DE202010014425U1 - Insulating holding element for phase potential rails - Google Patents

Abstract

Stator (25) for an electric motor, the stator having a plurality of phase potential rails (3);
characterized in that the stator (25) further comprises an insulating support member (1);
wherein the insulating support member (1) comprises a first device (5) configured to receive the phase potential rails (3) and to electrically isolate them from each other;
wherein the insulating holding element (1) comprises a second component (7) which, together with the first component (5), forms a trough (9) adjacent to the phase potential bars (3);
wherein the second component (7) is designed separately from the first component (5).

Description

State of the art

stator windings of electric motors consist for example of individual coils and usually have a high Verschaltungsaufwand. Exchange and Three-phase motors need For example, many joints, such as welded joints, around individual coil wires Interconnect phase potentials. For example, the welds may be due to of little available standing workplace difficult to access for welding tools.

Further can bare joints or welds disclose uninsulated phase potential. These must be with an insulating material to be isolated. The process of applying the insulating material can be connected with a considerable amount of space be.

Disclosure of the invention

It Therefore, there may be a need for an improved stator and method for producing a stator with a corresponding insulating holding element exist that allow you to work around the issues outlined above.

These The object can be achieved by the subject matter of the present invention according to the independent claims. Advantageous embodiments The present invention is described in the dependent claims.

in the Following are features, details and possible benefits of a device according to embodiment the invention discussed in detail.

According to one The first aspect of the invention is a stator for an electric motor described. The stator has at least two phase potential rails and an insulating holding member. The insulating holding element has a first component, which is configured, the phase potential rails and isolate them electrically from each other. Further the insulating holding element on a second component, which together with the first component one to the phase potential rails adjacent tub forms. In this case, the second component is separate executed by the first component.

Different expressed The idea of the invention is based on a two-part embodiment of the invention insulating holding element of the stator. As a result, for example allows that first Phase potential rails are introduced into the first component and optimally accessible for welding tools at the joints are. Furthermore, the first component designed as part of a trough shape, which is supplemented or completed by the second component, so that the insulating holding element for a subsequent to the welding casting process is suitable with an insulating material.

The Insulating holding element is part of a stator of an electric Motors running. The first component can, for example, as a carrier or Verschaltungsring accomplished be and record at least two phase potential rails. The Phase potential rails can for example, on parallel circular paths, d. H. on concentric Circling, lost. For receiving the phase potential rails points the first component recesses into which the phase potential rails can be used. The first component has an insulating material or an insulating material Coating on so that the potential rails are electrically spaced from each other are isolated.

The Phase potential rails are current or distribution rails (in called English bus bar). The phase potential rails correspond to different ones Phases. For example, too three phase potential rails are provided, which are the three phases a three-phase motor correspond. In this case, adjacent phase potential rails each have different potentials.

The second component can be designed, for example, as an attachment piece to the first component. For example, the second component may be implemented as a sheet pile wall ring. When assembled, the first and second components form a well or cavity that provides space for the phase potential rails and an insulating material. The cavity is formed between the first and second components and adjoins the recesses for the phase potential rails. The second component may have two parts, for. B. an inner and an outer wall. The inner wall can z. B. have a smaller circumference or diameter than the outer wall. The inner and the outer wall can z. B. be performed separately and placed respectively on opposite sides of the first component. Alternatively, the inner and outer walls of the second component may be interconnected by webs. The inner and the outer wall of the second component can be positioned perpendicular to the first component and parallel to each other, so that an upwardly open trough is formed. Alternatively, the first and the second component together form a cavity, so that a closed space is formed around the phase potential rails, the openings or Having recesses through which an insulating material can be filled.

The Embodiment of the second component separately from the first component allows first the Embedding the phase potential rails in the first component and a welding from the corresponding to the respective phase potential coil wires with the phase potential rails with good accessibility for the welding tools. After placement of the second component is a dense Vergusswanne formed by, for example, the complete wiring area can be poured with an insulating material. After that insulating material hardens, The first and second components form a unit and remain together. Furthermore, the second component makes a multipart space-consuming Pouring trough, in which the first element would have to be inserted, dispensable and provides with it for a space saving.

