a flow of cooling fluid

be provided.

The cooling fluid can take a course as described below through the cavity 16 of the housing. At that guide web 18 of the

Housing 10, which is arranged between the inlet 36 and the outlet 38, is located in the region of the end face 22 a deflection web 30 of the

Sealing device 24 and in the region of the opposite end face 23 on a Umlenksteg 30 of the sealing device 26, so that between the inlet 36 and the outlet 38 through the two Umlenkstege 30 and the guide bar 18, a barrier for the cooling fluid is formed, which extends over the entire longitudinal extent of the cavity 16 extends parallel to the axial direction. On the other guide webs 18, however, only exactly one deflection web 30 of one of the sealing devices 24, 26 alternates. As a result, a meander-shaped cooling channel 40 is formed in the cavity 16 of the housing 10, in which the cooling fluid alternately flows parallel and anti-parallel to the axial direction, wherein the cooling fluid at each end face 22, 23 is also deflected by the sealing element 28 of the sealing devices 24, 26. This may advantageously contribute to the prevention of dead water areas in the cavity 16.

3 shows an electrical machine 50 according to an embodiment of the invention. The electric machine 50 has a housing 10 with a cover 34 on each end face 22, 23 and a shaft 52 rotatably mounted in the covers 34. The electric machine 50 may be about an electric motor or a

Be generator.

Finally, it should be noted that terms such as "comprising," "comprising," etc., do not exclude other elements, and terms such as "a" or "an" do not exclude a multitude. It should also be noted that

Features described with reference to one of the above embodiments, also in combination with other features of others The above-described embodiments can be used.

Reference signs in the claims are not to be considered as limiting.

Claims

claims

Housing (10) for an electrical machine (50), the housing (10) comprising:

an inner wall (12) and an outer wall (14) which are concentric with each other and spaced from each other,

wherein between the inner wall (12) and the outer wall (14) is formed in a radial direction of the walls (12, 14) limited cavity (16) for fluid cooling of the electric machine (50); and

a sealing device (24, 26) which is arranged on an end face (22, 23) of the housing (10),

characterized in that

the sealing device (24, 26) has a ring-shaped sealing element (28) which is sealingly received between the inner wall (12) and the outer wall (14),

and in that the sealing device (24, 26) has a deflection web (30) which projects in an axial direction of the housing (10) from the sealing element (28) and at least partially between the inner wall (12) and the outer wall (14). is arranged

wherein the deflection web (30) is adapted to a cooling fluid in the

To lead cavity (16).

Housing (10) according to claim 1, wherein the sealing element (28) and the deflection web (30) are integrally formed.

Housing (10) according to claim 1 or 2, wherein the sealing device (24, 26) comprises a plurality of deflecting webs (30), which along a circumference of the sealing element (28) in the direction of rotation from each other

spaced apart and protrude in the axial direction finger-like from the sealing element (28).

Housing (10) according to one of the preceding claims, wherein between the inner wall (12) and the outer wall (14) in the circumferential direction spaced apart guide webs (18) are arranged, which extend along the axial direction, wherein the guide webs (18) are adapted to guide the cooling fluid in the cavity (16).

Housing (10) according to claim 4, wherein the deflection web (30) of the sealing device (24, 26) is arranged in alignment with one of the guide webs (18).

Housing (10) according to one of claims 4 or 5, wherein the

Sealing device (24, 26) has a plurality of deflection webs (30), which are each arranged in alignment with one of the guide webs (18).

A housing (10) according to any one of the preceding claims, further comprising:

a further sealing device (24, 26) with a further sealing element (28) and at least one further deflection web (30),

wherein the sealing device (24, 26) and the further sealing device (24, 26) on two opposite end faces (22, 23) of the housing (10) are arranged.

Housing (10) according to claim 7, wherein the sealing device (24, 26) has a plurality of deflecting webs (30),

wherein the further sealing device (24, 26) has a plurality of further deflection webs (30),

wherein between the inner wall (12) and the outer wall (14) in the circumferential direction spaced apart guide webs (18)

are arranged, which extend along the axial direction, wherein one of the deflecting webs (30) and one of the further deflecting webs (30) are arranged in alignment with one of the guide webs (18), and

wherein the remaining deflection webs (30) and the remaining further deflection webs (30) are each arranged alternately on opposite sides of the housing (10) in alignment with one of the remaining guide webs (18), so that the deflection webs (30) and the guide webs (18 ) one

Form meandering cooling channel (40) in the cavity (16).

Housing (10) according to one of the preceding claims, wherein on the annular sealing element (28) at least one on an inner circumference and / or an outer circumference of the sealing element (28) encircling and radially projecting from this sealing lip (32a, 32b) is arranged, which sealingly against one of the walls (12, 14).

10. Housing (10) according to any one of the preceding claims, wherein the walls (12, 14) are extruded.

11. Electrical machine (50) with a housing (10) according to one of claims 1 to 10.