Abstract
The invention relates to a rotor for an electric machine, comprising at least one first (22) and a second (32) conductor end and a contact element, which provides a connection between the at least two conductor ends (22, 32), and wherein the contact element can be positioned along a rotor axis (R) of the rotor in such a way that the connection can be established in an intermediate position, which is offset away from the rotor in relation to an end position of the contact element.
Claims
1-14. (canceled)
15. A rotor for an electric machine, comprising: at least one first conductor end and one second conductor end; and a contact element configured to provide a connection between the at least one first conductor end and one second conductor end, wherein the contact element is positionable along a rotor axis of the rotor in an intermediate position relative to an end position of the contact element, offset axially away from a winding of the rotor.
16. The rotor according to claim 15, wherein the contact element is arranged in or on the rotor in the end position.
17. The rotor according to claim 15, wherein the first conductor end is a winding end of the winding of the rotor, and the second conductor end is a terminal of a slip ring module.
18. The rotor according to claim 17, wherein the contact element includes a guide element is arranged in a receptacle of the rotor.
19. The rotor according to claim 18, wherein the contact element includes a support element configured to hold or to arrest the contact element in the intermediate position.
20. The rotor according to claim 19, wherein the contact element has two fastening portions for arrangement with and connection to the first conductor end and the second conductor end, and the fastening portions are deformable.
21. The rotor according to claim 20, wherein the receptacle includes two corresponding receptacle portions for the fastening portions.
22. The rotor according to claim 21, wherein the receptacle is formed in a face-side insulation of the rotor.
23. An electric motor, comprising: a stator; and a rotor, the rotor including at least one first conductor end and one second conductor end and a contact element configured to provide a connection between the at least one first conductor end and one second conductor end, wherein the contact element is positionable along a rotor axis of the rotor in an intermediate position relative to an end position of the contact element, offset axially away from a winding of the rotor.
24. A method for producing a rotor, comprising the acts of: winding a rotor, the rotor having at least one first conductor end and one second conductor end; connecting the at least two conductor ends to a contact element, the contact element being positioned in an intermediate position with respect to a rotor axis of the rotor; and displacing the contact element axially into an end position either during or after the connecting act.
25. The method according to claim 24, further comprising the acts of: arranging a slip ring module on or against the rotor in the intermediate position, the slip ring module having the second conductor end; moving the slip ring module together with the contact element axially toward the rotor winding into the end position, wherein the first conductor end is formed by a winding end of a winding of the rotor.
26. The method according to claim 25, further comprising the act of: forming a connection by plastic deformation of the contact element.
27. The method according to claim 26, wherein the contact element is held in the intermediate position prior to the act of moving into the end position.
28. The method according to claim 27, wherein the contact element is deformed during the act of moving into the end position as the contact element is moved into the end position.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0036] FIG. 1 shows a schematic side view of a rotor for explaining the problem;
[0037] FIG. 2 shows a schematic partial view of a rotor in accordance with the present invention in an intermediate position;
[0038] FIG. 3 shows a schematic partial view of the detail, known from FIG. 2, of a rotor in an end position;
[0039] FIG. 4 shows two detail views of embodiments of a contact element in an intermediate position and in an end position in accordance with the present invention;
[0040] FIG. 5 shows a detail view of a contact element and of a slip ring module in an intermediate position in accordance with the present invention.
DETAILED DESCRIPTION OF THE DRAWINGS
[0041] FIG. 1 shows a side view of a rotor which extends along a rotor axis R. Said rotor is a wound rotor having a winding 20. Reference sign 30 denotes a slip ring module which, via two terminals 32, is connected in an electrically conductive manner to corresponding conductor ends 22 of the winding 20. It can clearly be seen that this connection is arranged very close to a rotor laminated core (not denoted in any more detail here) of the rotor. It is easily conceivable that, under these conditions, it is extremely difficult for the terminals 32 to be connected to the winding ends 22, in particular in large-series production.
