CN203386608U - Full-automation wire winder - Google Patents

Abstract

The utility model discloses a full-automation wire winder. The full-automation wire winder comprises an upper die seat and a lower die seat which are correspondingly arranged, the lower die seat is provided with a coil positioning rod, and the upper die seat is provided with a wire winding unit; the wire winding unit comprises a rotating shaft, the center of the rotating shaft is provided with an ejector, so that the rotating shaft can abut against the coil positioning rod; the rotating shaft is connected with a guide needle, and a wire guiding hole of the guide needle is provided with a wire body in a penetrating mode. Therefore, when the rotating shaft rotates, the guide needle can by driven to rotate synchronously to arrange the wire body arranged on the guide needle in the penetrating mode onto the coil positioning rod for winding to form a coil, further, the coil winding process can be completed automatically, precisely and rapidly, and the modern industrial requirements of high productivity and low cost can be met.

Description

Fully automatic wire winding machine

Technical field

The utility model relates to a kind of fully automatic wire winding machine, especially a kind of can be accurately and fast and automation complete coil and make, reach the fully automatic wire winding machine of high production capacity, low-cost benefit.

Background technology

In electronics, machine field, the various different sizes of Chang Kejian, shape coil are widely used on all polyelectrons, motor product.General electronics, motor product coil that manufactory is used, provided by coiling factory mostly, coiling factory can be according to electronics, motor product manufactory the demand to wire rod, the coil of coiling required size and shape, to facilitate electronics, the use of motor product manufactory.

When wish is made coil, the existing factory that winds the line is by required size, the coil winding mold of shape is assembled on workbench, carry out again the coiling of coil with manpower, and with manpower coiling work both time-consuming effort, and the coil winding operation process is very dull, the staff repeats this monotonous work program for a long time, its coil is made quality and efficiency reduces unavoidably, and be limited to the work hours restriction, the staff also can't coordinate and work long hours, especially along with electronics now, motor product gets over compactization development, electronics, small flattening is also got over relatively for the coil demand by motor product manufactory, so that the coiling of using manpower to carry out this micro-coil has more difficulty, more be not suitable for carrying out the coil winding operation with manpower.

The utility model content

For solve in aforementioned prior art with manpower carry out coil winding already do not met the modern times stress high production capacity and cheaply industry demand and also being difficult to be applicable to the shortcoming of the coiling operation of micro-coil, the utility model provides a kind of fully automatic wire winding machine, this fully automatic wire winding machine can be accurately and fast and automation complete coil and make, be a kind of fully automatic wire winding machine that can reach high production capacity, low-cost benefit.

The utility model for the technical scheme that solves its technical problem employing is: a kind of fully automatic wire winding machine, comprise and be provided with body, and group is provided with corresponding upper bolster and die shoe on this body, be provided with the coil location bar in this die shoe again, separately in this upper bolster group, be provided with coiling unit, this coiling unit includes rotating shaft, and be provided with the top heart in this rotating shaft center, this top heart offsets and contacts with this coil location bar, in this rotating shaft, is connected with guide pin, and is provided with wire guide in this guide pin.

Fully automatic wire winding machine as above, wherein, the rotating shaft center of this coiling unit is provided with the vertical hole of group, and be equipped with a top heart fixed lever in the vertical hole of this group, the end group that this top heart fixed lever is positioned at outside the vertical hole of this group is provided with this top heart, and the other end that this top heart fixed lever is positioned at the vertical hole of this group offsets and contacts with an elastic component of being located at the vertical hole of this group.

Fully automatic wire winding machine as above, wherein, this coil location bar upper end class convexes with a winding section.

Fully automatic wire winding machine as above, wherein, this body is installed with the lifting drive source, and the driving section in this lifting drive source and this upper bolster mutually group establish.

Fully automatic wire winding machine as above, wherein, on this die shoe, group is provided with a plurality of coil location bars, and the plurality of coil location bar is arranged in a row, include again many these coil location bars of row on this die shoe, this coiling unit is a plurality of, and a plurality of this coiling unit is arranged in a row, and a plurality of these coil location bars of arranging that a plurality of these coiling unit of this row are established with group on this die shoe are corresponding.

Fully automatic wire winding machine as above, wherein, this body is installed with the feeding power source, and the driving section in this feeding power source and this upper bolster mutually group establish.

