APPARATUS AND METHOD FOR FORMING A CONDUCTOR PACKET

Abstract

The invention relates to a device and method for forming a conductor pack provided for inserting into a stator or rotor, wherein the device in this regard comprises an inner holding device with receiving portions arranged along an outer circumference of the inner holding device and provided for receiving, at least in sections, first rod sections with first conductor ends of substantially U-shaped conductor elements, a positioning device for pre-positioning second rod sections with second conductor ends of the conductor elements, which second rod sections are connected to the first rod sections by a substantially arc-shaped connection section, at least one gripping device arrangeable around the inner holding device in the circumferential direction with gripping elements adjustable in the radial direction towards the inner holding device, said gripping device being formed for gripping rod section pairs, each formed from a pre-positioned second rod section and an adjacent, first rod section, and, in this regard, the receiving portions are dimensioned such that the first rod sections are rotatably receivable in the receiving portions at least in sections, and the positioning device, for pre-positioning the second rod sections, comprises a positioning element spaced apart from the inner holding device outwards in the radial direction, which positioning element is circumferentially drivable in the circumferential direction of the inner holding device and simultaneously adjustable radially inwards.

Claims

1. A method for forming a conductor pack provided for inserting into a stator or rotor, comprising the following steps: providing a plurality of substantially U-shaped conductor elements, each having a first rod section, a first conductor end, a second rod section, and a second conductor end, wherein the first rod section and the second rod section of each conductor element are connected by a substantially arc-shaped connection section; receiving, at least in part, the first rod sections in receiving portions, wherein the receiving portions are formed along an outer circumference of an inner holding device; pre-positioning the second rod sections by utilizing a positioning device to place a respective second rod section proximate a respective first rod section of another conductor element; and gripping, with gripping elements of at least one gripping device circumferentially arranged around the inner holding device, rod section pairs each pair formed from a pre-positioned second rod section and a first rod section adjacent in a radial direction, the gripping elements guided in the radial direction towards the inner holding device; wherein prior to pre-positioning of the second rod sections, the first rod sections are rotatably received in the receiving portions at least in part, and the second rod sections are arranged annularly in a free-standing manner around the outer circumference of the inner holding device and spaced apart from the outer circumference outwards in the radial direction, and, for pre-positioning, the second rod sections (6) are pressed by a positioning element of the positioning device, said positioning element being guided in the circumferential direction and simultaneously in the radial direction towards the outer circumference of the inner holding device, and wherein the conductor elements are each rotated around a first rod longitudinal axis of the first rod sections, which are rotatably received in the receiving portions at least in part.

2. The method according to claim 1, wherein during the providing, receiving and pre-positioning, the conductor elements are each contacted at the first and the second rod sections by one lever, which is rotatably formed around the first rod longitudinal axis of the respective first rod sections, and wherein the lever, during the pre-positioning, guides the second rod sections in the circumferential and the radial directions through an inward pivotal movement, associated with the pressing movement of the second rod sections by the positioning element.

3. The method according to claim 1, wherein during the providing, receiving and pre-positioning, the conductor elements are each contacted at the second rod section by one guide groove of at least one link, and wherein during the pre-positioning of the second rod sections, the second rod sections are guided in the circumferential and radial directions by the positioning element.

4. The method according to claim 1, wherein the positioning element is formed by a roller element rotatably arranged at the positioning device, and wherein the roller element, during the pre-positioning of the second rod sections, rolls on the second rod sections or is actively driven to roll on the second rod sections.

5. The method according to claim 1, wherein the receiving portions for the first rod sections are formed by receiving grooves which are open outwards and run in the axial direction, and wherein the first rod sections are received in said receiving grooves at least in part, wherein, during the receiving of the first rod sections and during the pre-positioning of the second rod sections, a sleeve is arranged around the first rod sections at least in part, the sleeve directly adjacently surrounds the first rod sections outwards in the radial direction and, during the pre-positioning, secures the first rod sections against being displaced outwards in the radial direction.

