CN104953162B

CN104953162B - Cell winding device

Info

Publication number: CN104953162B
Application number: CN201510387545.7A
Authority: CN
Inventors: 赵伟; 李根发; 罗二天
Original assignee: Dongguan Yakang Precision Machinery Co Ltd
Current assignee: Dongguan Yakang Precision Machinery Co Ltd
Priority date: 2015-06-30
Filing date: 2015-06-30
Publication date: 2017-09-15
Anticipated expiration: 2035-06-30
Also published as: CN104953162A

Abstract

A kind of cell winding device, including multiple winder units, each winder unit includes being divided into first volume pin and two of volume Two pin are rolled up pins, the rotary driving parts to drive this two volume pin synchronous rotaries, two laterally driven portions to drive this two volume pins laterally to act respectively；Wherein, the rotary driving part of each volume pin unit includes first gear axle, the second gear axle being engaged with the volume Two pin, the power transmission shaft to make the first gear axle and the second gear axle synchronous rotary being engaged with the first volume pin；The power transmission shaft is made up of the front and rear first paragraph power transmission shaft being separated from each other and second segment power transmission shaft, it is connected between the first paragraph power transmission shaft and the second segment power transmission shaft and the first gear axle using synchronizing wheel with timing belt fit structure, is connected between the second segment power transmission shaft and the second gear axle using synchronizing wheel with timing belt fit structure.Present invention can assure that the steady high accuracy operation of winding processing.

Description

Cell winding device

Technical field

The present invention relates to a kind of battery process equipment, more particularly to a kind of cell winding device.

Background technology

A kind of existing cell winding device, it includes riser, the switching mechanism being installed on the riser and is installed in Multiple winder units on the switching mechanism, each winder unit corresponds respectively to a station of battery core processing, these windings Unit is driven by the switching mechanism and can switched in these stations；Each winder unit includes two volume pins, to drive The rotary driving part of this two volume pin synchronous rotaries, to drive this two laterally act two of volume pins laterally driven respectively Portion, wherein, when rolling up pin stretching driven for this two, this two volume pins are stacked coiled pin pair, and volume pin pair has can be right Should by coiling material sandwiched accepting groove therein, when this two roll up pins it is driven draw back when, this two volume pins are between setting Every the setting interval can make the battery core of winding depart from the winder unit where it.This two volume pins are divided into first volume pin With volume Two pin；First gear axle that the rotary driving part of each volume pin unit includes being engaged with the first volume pin, with this Second gear axle that the pins of volume two are engaged, the first gear being engaged with the first gear axle, it is engaged with the second gear axle Second gear and power transmission shaft to connect the first gear and the second gear.Two in existing this winder unit The synchronous winding of root volume pin, is to be realized by engaging for gear shaft and travelling gear, is needing to larger-size cylinder When shape battery core is wound, because the size that drive shaft extends along the longitudinal direction is larger, winder unit can be caused to be difficult to ensure that flat Steady high accuracy operation.It can be seen that, it is necessary to be improved existing cell winding device in fact.

The content of the invention

The technical problems to be solved by the invention are to overcome the shortcomings of present in above-mentioned prior art, and propose a kind of electricity Core coiler device, it can be ensured that the steady high accuracy operation of winding processing.

The present invention proposes a kind of cell winding device, including multiple winder units, each winding for above-mentioned technical problem Unit includes being divided into two volume pins, the rotation drive to drive this two volume pin synchronous rotaries of first volume pin and volume Two pin Dynamic portion, two laterally driven portions to drive this two volume pins laterally to act respectively；Wherein, the rotation of each volume pin unit Drive division include be engaged with the first volume pin first gear axle, be engaged with the volume Two pin second gear axle, be used to Make the power transmission shaft of the first gear axle and the second gear axle synchronous rotary；The power transmission shaft is by the front and rear first paragraph being separated from each other What power transmission shaft and second segment power transmission shaft were constituted, between the first paragraph power transmission shaft and the second segment power transmission shaft and the first gear axle It is connected using synchronizing wheel with timing belt fit structure, using synchronizing wheel and together between the second segment power transmission shaft and the second gear axle Step band fit structure is connected.

In certain embodiments, the front end of the first paragraph power transmission shaft and the rear end of the second segment power transmission shaft are installed in one jointly On individual connecting plate.

In certain embodiments, the central axis of the first paragraph power transmission shaft is mutually overlapping with the central axis of the second segment power transmission shaft Close.