According to one embodiment According to the invention, the second component has a first recess for filling of the insulating material. The second component can have several have first recesses, which are dimensioned such that a pour in of the insulating material is possible. The first recess may be continuous, that is, the second component may consist of two parallel side walls and several of these sidewalls consist of cohesive fasteners. The first recess can as upper opening the tub executed be. The insulating material may be, for example, a resin Be plastic or silicone.

According to one another embodiment of the Invention becomes the second device after the phase potential rails are integrated in the first component, for forming the tub or a cavity placed or placed on the second component. In other words Both components are joined together.

According to one another embodiment of the Invention, the second component is configured, with the first Automatically engage component. For this example, locking lugs be arranged on the first component and / or on the second component. additionally or alternatively, a so-called click-and-snap connection can be provided. For example, if locking lugs are provided on the second component, so can corresponding guide elements be provided on the first component. The second component snaps automatically with the first component, that is, with Help the locking lugs and guide elements the second device is positioned with respect to the first device and fixed without being precisely aligned by a user would have to be.

According to one another embodiment of the Invention, the insulating support member is an insulating material with a certain tenacity too viscosity called on. The insulating material is passed through the first recess filled in the second component in the tub and fills them out. The insulating one Material is electrically non-conductive.

According to one another embodiment of the Invention is between the first component and the second component provided at least one second recess. In other words, the Limitations of the tub or the cavity at least a second Have recess. The boundaries of the cavity are through formed the first and second component. Furthermore, more Elements such as a rear wall of a bobbin one Form part of the boundary of the cavity. The second recess can For example, one or more columns that are between the Cavity forming boundaries are present. Here are the dimensions the second recess, so the distances between the boundaries the cavity or the tub-forming elements selected so that the insulating material due to its toughness the second recess can not happen. This means, the insulating material may through a gap or a gap, for example do not drain between the first and second component.

The toughness or viscosity measured in millipascal seconds can be used in resins z. B. 2250 ± 250 mPas (MF8044 UV) or 7000 ± 500 mPas (E 4011 UV). For silicone, the viscosity z. B. with Elastosil RT705 at rest 72500 mPas and dynamic (eg stirred) 13000 mPas amount. With Elastosil RT772, the viscosity can be dynamically 20000 mPas amount. The hardener T77 can z. As a viscosity of 150000 mPas. A mix of RT772 and T77 can z. As a viscosity of 35000 mPas.

According to one another embodiment of the Invention, the second component has a third recess, which has a geometry corresponding to the cross section of a wire, for example of a coil wire corresponds. In other words, the attachment has a special recess adapted to the incoming coil wire is. This area of the second component can be used as a wire break accomplished and, for example, a cross section of a wound coil wire correspond. The dimensions or the geometry of the third Recess chosen so on the one hand manufacturing tolerances of the coil wire, such. B. different winding diameter around pins of bobbins considered are. And on the other hand one possible high seal between the individual components is given.

The Dimensions of the second recess may, for. B. between the outer diameter of the second component and the first component about 0.1 to 0.2 mm. The dimensions of the second recess or the gap between top section and bobbin wall can z. B. 0.2 to 0.4 mm. The dimensions of the third recess or the wire break can z. B. between 0.1 and 0.5 mm. With these dimensions can the insulating material with a toughness of z. B. 35000 mPas the recesses do not happen.

According to one another embodiment of the Invention, the insulating holding element is designed annular. Alternatively, the insulating retaining element be executed oval or as a segment of a ring. By the annular configuration can the insulating support member to the stator of a disc-like be adapted to narrow electric motor.

According to one another embodiment of the Invention, the second component is made in two parts. The second component has an inner ring and an outer ring on, the independent can be mounted and / or latched from each other.

According to one second aspect of the invention, an electric motor is described. In this case, the electric motor has a stator described above with an insulating holding element.