6. The method according to claim 5, wherein the second rod sections are applied to an outer sleeve shell surface of the sleeve for the pre-positioning.

7. The method according to claim 5, wherein, after the pre-positioning of the second rod sections, the sleeve is shifted in the axial direction with respect to the inner holding device downward into an area of the second conductor ends of the second rod sections, and that afterwards, the second conductor ends of the pre-positioned second rod sections are pressed by the positioning element or the gripping elements of the gripping device into positioning grooves circumferentially arranged in an upper end area at the sleeve, wherein the positioning grooves open upwards.

8. The method according to claim 1, wherein in an area of the second conductor ends of the second rod sections, a guiding element with positioning grooves opening upwards is arranged, and wherein during the gripping process, the second conductor ends of the pre-positioned second rod sections are pressed into the positioning grooves by the gripping elements of the gripping device.

9. The method according to claim 1, wherein during the pre-positioning of the conductor elements, the first conductor ends of the first rod sections are supported in the axial direction by a supporting device having at least one supporting surface.

10. The method according to claim 9, wherein during the pre-positioning of the second rod sections, the first rod section of at least one of the conductor elements is mounted by at least one height-adjustable supporting surface of the supporting device in a height different from other conductor elements.

11. The method according to claim 1, wherein in an area of the first conductor ends of the first rod sections, a groove ring is arranged, wherein the groove ring has a circumference where securement grooves are arranged, the securement grooves opening outwards and vertical, and wherein the first conductor ends of the first rod sections are introduced into said securement grooves prior to the pre-positioning of the second rod sections.

12. A pre-positioning device for forming a conductor pack provided for inserting into a stator or rotor, comprising: an inner holding device with receiving portions arranged along an outer circumference of the inner holding device and provided for receiving, at least in part, first rod sections with first conductor ends, the first rod sections of conductor elements having a substantially U-shape; a positioning device for pre-positioning second rod sections with second conductor ends, the second rod sections of the conductor elements, wherein the second rod sections are connected to the first rod sections by a substantially arc-shaped connection section; at least one gripping device having gripping elements, the at least one gripping device arrangeable around the inner holding device in a circumferential direction with the gripping elements adjustable in a radial direction towards the inner holding device, said gripping device being formed for gripping rod section pairs, each rod section pair formed from a pre-positioned second rod section and an adjacent, first rod section; wherein the receiving portions are dimensioned such that the first rod sections are rotatably receivable in the receiving portions at least in part, and the positioning device for pre-positioning the second rod sections comprises a positioning element spaced apart from the inner holding device outwards in the radial direction, wherein the positioning element is circumferentially drivable in the circumferential direction of the inner holding device and simultaneously adjustable radially inwards.

13. The pre-positioning device according to claim 12, wherein a lever guiding device having a number of levers corresponding to the number conductor elements is formed, wherein the levers are bow-shaped with a predeterminable lever length and two lever arms, which are horizontally extended and point in the same direction, wherein the first lever arm comprises one respective first rod section receiving portion having a shape compatible with the first rod section of the conductor element, and wherein the second lever arm comprises one respective second rod section receiving portion having a shape compatible with the second rod section of the conductor element, and wherein the levers are each rotatably mounted around a first rod section receiving portion axis, which is aligned with a first rod longitudinal axis of the respective first rod sections, and wherein the levers are distributed in the circumferential direction and offset in the axial direction such that all levers are pivotable inwards in the circumferential direction.

14. The pre-positioning device according to claim 12, wherein a link having a number of guide grooves corresponding to the number of conductor elements is formed, wherein the guide grooves are arcuate, starting from an inner diameter facing the inner holding device and formed as openings penetrating the link in the axial direction, the circumferential direction, and the radial direction.