In certain embodiments, the synchronizing wheel on different winder units and timing belt fit structure are on front and rear bearing of trend Projection be spaced.

In certain embodiments, the first gear axle and the power transmission shaft be installed in jointly time interval the first fixed plate, In second fixed plate and the 3rd fixed plate；Wherein, it is equiped with rear side of first fixed plate and can be used in consolidating first paragraph biography First fixed mount of moving axis.

In certain embodiments, the second gear axle and the second segment power transmission shaft are installed in the 4th of time interval and consolidated jointly In fixed board and the 5th fixed plate；Wherein, being equiped between the front side of the 3rd fixed plate and the rear side of the 4th fixed plate can The second fixed mount for consolidating the second segment power transmission shaft.

In certain embodiments, the front portion of the rear portion of the first gear axle and the first paragraph power transmission shaft be installed in jointly this In one fixed plate；The middle part of the first gear axle and the rear portion of the second segment power transmission shaft are installed in second fixed plate jointly； The front portion and the middle part of the second segment power transmission shaft of the first gear axle are installed in the 3rd fixed plate jointly.

In certain embodiments, one of the two laterally driven portions include the first center being plugged in the first gear axle Axle, one end of first central shaft is connected with the first volume pin, and first central shaft can laterally be moved with respect to the first gear axle It is dynamic；Another second central shaft including being plugged in the second gear axle in the two laterally driven portions, second central shaft One end is connected with the volume Two pin, and second central shaft can be with respect to the second gear axle transverse shifting.

In certain embodiments, the rear end of the first paragraph power transmission shaft is engaged using synchronizing wheel with a motor.

In certain embodiments, the cell winding device includes three winder units, and these three winder units are in same circle 120 degree of settings are spaced on week two-by-two, each winder unit corresponds respectively to a station of battery core processing.

Compared with prior art, cell winding device of the invention, by the way that power transmission shaft is divided into the first of front and rear extension Section power transmission shaft and second segment power transmission shaft, and make between the first paragraph power transmission shaft and the second segment power transmission shaft and the first gear axle Be connected using synchronizing wheel with timing belt fit structure, between the second segment power transmission shaft and the second gear axle using synchronizing wheel with it is same Step band fit structure is connected, it can be ensured that the steady high accuracy operation of winding processing.

Brief description of the drawings

Fig. 1 is the cross-section structure signal of cell winding device embodiment of the present invention.

Fig. 2 is the side structure signal of cell winding device embodiment of the present invention.

Wherein, description of reference numerals is as follows:

The first works of fixed mechanism P1 of 1 first 2 second the 3rd winder unit of winder unit 3 of winder unit 5 Position P2 the second station P3 3rd stations

The first gear axle of 101 synchronizing wheel, 102 first paragraph power transmission shaft, 103 synchronizing wheel, 104 timing belt 105 The second gear axle of 106 timing belt, 107 synchronizing wheel, 108 second segment power transmission shaft, 109 synchronizing wheel, 110 timing belt 111

The first volume pin of 130 first 140 first pin mouth of central shaft 150

The volume Two pin of 160 second 170 second pin mouth of central shaft 180

201 synchronizing wheel, 202 first paragraph power transmission shaft, 203 synchronizing wheel, 204 timing belt, 206 timing belts 207 are same The timing belt of 209 synchronizing wheel of step 208 second segment power transmission shaft of wheel 210

301 synchronizing wheel, 302 first paragraph power transmission shaft, 303 synchronizing wheel, 304 timing belt, 306 timing belts 307 are same The timing belt of 309 synchronizing wheel of step 308 second segment power transmission shaft of wheel 310

The fixed plate 505 the 5th of 501 first 502 second the 3rd fixed plate 504 of fixed plate 503 of fixed plate the 4th The fixed mount of 506 connecting plate of fixed plate, 507 first fixed mount 508 second.

Embodiment

Below in conjunction with the accompanying drawing of this specification, give presently preferred embodiments of the present invention further elaboration.

Referring to Fig. 1 and Fig. 2, Fig. 1 is the cross-section structure signal of cell winding device embodiment of the present invention.Fig. 2 is the present invention The side structure signal of cell winding device embodiment.The cell winding device of the present invention is generally comprised：Fixed mechanism 5 and installing Correspond to the first station P1 the first winder unit 1, the second winder unit corresponding to the second station P2 on the fixed mechanism 5 2 and the 3rd winder unit 3 corresponding to 3rd station P3.These three winder units 1,2,3 are spaced two-by-two on same circumference 120 degree of settings.It is appreciated that the structure of each winder unit 1,2,3 is essentially identical, below by taking the first winder unit 1 as an example, It is described in detail.