Fully automatic wire winding machine as above, wherein, this fully automatic wire winding machine also includes the first tension disc, and this first tension disc is positioned at this coiling unit side, be connected with the first lifting drive source in this upper bolster again, and the driving section in this first lifting drive source and this first tension disc mutually group establish.

Fully automatic wire winding machine as above, wherein, this fully automatic wire winding machine also includes the second tension disc, and this second tension disc is positioned at this first tension disc side, be connected with the second lifting drive source in this upper bolster again, and the driving section in this second lifting drive source and this second tension disc mutually group establish.

Fully automatic wire winding machine as above, wherein, this fully automatic wire winding machine also includes the first tension disc, and this first tension disc is positioned at this coiling unit side.

Fully automatic wire winding machine as above, wherein, this fully automatic wire winding machine also includes the second tension disc, and this second tension disc is positioned at by this first tension disc.

The beneficial effects of the utility model are: when the rotating shaft of fully automatic wire winding machine of the present utility model rotates, the synchronous guide pin that drives rotates, so that be arranged in the line body of guide pin, be set around on the coil location bar, accurately and fast to complete various sizes, shape coil, so the accurate making such as micro-coil, accordingly, significantly promote coil quality stability and coil production usefulness, simultaneously, effectively save the expenditure of human cost, to meet modern high production capacity, industry demand cheaply.

The accompanying drawing explanation

Below in conjunction with accompanying drawing, fully automatic wire winding machine described in the utility model is elaborated.

Fig. 1 is the front view of fully automatic wire winding machine described in the utility model.

Fig. 2 is the coiling unit cutaway view.

Fig. 3 is that circle is tied up the fixedly enforcement state diagram of start line body.

Fig. 4 is the enforcement state diagram that coiling unit rises and resets.

Fig. 5 is the enforcement state diagram that coiling unit is fed to first row coil location bar.

Fig. 6 is the enforcement state diagram that the first tension disc presses the line body.

Fig. 7 is that coiling unit is carried out the enforcement state diagram of coil winding in first row coil location bar.

Fig. 8 is that the second tension disc presses the enforcement state diagram in the coil location boom end.

Fig. 9 is that the first tension disc continues and presses the enforcement state diagram in the line body.

Figure 10 is the enforcement state diagram that the first tension disc and the second tension disc reset.

The main element symbol description

1. body 2. die shoes

21. coil location bar 22. winding sections

23. line body fixed lever 3. upper bolsters

4. coiling unit 41. bearings

42. 421. groups of vertical holes of rotating shaft

43. the top heart fixed lever 431. top hearts

44. elastic component 45. guide pins

451. wire guide 5. thread depressing mechanisms

51. the first tension disc 52. driving sections

53. the second tension disc 54. driving sections.

Embodiment

For the effect that makes technological means of the present utility model and can reach, can have more complete and clearly disclose, hereby be described in detail as follows, see also the graphic and figure number of exposure:

At first, referring to shown in Fig. 1, is fully automatic wire winding machine of the present utility model, mainly body 1, die shoe 2, upper bolster 3, coiling unit 4, thread depressing mechanism 5, is consisted of; Wherein:

This die shoe 2, be fixedly arranged on body 1, and it is a plurality of to be provided with a row in these die shoe 2 upper surface groups, and is the coil location bar 21 that many rows arrange, convex with winding section 22 in these coil location bar 21 upper end classes again, separately in the initiating terminal place of die shoe 2 group, establish cable body fixed lever 23;

This upper bolster 3, be positioned at this die shoe 2 tops, and corresponding with die shoe 2, be provided with again lifting drive source and feeding power source with body 1 Joint, and the driving section that makes this lifting drive source and feeding power source and upper bolster 3 group are mutually established, to drive respectively the upper and lower start of upper bolster 3 and forward and backward displacement;

This coiling unit 4, see also shown in Fig. 2, upper bolster 3 bottom faces are located in position, be to be a plurality of settings of a row, and a plurality of coiling unit 4 that make this row with group on this die shoe 2, establish one to arrange a plurality of coil location bars 21 corresponding, and this coiling unit 4 consists predominantly of the bearing 41 be connected with group with upper bolster 3, and make these bearing 41 its shaft hole sleeves be connected to rotating shaft 42, be equipped with top heart fixed lever 43 again in the vertical hole 421 of these rotating shaft 42 its central. set, and the end groups that this top heart fixed lever 43 is positioned at outside the vertical hole 421 of group are provided with the top heart 431, the other end that this top heart fixed lever 43 is positioned at the vertical hole 421 of group again founds with group the elastic component 44 of establishing in hole 421 and offsets and contact, make again this rotating shaft 42 be positioned at top heart fixed lever 43 sides and be connected with the guide pin set up 45 adjacent with top heart fixed lever 43, and be penetrated with wire guide 451 in these guide pin 45 centers,