15. The pre-positioning device according to claim 12, wherein the positioning element is formed by a roller element rotatably arranged at the positioning device, wherein said roller element is rotatably mounted without a drive or operatively connected to a drive member for actively driven rotation.

16. The pre-positioning device according to claim 12, wherein the receiving portions for the first rod sections are formed by receiving grooves, which are open outwards and run in the axial direction, and wherein a sleeve is formed, which is arranged below the receiving grooves, wherein the sleeve has an inner sleeve diameter such that the sleeve forms a limitation for the first rod sections outwards in the radial direction.

17. The pre-positioning device according to claim 16, wherein the sleeve comprises positioning grooves arranged in an upper end area in the circumferential direction and the grooves open upwards, and wherein the positioning grooves are formed for receiving the second conductor ends of the second rod sections.

18. The pre-positioning device according to claim 12, wherein a guiding element with positioning grooves is formed, and wherein the positioning grooves are formed for receiving the second conductor ends of the second rod sections.

19. The pre-positioning device according to claim 12, wherein a supporting device having at least one supporting surface is formed, and wherein the supporting device is provided for axially supporting the first rod sections.

20. The pre-positioning device according to claim 19, wherein the supporting device comprises at least one height-adjustable supporting surface.

21. The pre-positioning device according to claim 12, wherein a groove ring having a groove ring circumference is formed, and wherein securement grooves are arranged at the groove ring circumference, the securement grooves opening outwards and vertical, the securement grooves formed for receiving, at least in part, the first conductor ends of the first rod sections.

Description

[0059] The following is shown in the figures in highly simplified, schematic representation:

[0060] FIG. 1 embodiment of a pre-positioning device;

[0061] FIG. 2 examples of differently configured conductor elements;

[0062] FIG. 3 excerpt from an embodiment of a pre-positioning device with a plurality of levers (a); example of a lever (b); enlarged excerpt from an embodiment where the levers have been pivoted inwards in the circumferential direction after pre-positioning;

[0063] FIG. 4 excerpt from an embodiment of a pre-positioning device with a link and a plurality of guide grooves (a); enlarged excerpt from a link with pre-positioned second rod sections;

[0064] FIG. 5 excerpt from an embodiment of a pre-positioning device with a sleeve in an upper or lower position and a groove ring;

[0065] FIG. 6 excerpt from an embodiment of a pre-positioning device with a supporting device;

[0066] FIG. 7 embodiment of a pre-positioning device with a pivotable positioning device or gripping device (a), or with a shiftable inner holding device (b).

[0067] First of all, it should be noted that in the embodiments described in different ways, identical parts are given identical reference numbers or identical component names, and the disclosures contained in the entire description may be correspondingly applied to identical parts with identical reference numbers or identical component names. Moreover, the position indications used in the description, such as at the top, at the bottom, lateral, etc. directly refer to the figure shown and described, and, if a position changes, said position indications are to be correspondingly applied to the new position.

[0068] One embodiment of the pre-positioning device 34 according to the invention is shown in FIG. 1. The holding device 2 comprises a vertical main axis, which serves as the reference axis. The axial direction 19 is parallel to the vertical main axis of the inner holding device 2. The holding device 2 comprises an outer circumference 16, at which a plurality of receiving portions 10 can be seen. The receiving portions 10 may be configured as closed receiving portions 10 or, as shown in FIG. 1, as receiving grooves 11, in which the first rod sections 3 may be received at least in parts. For simplifying the representation, only five conductor elements 1 are shown.

[0069] Furthermore, in FIG. 1, a positioning device 12 is shown, which is arranged above the inner holding device 2 in the embodiment. In this regard, the positioning device 12 comprises a positioning element 13, which is shiftable or movable in the radial direction 18 and rotatably configured in the circumferential direction 17. Moreover, the positioning element 13 may be configured, for example, as a roller element 23, which is additionally rotatable around a vertical roller axis, as shown in FIG. 1. The positioning device 12 may further comprise a drive member 44, which may be provided for driving the positioning device 12 and/or the positioning element 13. It is also possible that additional drive members 44 are attached at the positioning device 11, the positioning element 13, and also at the holding device 2, for example in order to accomplish shifting of the positioning element 13 or the positioning device 12 relative to the inner holding device 2.

