CN204967563U - Skeleton wire winding structure - Google Patents
Skeleton wire winding structure Download PDFInfo
- Publication number
- CN204967563U CN204967563U CN201520780205.6U CN201520780205U CN204967563U CN 204967563 U CN204967563 U CN 204967563U CN 201520780205 U CN201520780205 U CN 201520780205U CN 204967563 U CN204967563 U CN 204967563U
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- China
- Prior art keywords
- backup pad
- supporting plate
- lower supporting
- upper backup
- line structure
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Abstract
The utility model provides a skeleton wire winding structure belongs to mechanical technical field. It has solved the current problem that skeleton wire winding structure application scope is little. This skeleton wire winding structure, the wire winding die carrier that has the pivot including the rear end, the front end of wire winding die carrier has mutual parallel arrangement's last backup pad and bottom suspension fagging, should go up backup pad and axis symmetry set up of bottom suspension fagging along the pivot, it is equipped with a plurality of skeleton coils to go up to overlap between backup pad and the bottom suspension fagging, the front end of wire winding die carrier has the guide slot of vertical setting, the part that should go up backup pad and bottom suspension fagging stretches into to the guide slot in, the wire winding is equipped with on the die carrier and is used for the drive to go up the drive unit that backup pad and bottom suspension fagging moved along the guide slot, the front end of going up backup pad and bottom suspension fagging is equipped with the anticreep unit that is used for preventing the skeleton coil and comes off. The utility model has the advantages of structural design is reasonable, application scope is wide.
Description
Technical field
The utility model belongs to field of mechanical technique, relates to a kind of backbone winding line structure.
Background technology
Plastic skeleton is before being encased in stator core, and need by enamelled wire coiling on plastic skeleton, this process is realized by winding structure.This winding structure comprise be arranged on coil winding machine in shaft-like winding module frame, plastic skeleton is set on winding module frame, between adjacent two plastic skeletons, be provided with dividing plate.During work, winding module frame rotate, drive plastic skeleton rotate, simultaneously by many enamelled wire coilings on different plastic skeletons.Conveniently plastic skeleton is nested on winding module frame, between plastic skeleton four corner angle inside and winding module frame, there is gap, when automatic coil winding machine is in winding process, due to the pulling force of enamelled wire, plastic skeleton four corner angle compressing distortion is damaged, after causing enamelled wire to load stator core, producing electric leakage becomes defective item, adds motor manufacturing cost; Enamelled wire is after complete, and the extruding that plastic skeleton is subject to line is shunk, and plastic skeleton is difficult to take out from winding module frame, loads stator core difficulty, time-consuming, reduces productivity.And this winding structure can only the skeleton of coiling formed objects, can not the skeleton of other sizes of coiling, the scope of application is little.
Summary of the invention
The purpose of this utility model there are the problems referred to above for existing technology, proposes a kind of reasonable in design, backbone winding line structure applied widely.
The purpose of this utility model realizes by following technical proposal:
This backbone winding line structure, comprise the winding module frame that rear end has rotating shaft, the front end of described winding module frame has upper backup pad arranged in parallel and lower supporting plate, this upper backup pad and lower supporting plate are arranged along the axisymmetrical of rotating shaft, some shaped framework coils are arranged with between described upper backup pad and lower supporting plate, it is characterized in that, the front end of described winding module frame has the guide groove vertically arranged, the part of this upper backup pad and lower supporting plate stretches in guide groove, described winding module frame is provided with for driving upper backup pad and lower supporting plate along the driver element of guide groove movement, the front end of described upper backup pad and lower supporting plate is provided with the anti-disengagement unit for preventing shaped framework coil from coming off.
In above-mentioned backbone winding line structure, the rear end of described upper backup pad has the connecting portion one stretched in guide groove, described connecting portion one is connected with above-mentioned driver element, the rear end of described lower supporting plate has the connecting portion two stretched in guide groove, and described connecting portion two is connected with above-mentioned driver element.
In above-mentioned backbone winding line structure, described driver element comprises the through hole be vertically located in winding module frame, be located at top shoe in through hole and sliding block, the sidewall of described through hole is communicated with the sidewall of above-mentioned guide groove, above-mentioned connecting portion one is connected with top shoe, above-mentioned connecting portion two is connected with sliding block, is provided with for driving top shoe and sliding block along the heterodromous actuator of through hole in described through hole.
In above-mentioned backbone winding line structure, the lower beam that described actuator comprises upper boom and coaxially arranges with upper boom, described upper boom is provided with dextrorotation external screw thread, and described lower beam is provided with derotation external screw thread, above-mentioned top shoe is threaded with upper boom, and above-mentioned sliding block is threaded with lower beam.
In above-mentioned backbone winding line structure, the upper end of described upper boom is provided with knob.
In above-mentioned backbone winding line structure, described anti-disengagement unit is be located at the baffle plate of upper backup pad and lower supporting plate front end, the middle part of described baffle plate has the mounting groove vertically arranged, be equipped with two bolts be connected with upper backup pad and lower supporting plate respectively in described mounting groove, the bar head of this bolt is resisted against on baffle plate.
