EP3563470A1

EP3563470A1 - Arrangement of a connector on an end side of an electric machine

Info

Publication number: EP3563470A1
Application number: EP18702080.5A
Authority: EP
Inventors: Valerias Schmidt
Original assignee: Siemens AG
Current assignee: Innomotics GmbH
Priority date: 2017-02-07
Filing date: 2018-01-09
Publication date: 2019-11-06
Also published as: WO2018145840A1; EP3358721A1

Abstract

The invention relates to a housing (1) for an electric machine (2), having an electrical connector (4) via which a supply of electrical energy to the electric machine (2) is made possible, having a fluid channel (12) for accommodating a fluid (15) for cooling the electric machine (2), and having a fluid connector (3), which comprises an inlet (30) and an outlet (31), via which fluid connector (3) the fluid channel (12) can be filled with the fluid (15) and evacuated, wherein the housing (1) has a housing wall (10) which has an axial extent (54) between two end sides (14) along a first spatial direction (50) and a radial extent with an extent radius (53) along two further spatial directions (51, 52), and wherein the electrical connector (4) and the fluid connector (3) are, with respect to the two further spatial directions (51, 52), arranged within the extent radius (53). To permit improved utilization or exploitation of a limited installation space in relation to the prior art, provision is made according to the invention for the electrical connector (4) and the fluid connector (3) to be arranged on the same of the end sides (14).

Description

description

Arrangement of a connection to a front side of an elec ^¬ cal machine

The invention relates to a housing for an electrical Ma ^¬ machine with an electrical connection and a Fluidan- circuit. The invention also relates to an electric Ma ^¬ machine with such a housing. A third aspect of the invention relates to a vehicle with said electric machine.

For an electrical machine is often a limited, in particular radially limited, installation space available. It may be an objective to achieve a maximum power density for the electrical machine in relation to the installation space. For example, the electric machine fluid is cooled, for example water cooled, and has a

Fluid connection on. In addition, the electric machine has an electrical connection.

From DE 199 59 422 AI an encapsulated electrocompressor sor with a cylindrical housing is known, which has an electrical connection and an inlet and outlet for the supply and removal of a fluid. Due to the specifi cations ^¬ a compressor of the supply and Entlauf to vonei ^¬ Nander different end faces of the cylindrical housing are arranged. This results in a comparatively high space requirement, especially in the case of installation, removal and maintenance of the electric compressor, for example in a vehicle.

It is an object of the present invention to enable a comparison with the prior art improved utilization of a limited installation space for an electrical machine.

This object is achieved according to the invention by a housing for an electrical machine having the characteristics of the patent Award 1. The object is also achieved by a elekt ^¬ generic engine with the features of claim 9. And by a vehicle having the features of claim 10. Advantageous embodiments with expedient further developments of the housing according to the invention are the subject matter of the dependent claims and form analogous to the invention electric ^¬ machine and the vehicle according to the invention on.

A housing for an electric machine includes a step elekt ^¬ connection, via which a supplying of the electric machine with electric power allows. In particular, the electrical connection allows Kontakt ^¬ animals at least one winding of the electric machine with an electric power source. The housing includes ^¬ except the one fluid channel to receive a fluid for cooling the electric machine. For example, the fluid channel is formed meander-shaped or spiral. The housing has a fluid port that includes an inlet and a drain. Via the fluid connection, the fluid channel can be filled with the fluid and emptied.

The housing has a housing wall which has an axial extension between two end sides along a first spatial direction and a radial extension with an expansion radius along two further spatial directions. In particular, an expansion of the housing wall with respect to the two further spatial directions is described at least essentially by the expansion radius. Preferably, the expansion radius indicates a maximum extent of the housing ^¬ wall with respect to the two other spatial directions. The housing may be formed such that they maxi ^¬ times by a predetermined amount from ^¬ deviates from the extension radius. Preferably, the extent of radius is adapted to a ^¬ A build radius of a radially limited installation space.

Furthermore, the invention provides that the electrical connection and the fluid connection at one of the Stirnsei ^¬ th and with respect to the two other spatial directions within of the expansion radius are arranged. In other words, electrical connection and the fluid connection are not arranged radi al ^¬ on the outside of the housing.

Both the electrical connection and the fluid connection are arranged on the same end face. Accordingly, the fluid channel is formed such that the beginning and end of the cooling ^¬ channel are guided to the same of the end faces. Vorzugswei ^¬ se is unbranched the fluid channel. Characterized in that the inlet and the outlet are arranged on the same front side, a particularly easy handling and a particularly easy connection of the fluid connection to a cooling system are possible.

The inventive arrangement of the electrical connection and the fluid connection allows a particularly vorteilhaf ^¬ tes adjusting the expansion radius of the housing to the radially limited installation space. In particular, the limited radial installation space can be fully exploited ^¬ continuously through the housing in this manner.