According to one Third aspect of the invention is a process for the preparation a stator having an insulating holding member described above. The method comprises the following steps: providing a first device with recesses for phase potential rails; Insert the Phase potential rails in the first device; Welding on coil wires to the phase potential rails; Placing a second component on the first component, so that the first component and the second Component a adjacent to the phase potential rails pan form; Fill up the tub with an insulating material through the first recess in the second component.

Further Features and advantages of the present invention will become apparent to those skilled in the art from the following description of exemplary embodiments, which, however, should not be construed as limiting the invention Reference is made to the attached drawings.

1 shows a perspective side view of an annular stator with an insulating holding element

2 shows a plan view of the stator in 1

3 shows a cross section of the stator 2 along the line LL

4 shows a cross section of the stator 2 along the line KK

5 shows a perspective side view of a first device with phase potential rails

6 shows a perspective side view of a section of the stator with the first component

7 shows a perspective side view of a section of the stator with the first and second component

8th shows a perspective top view of the second component

All Figures are merely schematic representations of devices according to the invention or their components according to embodiments the invention. In particular distances and size relation are not to scale in the figures played. In the different figures are appropriate Provide elements with the same reference numbers.

In 1 a side perspective view of an annular stator for a narrow motor is shown. The annular stator 25 with the insulating holding element 1 can be used for example in hybrid vehicles. In the embodiment in 1 is a three-phase motor with 36 Do the washing up 27 shown. In 2 is a plan view of the stator off 1 shown. At the in the insulating holding element 1 arranged phase potential rails 3 are so-called projecting lobes 29 arranged. On the protruding cloth 29 are different potentials, here with U, V, W, created.

3 and 4 show different cuts of the in 2 illustrated stator 25 , For example, in 3 a cross section of the stator 2 shown along the line LL. It can be seen how the insulating holding element 1 on the edge of the coils 27 on the stator 25 is arranged. Here are the three phase potential rails 3 in the first component 5 , here designed as a switching ring, integrated. The second component 7 , here executed as an attachment, is similar to a separate sheet pile wall on the first component 5 set. In this case, the second component 7 from an inner wall 37 or inner ring and outer wall 39 or outer ring, which are arranged concentrically. The inner wall 37 and the outer wall 39 can be made separately or by webs 41 be connected to each other.

The representation in 3 shows cross sections of the stator 25 at the height of a coil 27 so that also has a cross section of the coil 27 is visible. Furthermore, in 3 a connecting bridge 41 between inner and outer wall 37 . 39 shown. In 4 is a cross section at the level of a third recess 21 So at the point of a wire break in the inner wall 37 of the second component 7 shown.

In 5 is the first component 5 shown in detail. Three phase potential rails 3 are each in separate recesses 11 of the first component 1 inserted. The phase potential rails 3 have a variety of power lugs 31 on, on the coil wires 23 can be welded. As in the 5 and 6 can be seen, allows the first component 5 optimum accessibility for welding tools at the joints, such as at the current lugs 31 ,

In 6 is shown as that of the coils 27 leading coil wires 23 around cones 35 of the bobbin 33 wrapped and with the streamers 31 are welded. The first component 5 allows a free choice of welding or connection method without limiting the accessibility to the welding flags or lances 31 ,

As in 7 shown, after the welding process, the second component 7 , here executed as an attachment, on the first component 5 be plugged. In 7 is the second component 7 above the first component 5 , It is on the first component 5 stuck and forms a tub shape 9 or a predefined cavity. Due to the resulting trough shape, the complete connection area can be filled with an insulating material (not shown in the figures). The potting compound or the insulating material may, for. As a resin, a plastic or silicone.

The cavity 9 may for example be defined by the height of the side walls of the second component. The second component 7 can be a first recess 13 or have first recess through which the insulating material can be filled. The first recess may for example represent a hole through which the tub 9 or the cavity is filled. Alternatively, the first recess 13 through a missing ceiling over the walls of the second component, as in 7 shown, realized. The limits of the tub 9 or the cavity have a second recess. In other words, between the first component 5 and the second component 7 column 19 available. The dimensions of this column or the second recess 19 are chosen so that after latching the first component 5 with the second component 7 the potting compound is prevented by its toughness at the expiration.