First winder unit 1 generally comprise synchronizing wheel 101, first paragraph power transmission shaft 102, synchronizing wheel 103, timing belt 104, First gear axle 105, timing belt 106, synchronizing wheel 107, second segment power transmission shaft 108, synchronizing wheel 109, timing belt 110, the second tooth Wheel shaft 111, the first central shaft 130, the first pin mouth 140, first volume pin 150, the second central shaft 160, the second pin mouth 170 and The pins 180 of volume two.

Specifically, first winder unit 1 include being divided into two volume pins of first volume pin 150 and volume Two pin 180, To drive this two volume pins 150, the rotary driving part of 180 synchronous rotaries, to drive this two volume pins 150,180 horizontal respectively The two laterally driven portions acted to ground.Wherein, the rotary driving part includes the first gear being engaged with the first volume pin 150 Axle 105, the second gear axle 111 being engaged with the volume Two pin 180, to make the first gear axle 105 and the second gear The power transmission shaft of the synchronous rotary of axle 111.The power transmission shaft is by the front and rear first paragraph power transmission shaft 102 and second segment power transmission shaft being separated from each other 108 compositions.Using synchronous between the first paragraph power transmission shaft 102 and the second segment power transmission shaft 108 and the first gear axle 105 Wheel 103,107 is connected with timing belt 104,106 fit structures.Adopted between the second segment power transmission shaft 108 and the second gear axle 111 It is connected with synchronizing wheel 109 with the fit structure of timing belt 110.Driven using synchronizing wheel 101 and one rear end of the first paragraph power transmission shaft 102 Dynamic motor（It is not shown）It is engaged.

Wherein, when rolling up pin 150,180 stretching driven for this two, this two volume pins 150,180 are stacked coiled pin pair, Volume pin pair, which has, can correspond to coiling material sandwiched accepting groove therein, and when this two volumes, pin 150,180 is driven takes out Hui Shi, this two volume pins 150,180 are at a distance of interval is set, and the setting interval can make the battery core of winding depart from the volume where it Around unit.

The fixed mechanism 5 is generally comprised：First fixed plate 501, the second fixed plate 502, the 3rd fixed plate the 503, the 4th are consolidated Fixed board 504, the 5th fixed plate 505, connecting plate 506, the first fixed mount 507 and the second fixed mount 508.

Specifically, the rear end of the front end of the first paragraph power transmission shaft 102 and the second segment power transmission shaft 108 company of being installed in jointly On fishplate bar 506.It is preferred that the central axis of the first paragraph power transmission shaft 102 is mutually overlapping with the central axis of the second segment power transmission shaft 108 Close.The first fixed plate 501, second that the first gear axle 105 is installed in time interval jointly with the power transmission shaft 102,108 is fixed In the fixed plate 503 of plate 502 and the 3rd；Wherein, the rear side of first fixed plate 501, which is equiped with, can be used in consolidating first paragraph biography First fixed mount 507 of moving axis 102.

In the present embodiment, the rear portion of the first gear axle 105 and the front portion of the first paragraph power transmission shaft 102 are installed in jointly In first fixed plate 501；The middle part of the first gear axle 105 and the rear portion of the second segment power transmission shaft 108 are installed in this jointly In second fixed plate 502；Front portion and the middle part of the second segment power transmission shaft 108 of the first gear axle 105 be installed in jointly this In three fixed plates 503.

The second gear axle 111 and the second segment power transmission shaft 108 be installed in jointly time interval the 4th fixed plate 504 and In 5th fixed plate 505.Wherein, it is equiped with energy between the front side of the 3rd fixed plate 503 and the rear side of the 4th fixed plate 504 It is enough in the second fixed mount 508 of the firm second segment power transmission shaft 108.

One of the two laterally driven portions include the first central shaft 130 being plugged in the first gear axle 105, and this first One end of central shaft 130 is connected via the first pin mouth 140 with the first volume pin 150, first central shaft 130 can with respect to this The transverse shifting of one gear shaft 105；The two laterally driven portions it is another including being plugged in second in the second gear axle 111 Heart axle 160, one end of second central shaft 160 is connected via the second pin mouth 170 with the volume Two pin 180, second central shaft 160 can be with respect to the transverse shifting of second gear axle 111.