The inlet may allow the fluid channel to be filled with the fluid and the drain may allow the fluid channel to be emptied. In an interaction between the inlet and the outlet can flow through the fluid channel to the fluid allowed ^¬ union. This allows removal of heat from the housing and / or from the electrical machine.

A development of the invention provides that the housing wall is at least substantially designed as a cylinder, wherein the expansion radius correspond to a cylinder radius and the two end faces of the circular surfaces of the cylinder. A substantially formed as a cylinder housing ^¬ wall allows advantageous utilization of the radially limited installation space and / or allows a particularly advantageous enclosure of the electric machine, if it is at least substantially rotationally symmetrical. In particular, the housing wall is formed as a man ^¬ telfläche of the cylinder. A further development provides that the electrical connection comprises several phase connections. In this case, the electrical connection enables the electrical machine to be supplied with electrical energy over a plurality of phase strands. For example, the electric machine is a three-phase machine. Preferably, the electrical connection to three phase terminals for supplying the three-phase ^¬ machine with electrical energy. A further development provides that the electrical connection is realized by means of a terminal box. The Klemmenkas ^¬ th may comprise one or more terminals, each of which ^¬ weils allow an electrical contact. In particular, the terminal box has a cable shoe for each phase strand. Each of the cable lugs may be electrically contacted with one turn of the electrical machine. The terminal box allows a particularly easy handling of the electrical connection. A development of the invention provides that the two

End sides are each formed as a bearing plate, wherein the electrical connection and / or the fluid connection are formed as part of the bearing plate. In other words, the electrical connection and / or the fluid connection can be integrated in the end shield. The housing may be formed as a Stän ^¬ dergehäuse the electric machine. By this form of execution, a particularly compact construction ^¬ form of the housing and the electric machine can be made possible.

A development of the invention provides that the electrical connection and / or the fluid port are each arranged as a sepa rates ^¬ part on one of the two end faces. In other words, the electrical connection and / or the fluid port as a separate part to the housing, ^¬ insbesonde re may be located at one of the two end faces, preferably on the bearing plate. In this way, depending on an application, a suitable electrical connection can be made. be arranged and / or fluid connection to the housing.

A further development provides that the fluid channel is part of a cooling jacket and the fluid connection is through connected by one of the end sides ^¬ with the fluid channel or the cooling ^¬ coat. Preferably, the cooling jacket comprises the housing wall at least partially. The fluid port and the fluid channel can therefore by the end face, insbesonde ^¬ re through the end shield to be connected therethrough. Preferably, the end face, in particular the bearing plate two passages, for connecting one of the ends of the cooling channel with the inlet and the other of the ends of the fluid channel with the flow.

In a further development, the fluid channel extend

and / or the cooling jacket in the axial direction over the entire housing. In particular, the fluid channel and / or the cooling jacket extend in the axial direction over the entire housing between the two end faces, in particular between the two end shields. Preferably, the cooling jacket and / or the fluid passage over the entire lateral surface of the Ge ^¬ häuses extend.

A second aspect of the invention relates to an electric machine having a housing described above. The housing is designed in particular as a stator housing of the electrical machine. Thereby, characterized in that the housing enables an advantageous utilization of the limited radial installation space, he ^¬ enables, a maximum outer diameter of the electrical machine. In particular, a maximum outer diameter for an active part, in particular a stator dynamic sheet, of the electrical machine is possible with respect to the radially limited installation space. As a result, a maximum power density of the electric machine with respect to the radially limited installation space can be made possible. The arrangement of the fluid connection on one of the front sides can advantageously cool the electric machine, in particular of the Active part, allows, as the fluid channel, in particular ^{¬ the} special cooling jacket, can extend in axial alignment over the entire electrical machine.

A third aspect of the invention relates to a vehicle having the above-mentioned electric machine. The vehicle is in particular a motor vehicle, preferably a motor vehicle, for example a lorry, a passenger car or a mining vehicle. The electric machine can be designed as a drive motor to accelerate the vehicle. Alternatively or additionally, the electrical machine may be designed as a working drive, and for example, a force and / or torque to at ^¬ drive a tool, a conveyor belt or a wide ^¬ ren provide vehicle function.

Further features and advantages will be apparent from the following description with reference to the accompanying figures. In the figures, like reference numbers indicate like features and functi ^¬ ones. The embodiments are merely Erläute ^¬ tion of the invention and are not limiting. Show it :

1 shows a schematic perspective view of an electrical ^¬ rule machine with a housing;

FIG 2 is a schematic sectional view of a Klemmenkas ^¬ least comprising an electrical terminal; and

3 shows a further schematic perspective view of

electric machine with a cooling channel.