This thread depressing mechanism 5, include the first tension disc 51, be to make this first tension disc 51 be positioned at this coiling unit 4 rears, and the driving section 52 that makes this first tension disc 51 and the first lifting drive source that is fixed in upper bolster 3 mutually group establish, be provided with the second tension disc 53 in these the first tension disc 51 rears again, and its driving section 54, the second lifting drive source that makes this second tension disc 53 and another be fixed in upper bolster 3 mutually group establish.

Accordingly, when carrying out the coiling of coil, see also shown in Fig. 3, by coiling unit 4, first line body circle is tied on the line body fixed lever 23 of fixing use, and resetted by lifting drive source drive upper bolster 3 and the coiling unit 4 of upper bolster 3, as shown in Figure 4, then, see also shown in Fig. 5, feeding power source 3 groups of coiling unit of establishing 4 of drive upper bolster by upper bolster 3 are moved to first row coil location bar 21 tops again, and make the lifting drive source of upper bolster 3 drive upper bolster 3 toward die shoe 2 direction decline displacements.

See also shown in Fig. 6, in upper bolster 3 toward die shoe, 2 direction displacements simultaneously, drive is mounted on the coiling unit 4 of upper bolster 3 bottom faces towards first row coil location bar 21 feedings that are mounted on die shoe 2, so that coiling unit 4 its top hearts 431 contact at 22 tops, winding section of coil location bar 21, and utilize group to connect the spring damping of top heart fixed lever 43 other end institute tool elastic components 44 of the top heart 431, can avoid the top heart 431 and coil location bar 21 its winding section 22 damaged in collision, after coiling unit 4 its top hearts 431 contact at 22 tops, winding section of coil location bar 21, trigger 3 groups of first lifting drive sources of establishing of upper bolster and drive the first down start of tension disc 51, the line body be connected with as for 4 of the coiling unit of first row coil location bar 21 with the coil by winding moulding on line body fixed lever 23 and feeding presses in die shoe 2 upper surfaces, according to this, to avoid coiling unit 4 when first row coil location bar 21 carries out coil winding, traction has been enclosed the line body that is tied to line body fixed lever 23 and has been got loose, in the first tension disc 51, the line body is pressed fixing after, coiling unit 4 its rotating shafts 42 rotate immediately, now, be fixed in the guide pin 45 of rotating shaft 42 along with rotating shaft 42 synchronously rotates, the line body be arranged in guide pin 45 its wire guides 451 is wound on the winding section 22 of coil location bar 21 in rotating, so that the coiling of line body is formed to coil, after the coiling that completes coil, rotating shaft 42 just stops operating, the first lifting drive source of another the first tension disc 51 drives the first tension disc 51 risings and resets, as shown in Figure 7.

Then, the lifting drive source of upper bolster 3 drives upper bolster 3 and rises, and drive the 3 groups of side's of establishing coiling unit 4 of upper bolster away from coil location bar 21 simultaneously, after upper bolster 3 rises to location, thereupon, the feeding power source of upper bolster 3 drive again upper bolster 3 move forward to, and drive upper bolster 3 and coiling unit 4 declines by the lifting drive source of upper bolster 3, so that the top heart 431 of coiling unit 4 is conflicted with the winding section 22 of the coil location bar 21 of second row, when second row coil location bar 21 is wound the line, see also shown in Fig. 8, the the second lifting drive source that is mounted on upper bolster 3 drives the second tension disc 53 and descends, so that the second tension disc 53 contacts at first row coil location bar 21 its 22 tops, winding section, then, see also shown in Fig. 9, the first lifting drive source drives the first tension disc 51 again and descends, so that the first tension disc 51 presses on the line body be connected with in coil to 4 of the coiling unit that is positioned at second row coil location bar 21 of first row coil location bar 21 winding moulding, by this, utilize the first tension disc 51 and 53 pairs of line bodies of the second tension disc and the winding formed coil press location, effectively to prevent that coiling unit 4 is when second row coil location bar 21 carries out coil winding, traction destroys the first row coil of winding moulding, completed again the coiling of coil in second row coil location bar 21 by coiling unit 4.