[0070] In FIG. 1 and particularly in FIG. 2, some examples of conductor elements 1 can be seen. The first and the second rod sections 3, 6 of a conductor element 1 are connected by a substantially arc-shaped connection section 8 and comprise a first 4 or second conductor end 7. Like the first and second rod sections 3, 6, said connection sections 8 may have different lengths, depending on the provided arrangement and thus on the distance to be bridged in the conductor pack to be formed. As shown in FIG. 2, conductor elements 1 with first or second rod sections 3, 6 of different lengths may be used. In addition, for the first rod section 3, a first rod longitudinal axis 5 can be seen, around which a rotational movement of the second rod section 6 is performed during pre-positioning.

[0071] For the pre-positioning process, different supporting elements may be used as a kind of alignment aid. In FIG. 3 and FIG. 4, the use of a lever guiding device 35 or a link 22 is shown by way of example.

[0072] The lever guiding device 35 in FIG. 3a comprises a number of levers 20 corresponding to the number of conductor elements 1, which levers are each couplable with the first and the second rod section 3, 6 of a conductor element 1. Such a lever 20 is schematically shown in FIG. 3b. Each lever 20 comprises at least one first rod section receiving portion 38, which is intended for temporarily connecting with at least one section of a first rod section 3. The first rod section receiving portion 38 comprises a first rod section receiving portion axis 41, which runs along the receiving portion opening and is thus normally oriented towards the longitudinal extension of the lever 20. When the levers 20 are used, said rod section receiving portion axis 41 meets the first rod longitudinal axis 5 of the conductor elements 1 during pre-positioning. This means that a joint rotation axis is formed, around which the respective second rod section 6 is rotated. Each lever 20 further comprises a first lever arm 37 or a second lever arm 39, wherein the two lever arms 37, 39 are connected with each other through connecting paths. The entire length of a lever 20 may correspond to the predetermined position of the conductor element 1 and thus to the length of the connecting section 8 of the assigned conductor elements 1, and is accordingly selected by the person skilled in the art. The levers 20 in FIG. 3a-c further comprise a second rod section receiving portion 40, which is provided for temporarily receiving and especially guiding the second rod sections 6.

[0073] The state prior to pre-positioning is symbolically shown in FIG. 3a. In this regard, the provided conductor elements 1 are arranged in the inner holding device 2 with their first rod sections 3. In the represented form, the levers 20 are positioned relatively close to the respective conductor ends 4, 7. The levers 20 may also be arranged along the rod longitudinal axis 5 in the axial direction 19 at other positions, preferably offset from each other. However, the levers 20 should be prevented from colliding during pre-positioning. A simple variation is shown in FIG. 3a, wherein the lever guiding device 35 is shown, for example, as a disc with rotatably mounted spacer sleeves to the individual levers 20. Of course, the levers 20 may be arranged in a different way by the person skilled in the art, or connection sections of the individual levers 20 of different shapes may even be used. It is crucial to allow unimpeded pivotal or rotational movement of the levers 20 or the conductor elements 1 in the circumferential direction 17 to position the second rod sections 6 at the provided first rod sections 3 of another conductor element 1. A final state after pre-positioning that may thus be achieved can be seen in FIG. 3c. The person skilled in the art clearly understands that in this regard, the levers 20 ensure guiding of the second rod sections 6, which allows exact positioning. Subsequent process steps of gripping, transferring and/or inserting are not explained here in detail.