1 shows a schematic perspective view of a generic machine elekt ^¬ 2 with a housing 1. The housing 1 has a housing 10 which has an axial extent between two end faces 14 along a first spatial direction 50th The housing wall 10 has a radial Ausdeh ^¬ voltage with an expansion radius 53 along two other spatial directions 51, 52nd The first spatial direction 50 and the two further spatial directions 51, 52 can thereby be lowered. standing right on each other. Particular, the extent radius 53 describes a maximum radial extent of the Gehäusewan ^¬ dung 10 perpendicular to the first direction in space 50. The housing 1 comprises an electrical connection 4 through which a supplying of the electric machine 2 with electrical energy is enables.

3 shows the electric machine 2 in a further schematic perspective view. In this case, the housing wall 10 is partially transparent in FIG. Because of this representation can be seen from Figure 3 that the housing ^¬ wall 10 is designed as part of a cooling jacket. 11 The housing 1 or the housing wall 10 comprises a fluid channel 12 which is ausgebil ^¬ det for receiving a fluid 15 for cooling the electric machine 2 and / or the housing 1. The housing 1 comprises a fluid connection 3, via which the fluid channel 12 can be filled with the fluid 15 and emptied. In the present case, the fluid connection 3 comprises an inlet 30 and an outlet 31. The inlet 30 and the outlet 31, in interaction, allow the fluid channel 12 to flow through the fluid 15.

In the present case the electrical connection 4 and the Fluidan ^¬ circuit 3 at one of the end faces 14 of the housing 1 are angeord- net. In particular, the electrical connection 4 and the fluid connection 3 are arranged with respect to the two further spatial directions 51, 52 within the expansion radius 53. This allows a better utilization of a radially limited installation space compared to the prior art. In particular is the present arrangement of the Fluidan- circuit 3 and the electrical terminal 4, a completeness, ^¬ digestive utilization of an installation radius of the radially limited ^¬ A construction space allows. The expansion radius 53 of the housing ^¬ wall 10 may correspond in particular to the installation radius. In particular, radially on the outside of the housing 1 is no

Installation space for the electrical connection 4 and the fluid connection 3 necessary. The housing wall 10 may be formed substantially as a cylinder. In this case, the expansion radius 53 may correspond to a cylinder radius of the cylinder. Alternatively or additionally, the two end faces 14 may correspond to sectional circle surfaces of the cylinder. Partially may deviate from the cylindrical shape, the housing ^¬ wall 10 without changing the function essentially. If the shape of the housing wall 10 deviates from the cylindrical shape, then the expansion radius 53 can indicate the maximum distance of the housing wall 10 from an axial orientation 54 with respect to the two further spatial directions 51, 52. The axial orientation 54 corresponds in particular to an axis of rotation of rotating gela ^¬ siege machine parts of the electric machine 2, for example, a shaft or a rotor. The first spatial direction 50 can run parallel to the axial orientation 54. It can be provided that the housing wall 10 deviates a maximum of a predetermined amount from a predetermined by the expansion radius 53 cylinder jacket. One or both of the two end faces 14 can each as

End shield 13 may be formed. The bearing plate 13 may be designed to store rotating parts of the electric machine 2. For example, the shaft or the rotor of the electric machine 2 is stored on the bearing plate 13. The electrical connection 4 and / or the fluid connection 3 may be formed as part of the bearing plate 13 other, not shown embodiments. In particular, the fluid port 3 and / or the electrical connection 4 may be partially integrated to ^¬ least in the bearing plate. 13 In this case, it can give a particularly compact design for the housing 1.

In the present case the fluid port 3 and electric An ^¬ circuit 4 disposed as separate parts in one of the two end faces 14, in particular the bearing plate 13 are. Beispielswei ^¬ se of the electrical terminal 4 may be performed as a terminal box 40 from ^¬. The electrical connection 4 here comprises a plurality of phase connections 41 for contacting a plurality of phase connections 41. strands 42 and / or windings of the electric machine 2. In particular, the electric machine 2 is designed as Drehstromma ^¬ machine, and therefore the three phase terminals 41, and three phase conductors 42 are present.

2 shows the terminal box 40 by way of example a schemati ^¬ rule sectional view. About a fastener 44, before ^¬ lying a screw, one of the phase strands 42 is conductively contacted with a cable lug 43. The cable lug 43 is adapted to an external line, for example a

Cable or wire. In this way, it is possible to supply the electrical machine 2 with electrical energy. Via the electrical connection 4, the electric machine 2 can be connected to an electrical energy source, for example a generator or an electrical energy store.

The arrangement shown by way of example in the sectional view may be analogous to several of the phase terminals 41. The terminal box 40 can be arranged via a fastening arrangement 45 on the housing 1, in particular one of the end faces 14 or the bearing plate 13. By means of a removable electrical connection 4, the electrical connection 4 can be adapted for various applications of the electrical machine 2. Due to the present arrangement of the electrical connection 4 on the front side 14, a particularly easy handling of the electrical connection 4 and a particularly easy contacting of the electric machine 2 is made possible.