In above-mentioned backbone winding line structure, between two adjacent shaped framework coils, be provided with the dividing plate be sheathed between upper backup pad and lower supporting plate.
Drive upper boom and lower beam to rotate by rotating knob simultaneously, thus drive top shoe and sliding block to do motion in the other direction, make upper backup pad and lower supporting plate reach assigned address; Shaped framework coil and dividing plate are set in successively between upper backup pad and lower supporting plate, the distance again by regulating upper boom and lower beam to regulate upper backup pad and lower supporting plate, makes shaped framework coil be clamped; Then baffle plate is installed to the front end of upper backup pad and lower supporting plate, prevents shaped framework coil from coming off when coiling; The rotating shaft of shaped framework coil is inserted in coil winding machine, drives winding module frame to rotate by coil winding machine, realize enamelled wire coiling on shaped framework coil.
Compared with prior art, this backbone winding line structure has the following advantages:
The shaped framework coil of different size can be adapted to, applied widely; By regulating upper boom and lower beam can realize upper backup pad and lower supporting plate counteragent simultaneously, simple to operate, regulate fast, effectively save the set-up time of shaped framework coil; Baffle plate is set between upper backup pad and lower supporting plate, can effectively prevents coming off of shaped framework coil, the intensity of upper backup pad and lower supporting plate can be strengthened simultaneously, make its good stability.
Accompanying drawing explanation
Fig. 1 is the cutaway view of a kind of preferred embodiment that the utility model provides.
Fig. 2 is the transverse sectional view at upper backup pad place in Fig. 1 of providing of the utility model.
Fig. 3 is the structural representation of the baffle plate that the utility model provides.
In figure, 1, winding module frame; 11, rotating shaft; 12, guide groove; 13, through hole; 2, upper backup pad; 21, connecting portion one; 3, lower supporting plate; 4, shaped framework coil; 51, top shoe; 52, sliding block; 61, upper boom; 62, lower beam; 63, knob; 7, baffle plate; 71, mounting groove; 8, dividing plate.
Embodiment
Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.
Backbone winding line structure as shown in Figure 1, comprise the winding module frame 1 that rear end has rotating shaft 11, the front end of winding module frame 1 has upper backup pad 2 arranged in parallel and lower supporting plate 3, this upper backup pad 2 is arranged with the axisymmetrical of lower supporting plate 3 along rotating shaft 11, some shaped framework coils 4 are arranged with between upper backup pad 2 and lower supporting plate 3, the front end of winding module frame 1 has the guide groove 12 vertically arranged, this upper backup pad 2 stretches in guide groove 12 with the part of lower supporting plate 3, winding module frame 1 is provided with for driving upper backup pad 2 and the driver element of lower supporting plate 3 along guide groove 12 movement, upper backup pad 2 is provided with the anti-disengagement unit for preventing shaped framework coil 4 from coming off with the front end of lower supporting plate 3.
As shown in Figure 2, the rear end of upper backup pad 2 has the connecting portion 1 stretched in guide groove 12, and connecting portion 1 is connected with driver element, and the rear end of lower supporting plate 3 has the connecting portion two stretched in guide groove 12, and connecting portion two is connected with driver element.
As shown in Figure 1, driver element comprises the through hole 13 be vertically located in winding module frame 1, be located at top shoe 51 in through hole 13 and sliding block 52, the sidewall of through hole 13 is communicated with the sidewall of above-mentioned guide groove 12, connecting portion 1 is connected with top shoe 51, connecting portion two is connected with sliding block 52, is provided with for driving top shoe 51 and sliding block 52 along the heterodromous actuator of through hole 13 in through hole 13.
As shown in Figure 1, actuator comprises upper boom 61 and the lower beam 62 that arrange coaxial with upper boom 61, and upper boom 61 is provided with dextrorotation external screw thread, and lower beam 62 is provided with derotation external screw thread, and top shoe 51 is threaded with upper boom 61, and sliding block 52 is threaded with lower beam 62.
In the present embodiment, as shown in Figure 1, the upper end of upper boom 61 is provided with knob 63.
As shown in Figure 1, anti-disengagement unit is be located at the baffle plate 7 of upper backup pad 2 and lower supporting plate 3 front end, as shown in Figure 3, the middle part of baffle plate 7 has the mounting groove 71 vertically arranged, be equipped with two bolts be connected with upper backup pad 2 and lower supporting plate 3 respectively in mounting groove 71, the bar head of this bolt is resisted against on baffle plate 7.
As shown in Figure 1, the dividing plate 8 be sheathed between upper backup pad 2 and lower supporting plate 3 is provided with between two adjacent shaped framework coils 4.