[0074] By analogy with FIG. 3a and FIG. 3c, the use of a link 22 with guiding grooves 21 can be seen from FIG. 4a and FIG. 4b. However, for simplifying the representation, only some conductor elements 1 are shown. FIG. 4a shows the state prior to pre-positioning, in which providing of the conductor elements 1 can be seen. By means of the rotational movement of the positioning device 12 during pre-positioning, the second rod sections 6 are rotated along the guiding grooves 21 to their provided first rod sections 3 of another conductor element 1. As shown in FIG. 4a and FIG. 4b, the guide grooves 21 of the link 22 are formed as openings continuously extending in the axial direction, which are arcuate in the circumferential 17 and radial directions 18 from an inner diameter 42 facing the inner holding device 2. In FIG. 4b, a preliminary end position after pre-positioning of the second rod sections 6 is shown.

[0075] In FIG. 5, an example of an inner holding device 2 with some conductor elements 1 is shown. Furthermore, a sleeve 24 can be seen, which is shiftable in the axial direction 19 at least up to an upper position corresponding to a flush closure of the upper end area 26 of the sleeve 24 with the upper side of the inner holding device 2. The inner sleeve diameter 43 may be selected such that the first rod sections 3 are prevented from falling out by the sleeve 24 in the radial direction 18. This way, during pre-positioning, i.e. during the inward pivotal movement of the second rod sections 6 in the circumferential 17 and the radial directions 18 to the first rod sections 3, the second rod sections 6 may, for example, be applied to the sleeve shell surface 25 of the sleeve 24. In the representation chosen in FIG. 5, the sleeve 24 is in a lower position; this way, the second rod sections 6 are freely movable and may thus be applied flush with the first rod sections 3. As can be further seen in FIG. 5, the sleeve 24 may comprise positioning grooves 27 in the upper end area 26, which run outwards in the radial direction 18 and are open upwards in the axial direction 19. Said positioning grooves 27 may serve for receiving the second conductor ends 7 of the second rod sections 6 and may therefore have different groove depths in the axial direction 19, corresponding to the individual length of the second rod sections 6.

[0076] Moreover, embodiments are shown by way of example in FIG. 5 and FIG. 6 which comprise a groove ring 31 with a groove ring circumference 32. At the groove ring 31, securement grooves 33 are arranged, which are open outwards in the radial direction 18 and vertical. The groove ring 31 may, for at least temporarily supporting the first rod sections 3, be shiftable in the securement grooves 33 in the axial direction 19 and is preferably arranged in the area of the first conductor ends 4 in this regard.

[0077] As an alternative to a shiftable sleeve 24 in FIG. 5, a guiding element 28 with positioning grooves 27 may be provided. By analogy with the positioning grooves 27 of the sleeve 24, the positioning grooves 27 serve for receiving the second conductor ends 7 of the second rod sections 6 for facilitating temporary guiding of the second conductor ends 7 in the axial 19, circumferential 17 and/or radial directions 18. At this point, no separate representation of such a guiding element 28 is made, and reference is made to FIG. 5.

[0078] In FIG. 6, an embodiment is shown which shows a supporting device 29 with a plurality of supporting surfaces 30, which are horizontal. Said supporting surfaces 30 serve for supporting the first rod sections 3 in the axial direction 19. The supporting device 29 shown comprises a disc element, which is divided several times in the circumferential direction 17 and serves as a stop for the first conductor ends 4 in the axial direction 19. In addition, in the circumferential direction 17, said disc element is open in the axial direction 19 the positions provided for this purpose, and at said positions, extensions of a further disc element arranged below in the axial direction 19 can be seen. This way, in the exemplary representation, all first conductor ends 4 are temporarily kept at the same vertical position. The construction of the supporting device 29 may thus be accordingly adapted such that, in the axial direction 19, associated supporting surfaces 30 are provided for the conductor elements 1 of different lengths at positions provided for this purpose in the circumferential direction 17. In this regard, a distance between the two disc elements of the supporting device 29 which are shown in FIG. 6 can be seen, which may be reduced when one of the two disc elements is shifted in the axial direction 19; this way, at least individual supporting surfaces 30 of the supporting device 29 are shiftable in the axial direction 19. This way, only selectable conductor elements 1 may be shifted or lifted in the axial direction. The second rod sections 6 shown in FIG. 6 have been rotated in the circumferential direction 17 for correct pre-positioning with respect to the first rod sections 3 provided for this purpose without adjacent conductor elements 1 colliding with each other. Bridging of different distances by the respective conductor elements 1 to the correct positioning in accordance with the interconnection pattern can be easily understood with the example of the longer conductor element in FIGS. 5 and 6. After pre-positioning, the height-adjustable supporting surface 30 of the extensions of the lower disc element may, for example, be lowered to the same height position of the other supporting surfaces 30 of the upper disc element.