3 shows the fluid channel is 12. The fluid channel 12 extends in the present case more uniformly over the entire housing ^¬ wall 10. Preferably, the fluid channel 12 in such a manner out ^¬ formed such that the fluid 15 first in areas of the see electric machine 2 and the housing 1 is passed, which heat the most in an operation of the electric machine 2. The fluid channel 12 is presently connected via passages 32 to the fluid port 3. In particular, In particular, a first end 33 of the fluid channel 12 is connected to the inlet 30. In particular, a second end 34 of the fluid channel 12 is connected to the outlet 31. The bushings 32 are presently carried out by one of the end faces 14, in particular by the end plate 13, in.

Due to the arrangement of the fluid port 3 on the front ^¬ side 14 of the housing 1, the fluid channel 12 and / or the cooling jacket 11 extends in the axial direction or relative to the axial alignment 54 over the entire housing 1. In particular, the fluid channel 12 and The arrangement of the fluid connection 3 on the front side 14 thus allows a particularly advantageous cooling of the electric machine 2. Because the inlet 30 and the outlet 31 are arranged side by side on the same end face 14 is allows a particularly easy handling and a particularly easy connection of the fluid connection 3 to a cooling system.

Characterized in that the electrical connector 4 and / or the fluid port 3 at the end face 14 within the Ausdehnungsra ^¬ 53 are arranged dius, the radially limited installation space by the electric machine 2 may, in particular an active part of the electric machine 2, for example a Ständerdyna ^¬ moblech or a stator, be exploited in the best possible way. This results in a maximum efficiency of the electrical machine 2 based ^¬ rule may result in the installation space. The fact that the fluid channel 12 or the cooling jacket 11 extend in the axial direction over the entire housing 1 and / or over the entire housing wall 10, a best possible cooling of the electric machine 2 and the active part may be possible. The cooling jacket 11 may be made in two parts. For example, the cooling jacket 11 is shrunk onto the housing 1 as a tube and subsequently forms the housing wall 10. For example, the fluid channel 12 is formed by a recessed into an inner part of the cooling jacket 11 ^¬ ne shape, which outwardly through the housing wall 10, which is in particular on the inner part is shrunk ^¬ is sealed.

Claims

claims

1. housing (1) for an electrical machine (2), with

an electrical connection (4), by means of which it is possible to supply the electric machine (2) with electrical energy,

a fluid channel (12) for receiving a fluid (15) for cooling the electric machine (2), and

a fluid connection (3) comprising an inlet (30) and an exhaust circuit (31) through which fluid port (3) of the fluid ^¬ channel (12) with the fluid (15) is filled and emptied, the housing ( 1) has a housing (10) having an axial extension (54) between two end faces (14) along a first direction in space (50) and a radial extension with an expansion radius (53) along two white ^¬ more excellent spatial directions (51, 52),

and wherein the electrical connection (4) and the Fluidan ^¬ circuit (3) with respect to the two other spatial directions

(51,52) are arranged within the expansion radius (53), characterized in that

the electrical connection (4) and the fluid connection (3) are arranged on the same of the end faces (14).

2. Housing (1) according to claim 1,

characterized in that the housing wall (10) is at ^¬ least substantially formed as a cylinder, wherein the extension of the radius (53) corresponding to a cylinder radius, and the two end faces (14) cutting circle surfaces of the cylinder.

3. housing (1) according to one of the preceding claims, characterized in that the electrical connection (4) comprises a plurality of phase terminals (41).

4. Housing (1) according to one of the preceding claims, characterized in that the electrical connection (4) by means of a terminal box (40) is realized.

5. Housing (1) according to any one of the preceding claims, characterized in that the two end faces (14) depending ^¬ Weil as a bearing plate (13) are formed, wherein the elekt ^¬ cal connection (4) and / or the fluid connection (3) are formed as part of the bearing plate (13).

6. Housing (1) according to one of claims 1 to 4,

characterized in that the electrical connection (4) and / or the fluid connection (3) are each arranged as a separate part on one of the two end faces (14).

7. Housing (1) according to any one of the preceding claims, characterized in that the fluid channel (12) is part of a cooling jacket (11) and the fluid connection (3) via feedthroughs (32) through one of the end faces (14) through the fluid channel (12) or the cooling jacket (11) is ver ^¬ prevented.

8. housing (1) according to claim 7,

characterized in that the fluid channel (12) and / or the cooling jacket (11) extends in axial extent (54) over the entire housing (1).

9. Electrical machine (2) with a housing (1) according to one of the preceding claims.

10. vehicle with an electric machine (2) according to claim 9.