Drive upper boom 61 and lower beam 62 to rotate by rotating knob 63 simultaneously, thus drive top shoe 51 and sliding block 52 to do motion in the other direction, make upper backup pad 2 and lower supporting plate 3 reach assigned address; Shaped framework coil 4 and dividing plate 8 being set between upper backup pad 2 and lower supporting plate 3 successively, again by regulating upper boom 61 and lower beam 62 to regulate upper backup pad 2 and the distance of lower supporting plate 3, shaped framework coil 4 being clamped; Then baffle plate 7 is installed to upper backup pad 2 and the front end of lower supporting plate 3, prevents shaped framework coil 4 from coming off when coiling; The rotating shaft 11 of shaped framework coil 4 is inserted in coil winding machine, drives winding module frame 1 to rotate by coil winding machine, realize enamelled wire coiling on shaped framework coil 4.
Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.
Claims (7)
1. a backbone winding line structure, comprise the winding module frame (1) that rear end has rotating shaft (11), the front end of described winding module frame (1) has upper backup pad (2) arranged in parallel and lower supporting plate (3), this upper backup pad (2) is arranged with the axisymmetrical of lower supporting plate (3) along rotating shaft (11), some shaped framework coils (4) are arranged with between described upper backup pad (2) and lower supporting plate (3), it is characterized in that, the front end of described winding module frame (1) has the guide groove (12) vertically arranged, this upper backup pad (2) stretches in guide groove (12) with the part of lower supporting plate (3), described winding module frame (1) is provided with for driving upper backup pad (2) and the driver element of lower supporting plate (3) along guide groove (12) movement, described upper backup pad (2) is provided with the anti-disengagement unit for preventing shaped framework coil (4) from coming off with the front end of lower supporting plate (3).
2. backbone winding line structure according to claim 1, it is characterized in that, the rear end of described upper backup pad (2) has the connecting portion one (21) stretched in guide groove (12), described connecting portion one (21) is connected with above-mentioned driver element, the rear end of described lower supporting plate (3) has the connecting portion two stretched in guide groove (12), and described connecting portion two is connected with above-mentioned driver element.
3. backbone winding line structure according to claim 2, it is characterized in that, described driver element comprises the through hole (13) be vertically located in winding module frame (1), be located at the top shoe (51) in through hole (13) and sliding block (52), the sidewall of described through hole (13) is communicated with the sidewall of above-mentioned guide groove (12), above-mentioned connecting portion one (21) is connected with top shoe (51), above-mentioned connecting portion two is connected with sliding block (52), be provided with in described through hole (13) for driving top shoe (51) and sliding block (52) along through hole (13) heterodromous actuator.
4. backbone winding line structure according to claim 3, it is characterized in that, described actuator comprises upper boom (61) and the lower beam (62) that arrange coaxial with upper boom (61), described upper boom (61) is provided with dextrorotation external screw thread, described lower beam (62) is provided with derotation external screw thread, above-mentioned top shoe (51) is threaded with upper boom (61), and above-mentioned sliding block (52) is threaded with lower beam (62).
5. backbone winding line structure according to claim 4, is characterized in that, the upper end of described upper boom (61) is provided with knob (63).
6. backbone winding line structure according to claim 1, it is characterized in that, described anti-disengagement unit is for being located at the baffle plate (7) of upper backup pad (2) and lower supporting plate (3) front end, the middle part of described baffle plate (7) has the mounting groove (71) vertically arranged, be equipped with two bolts be connected with upper backup pad (2) and lower supporting plate (3) respectively in described mounting groove (71), the bar head of this bolt is resisted against on baffle plate (7).
7. backbone winding line structure according to claim 1, is characterized in that, is provided with the dividing plate (8) be sheathed between upper backup pad (2) and lower supporting plate (3) between two adjacent shaped framework coils (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520780205.6U CN204967563U (en) | 2015-10-10 | 2015-10-10 | Skeleton wire winding structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520780205.6U CN204967563U (en) | 2015-10-10 | 2015-10-10 | Skeleton wire winding structure |
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CN204967563U true CN204967563U (en) | 2016-01-13 |
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CN201520780205.6U Expired - Fee Related CN204967563U (en) | 2015-10-10 | 2015-10-10 | Skeleton wire winding structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107470803A (en) * | 2017-08-08 | 2017-12-15 | 上海电器陶瓷厂有限公司 | A kind of mica sheet skeleton |
CN113746281A (en) * | 2021-08-03 | 2021-12-03 | 西安航天动力测控技术研究所 | Coil winding template and ultra-small volume coil forming method |
-
2015
- 2015-10-10 CN CN201520780205.6U patent/CN204967563U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107470803A (en) * | 2017-08-08 | 2017-12-15 | 上海电器陶瓷厂有限公司 | A kind of mica sheet skeleton |
CN107470803B (en) * | 2017-08-08 | 2019-03-08 | 上海电器陶瓷厂有限公司 | A kind of mica sheet skeleton |
CN113746281A (en) * | 2021-08-03 | 2021-12-03 | 西安航天动力测控技术研究所 | Coil winding template and ultra-small volume coil forming method |
CN113746281B (en) * | 2021-08-03 | 2023-02-17 | 西安航天动力测控技术研究所 | Coil winding template and ultra-small volume coil forming method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160113 Termination date: 20161010 |