As in 7 shown, the tub can 9 or the cavity can also be limited by other components. An additional element which the tub 9 can limit, for example, the rear wall of the bobbin 33 , In this case, the second component 7 while maintaining a gap with the rear wall of the bobbin 33 complete, so that the resulting gap 19 acts as a labyrinth seal for the potting compound. The grout is passed through the labyrinth seal at the drain from the tub shape 9 prevented. This means an extension of the effective sealing distance to another component, namely the bobbin 33 ,

The attachment piece or the second component 7 also has a third recess 21 on, in the geometry of the incoming coil wire 23 is adjusted. Thus, at this point a high seal is achieved with the largest possible joint gap. The third recess 21 can also be referred to as a wire break and is in its shape and position the wound coil wire 23 ajar.

Furthermore, the first component 5 and / or the second component 7 locking lugs 17 on, so that during assembly an independent fixation is made possible, which makes an additional positioning and / or support during the Vergussprozesses and the subsequent hardening process of the insulating mass superfluous.

The insulating material undergoes a fixed chemical and / or positive connection with the first component during or after the curing process 5 , with the second component 7 and possibly with the phase potential rails 3 one.

In 8th is the annular second component 7 shown in detail. It has an inner wall 37 and an outer wall 39 on, which can be mounted separately and in the embodiment by webs 41 are connected. The second component 7 has z. B. on the inner wall 37 locking lugs 17 on, which can ensure positioning and fixation of the essay. Furthermore, latching elements 43 on the outside wall 39 be provided with the corresponding elements on the first component 5 can intervene.

Finally, it is noted that expression such as "having" or the like should not exclude that other elements or steps may be provided. It should also be noted that "a" or "an" does not exclude a multitude. In addition, features described in connection with the various embodiments may be combined with each other as desired. It is further noted that the reference signs in the claims should not be construed as limiting the scope of the claims.

Claims (10)

Stator ( 25 ) for an electric motor, the stator having a plurality of phase potential rails ( 3 ); characterized in that the stator ( 25 ) further comprises an insulating retaining element ( 1 ) having; the insulating retaining element ( 1 ) a first component ( 5 ), which is designed, the phase potential rails ( 3 ) and to electrically isolate them from each other; the insulating retaining element ( 1 ) a second component ( 7 ), which together with the first component ( 5 ) one to the phase potential rails ( 3 ) adjacent tub ( 9 ) forms; wherein the second component ( 7 ) separately from the first component ( 5 ) is executed. Stator ( 25 ) according to claim 1, wherein the second component ( 7 ) a first recess ( 13 ) for filling an insulating material ( 15 ) having. Stator ( 25 ) according to one of claims 1 and 2, wherein the second component ( 7 ) is configured to form the tub ( 9 ) to the first component ( 5 ) to be plugged. Stator ( 25 ) according to one of claims 1 to 3, wherein the second component ( 7 ) is configured with the first component ( 5 ) automatically lock. Stator ( 25 ) according to one of claims 1 to 4, further comprising an insulating material ( 15 ); the insulating material ( 15 ) has a toughness; the insulating material ( 15 ) the tub ( 9 ) between the first and the second component ( 5 . 7 ). Stator ( 25 ) according to claim 5, wherein between the first component ( 5 ) and the second component ( 7 ) a second recess ( 19 ) is provided; wherein the dimension of the second recess ( 19 ) is selected such that the insulating material ( 15 ) due to its toughness the second recess ( 19 ) can not happen. Stator ( 25 ) according to one of claims 1 to 6, wherein the second component ( 7 ) a third recess ( 21 ) having; wherein the third recess ( 21 ) has a geometry corresponding to the cross section of a wire. Stator ( 25 ) according to one of claims 1 to 7, wherein the insulating retaining element ( 1 ) is annular. Stator ( 25 ) according to one of claims 1 to 8, wherein the second component ( 7 ) an inner wall ( 37 ) and an outer wall ( 39 ) having; the inner wall ( 37 ) and the outer wall ( 39 ) are carried out separately. Electric motor, the electric motor having a stator ( 25 ) according to one of claims 1 to 9.

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