[0079] According to the present invention, it is conceivable that both the positioning device 12 and the gripping device 14 may be pivotable or movable, as schematically shown in FIG. 7a. In this regard, the positioning device 12 and/or the gripping device 14 are preferably shiftable in the axial direction 19.

[0080] Furthermore, an alternative arrangement of the positioning device 12 and of the gripping device 14 is conceivable, according to which the inner holding device 2 is shiftable and/or height-adjustable with respect to the stationarily arranged positioning device 12 and the gripping device 14. Such an exemplary variation is shown in FIG. 7b. In this regard, the basic functions and movement possibilities of the pre-positioning device 34 are not influenced by the arrangement of the individual sub-devices.

[0081] As shown in FIGS. 7a and 7b, the gripping device 14 may comprise gripping elements 15 shiftable in the radial direction 18. In this regard, the gripping elements 15 are formed such that they may at least temporarily secure the conductor elements 1 after pre-positioning, and that the adjusted position of the first and second rod sections 3, 6 is thus no longer changed during a possible transfer or insertion into a rotor or stator. The person skilled in the art is aware of different embodiments of such gripping elements 15; however, for the present invention, using link-guided and segmented gripping elements 15 is particularly advantageous.

[0082] The embodiments show possible variations; however, it should be noted at this point that the invention is not limited to its variations specifically shown; rather, various combinations of the individual variations are possible, and this variation possibility based on the technical teaching of the present invention is subject to the skills of the person skilled in the art active in this technical field.

[0083] The scope of protection is determined by the claims. However, the description and the drawings are to be used for construing the claims. The individual features or feature combinations of the different embodiments shown and described may constitute independent inventive solutions. The object underlying the independent inventive solutions may be gathered from the description.

[0084] All indications of ranges of values in the present description are to be understood such that they also include any and all sub-ranges therefrom; for example, the indication 1 to 10 is to be understood such that all sub-ranges are included, starting at the lower limit 1 up to the upper limit 10; i.e. all sub-ranges start with a lower limit of 1 or larger and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.

[0085] As a matter of form, it should finally be noted that for better understanding of the structure, some of the elements have been represented unscaled and/or enlarged and/or in reduced size.

TABLE-US-00001 List of reference numbers 1 conductor element 2 holding device 3 first rod section 4 first conductor end 5 first rod longitudinal axis 6 second rod section 7 second conductor end 8 connection section 9 rod section pair 10 receiving portions 11 receiving groove 12 positioning device 13 positioning element 14 gripping device 15 gripping element 16 outer circumference 17 circumferential direction 18 radial direction 19 axial direction 20 lever 21 guide groove 22 link 23 roller element 24 sleeve 25 sleeve shell surface 26 upper end area 27 positioning groove 28 guiding element 29 supporting device 30 supporting surface 31 groove ring 32 groove ring circumference 33 securement groove 34 pre-positioning device 35 lever guiding device 36 lever length 37 first lever arm 38 first rod section receiving portion 39 second lever arm 40 second rod section receiving portion 41 first rod section receiving portion axis 42 inner diameter 43 inner sleeve diameter 44 drive member