[0042] FIG. 2 then shows, in a schematic illustration, substantially the rotor known from FIG. 1, this however being rotated such that one terminal 32 of a slip ring module 30 projects, as it were, out of the plane of the paper. Reference sign 22 denotes a winding end of a winding 20. As a special feature, it can then be seen that a connection or contacting between the terminal 32 and the winding end 22 is realized via a contact element 40. This is displaced by an offset x with respect to a reference surface 70. For the purpose of better orientation, the reference surface 70 is also depicted in FIG. 1. FIG. 2 shows, at least schematically, that significantly more space is available for the connection of the contact element 40 to, or the contacting thereof with, the terminal 32 or the winding end 22.
[0043] FIG. 3 then shows the configuration known from FIG. 2 with the transition into an end position. In comparison with FIG. 2, an offset x with reference to the reference surface 70 has been reduced. As a consequence, two of the major advantages become clear, specifically that significantly more space is available for the contacting of the slip ring module 30 with, or the connection thereof to, the winding 20, and also the rotor as such requires very little structural space due to the pushing-together.
[0044] FIG. 4 shows two detail views of a contact element 40, in an intermediate position on the left, and in an end position on the right. The contact element 40 comprises a guide element 42, by means of which it is arranged in a receptacle 10, which is approximately slot-shaped at this position. The receptacle 10 furthermore has a receptacle portion 12 which serves for the arrangement of a fastening portion 46 of the contact element 40. The fastening portion 46 has substantially a U shape, with a first conductor end, in particular a winding end 22, being placed into this U or bowl shape. In the right-hand half of the figure, that is to say in the end position, the fastening portion 46 is advantageously deformed such that a support portion 44, which is provided for abutment against a holding portion or a holding surface 14, is no longer in abutment, whereby a displacement of the contact element 40 along an arrangement direction A (depicted by an arrow) in the direction of a rotor (not illustrated here) is possible. According to a preferred embodiment, the winding end 22 is crimped to the contact element 40, and in particular to the fastening portion 46, wherein the fastening portion 46 is in this case deformed. This is not illustrated in FIG. 4, however. This deformation may be configured such that, or the contact element 40 may be designed such that, only after the deformation is the fitting of the latter into the receptacle 10, or the arrangement thereof there, at all possible. Reference sign 16, furthermore, denotes an extension which is designed such that it effects a relief of tension when the contact element 40 or the winding end 22 is displaced along the arrangement direction A. Expediently, the receptacle 10, and the receptacle portion 12, the holding surface 14 and the extension 16, are formed in an insulation, in particular in an insulation applied on the end side, for example in a star-shaped-disk or face-disk insulation of the rotor, or are shaped there, for example by injection molding.
[0045] In the present case, only half of the contact element 40 is illustrated. However, this is expediently of symmetrical form and accordingly has two fastening portions 46. The other fastening portion (not illustrated here) is provided for example for the arrangement of a second conductor end, cf. for example FIG. 5 in this respect.
[0046] FIG. 5 shows a detail of a rotor in which a slip ring module 30 can be seen, said slip ring module having a second conductor end 32 or a terminal 32. For the purpose of better orientation, an axis of rotation R is shown. Reference sign 40 denotes essentially the contact element known from FIG. 4, wherein it can be seen how the guide surface 42 thereof engages into a receptacle 10, or is held there, wherein it is arranged in the receptacle 10 in a displaceable manner. An intermediate position is illustrated here too, in which intermediate position the terminal 32 is arranged in a fastening portion 46 of the contact element 40, wherein, in said intermediate position, the contact element 40 is still supported via a support element 44 against a correspondingly formed holding surface 14 such that inadvertent displacement toward the rotor is prevented. An arrangement of the fastening portion 46 into the receptacle portion 12 is realized after or during the connection of the contact element 40 to the terminal 32. The receptacle 10, along with its other formations, such as the receptable portion 12, holding surface 14, etc., is formed in an insulation 60 of the rotor.
[0047] The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.
LIST OF REFERENCE SIGNS
[0048] 10 Receptacle [0049] 12 Receptacle portion [0050] 14 Holding portion, holding surface [0051] 16 Extension [0052] 20 Winding [0053] 22 First conductor end, winding end [0054] 30 Slip ring module [0055] 32 Second conductor end, terminal [0056] 40 Contact element [0057] 42 Guide element [0058] 44 Support element [0059] 46 Fastening portion [0060] 60 Insulation [0061] 70 Reference surface [0062] R Rotor axis [0063] x Offset [0064] A Arrangement direction