It is noted that synchronizing wheel 103 on different winder units 1,2,3,203,303,107,207,307,109, 209th, 309 with the fit structure of timing belt 104,204,304,106,206,306,110,210,310 on front and rear bearing of trend Projection is spaced.This structure, can make it that whole cell winding device is compact in the extreme, save space.

Compared with prior art, cell winding device of the invention, by the way that power transmission shaft is divided into the first of front and rear extension Section power transmission shaft 102 and second segment power transmission shaft 108, and make the first paragraph power transmission shaft 102 and the second segment power transmission shaft 108 with this first Be connected between gear shaft 105 with timing belt 104,106 fit structures using synchronizing wheel 103,107, the second segment power transmission shaft 108 It is connected between the second gear axle 111 using synchronizing wheel 109 with the fit structure of timing belt 110, it can be ensured that winding processing Steady high accuracy operation.

The above is only presently preferred embodiments of the present invention, is not intended to limit embodiment of the present invention, and this area is general Logical technical staff can very easily carry out corresponding flexible or change according to the central scope and spirit of the present invention, therefore this The protection domain of invention should be defined by the protection domain required by claims.

Claims

1. a kind of cell winding device, including multiple winder units, each winder unit include being divided into first volume pin and second Two of volume pin roll up pins, the rotary driving parts to drive this two volume pin synchronous rotaries, to drive this two volume pins respectively The two laterally driven portions laterally acted；Characterized in that, each the rotary driving part of volume pin unit includes and the first volume First gear axle that pin is engaged, the second gear axle being engaged with the volume Two pin, to make the first gear axle and this The power transmission shaft of two gear shaft synchronous rotaries；The power transmission shaft is by the front and rear first paragraph power transmission shaft and second segment power transmission shaft being separated from each other Constitute, matched somebody with somebody between the first paragraph power transmission shaft and the second segment power transmission shaft and the first gear axle using synchronizing wheel with timing belt Close structure to be connected, be connected between the second segment power transmission shaft and the second gear axle using synchronizing wheel with timing belt fit structure.

2. according to the cell winding device described in claim 1, it is characterised in that the front end of the first paragraph power transmission shaft with this second The rear end of section power transmission shaft is installed on a connecting plate jointly.

3. according to the cell winding device described in claim 1, it is characterised in that the central axis of the first paragraph power transmission shaft is with being somebody's turn to do The central axis of second segment power transmission shaft coincides.

4. according to the cell winding device described in claim 1, it is characterised in that synchronizing wheel on different winder units with it is synchronous Projection with fit structure on front and rear bearing of trend is spaced.

5. according to the cell winding device described in claim 1, it is characterised in that the first gear axle is filled jointly with the power transmission shaft It is located in the first fixed plate of time interval, the second fixed plate and the 3rd fixed plate；Wherein, the rear side installing of first fixed plate There is the first fixed mount that can be used in consolidating the first paragraph power transmission shaft.

6. according to the cell winding device described in claim 5, it is characterised in that the second gear axle and the second segment power transmission shaft It is installed in jointly in the 4th fixed plate of time interval and the 5th fixed plate；Wherein, the front side and the 4th of the 3rd fixed plate The second fixed mount that can be used in consolidating the second segment power transmission shaft is equiped between the rear side of fixed plate.

7. according to the cell winding device described in claim 5, it is characterised in that the rear portion of the first gear axle and the first paragraph The front portion of power transmission shaft is installed in first fixed plate jointly；The middle part of the first gear axle and the rear portion of the second segment power transmission shaft It is installed in jointly in second fixed plate；The front portion and the middle part of the second segment power transmission shaft of the first gear axle are installed in this jointly In 3rd fixed plate.

8. according to the cell winding device described in claim 1, it is characterised in that one of the two laterally driven portions include plugging The first central shaft in the first gear axle, one end of first central shaft is connected with the first volume pin, first central shaft Can be with respect to the first gear axle transverse shifting；The two laterally driven portions it is another including being plugged in the second gear axle Second central shaft, one end of second central shaft is connected with the volume Two pin, and second central shaft can be with respect to the second gear Axle transverse shifting.

9. according to the cell winding device described in claim 1, it is characterised in that the rear end of the first paragraph power transmission shaft is using synchronous Wheel is engaged with a motor.

10. according to the cell winding device described in any one of claim 1 to 9, it is characterised in that the cell winding device includes Three winder units, these three winder units are spaced 120 degree of settings two-by-two on same circumference, and each winder unit is corresponded to respectively In a station of battery core processing.