When coiling unit 4 after second row coil location bar 21 completes coil winding, see also shown in Figure 10, synchronously rise in the first lifting drive source and the second lifting drive source, to drive the first tension disc 51 and the second tension disc 53 resets, thereupon, the lifting drive source of upper bolster 3 drives upper bolster 3 again and coiling unit 4 rises, and carry out coil winding by feeding power source drive coiling unit 4 to the 3rd row coil location bar 21 places of upper bolster 3, according to this, repeat aforementioned implementation step, just can complete by row the coil winding operation of the number row coil location bar 21 that on die shoe 2, group is established.

In this, enforcement by fully automatic wire winding machine of the present utility model, can accurately and fast complete various sizes, shape coil, and even the accurate making such as micro-coil, compared to the existing mode of utilizing the manpower coiling, fully automatic wire winding machine of the present utility model can not only significantly promote coil quality stability and coil production usefulness, simultaneously, more can effectively save the expenditure of human cost, to meet modern high production capacity, industry demand cheaply.

Aforesaid embodiment or graphic and non-limiting fully automatic wire winding machine of the present utility model are implemented the sample state, in all affiliated technical fields, have and usually know the suitably variation that the knowledgeable does or modify, and all should be considered as not breaking away from fully automatic wire winding machine patent category of the present utility model.

In sum, embodiment described in the utility model really can reach expected effect, its disclosed concrete structure again, not only be not seen in like product, before also not being disclosed in application, really met regulation and the requirement of Patent Law fully, the application of new patent is proposed in accordance with the law, earnestly ask and give examination, and grant quasi patent, the true feeling moral just.

Claims (10)

1. a fully automatic wire winding machine, it is characterized in that, comprise and be provided with body, and group is provided with corresponding upper bolster and die shoe on this body, be provided with the coil location bar in this die shoe again, separately in this upper bolster group, be provided with coiling unit, this coiling unit includes rotating shaft, and is provided with the top heart in this rotating shaft center, and this top heart offsets and contacts with this coil location bar, be connected with guide pin in this rotating shaft, and be provided with wire guide in this guide pin.

2. fully automatic wire winding machine as claimed in claim 1, it is characterized in that, the rotating shaft center of this coiling unit is provided with the vertical hole of group, and be equipped with a top heart fixed lever in the vertical hole of this group, the end group that this top heart fixed lever is positioned at outside the vertical hole of this group is provided with this top heart, and the other end that this top heart fixed lever is positioned at the vertical hole of this group offsets and contacts with an elastic component of being located at the vertical hole of this group.

3. fully automatic wire winding machine as claimed in claim 1, is characterized in that, this coil location bar upper end class convexes with a winding section.

4. fully automatic wire winding machine as claimed in claim 1, is characterized in that, this body is installed with the lifting drive source, and the driving section in this lifting drive source and this upper bolster mutually group establish.

5. fully automatic wire winding machine as claimed in claim 4, it is characterized in that, on this die shoe, group is provided with a plurality of coil location bars, and the plurality of coil location bar is arranged in a row, include again many these coil location bars of row on this die shoe, this coiling unit is a plurality of, and a plurality of this coiling unit is arranged in a row, and a plurality of these coil location bars of arranging that a plurality of these coiling unit of this row are established with group on this die shoe are corresponding.

6. fully automatic wire winding machine as claimed in claim 5, is characterized in that, this body also is installed with the feeding power source, and the driving section in this feeding power source and this upper bolster mutually group establish.

7. fully automatic wire winding machine as claimed in claim 6, it is characterized in that, this fully automatic wire winding machine also includes the first tension disc, this first tension disc is positioned at this coiling unit side, be connected with the first lifting drive source in this upper bolster again, and the driving section in this first lifting drive source and this first tension disc mutually group establish.

8. fully automatic wire winding machine as claimed in claim 7, it is characterized in that, this fully automatic wire winding machine also includes the second tension disc, this second tension disc is positioned at this first tension disc side, be connected with the second lifting drive source in this upper bolster again, and the driving section in this second lifting drive source and this second tension disc mutually group establish.

9. fully automatic wire winding machine as claimed in claim 1, is characterized in that, this fully automatic wire winding machine also includes the first tension disc, and this first tension disc is positioned at this coiling unit side.

10. fully automatic wire winding machine as claimed in claim 9, is characterized in that, this fully automatic wire winding machine also includes the second tension disc, and this second tension disc is positioned at this first tension disc side.

Images