CN204204983U - Dual Drive three volume pin winding mechanism - Google Patents
Dual Drive three volume pin winding mechanism Download PDFInfo
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- CN204204983U CN204204983U CN201420513581.4U CN201420513581U CN204204983U CN 204204983 U CN204204983 U CN 204204983U CN 201420513581 U CN201420513581 U CN 201420513581U CN 204204983 U CN204204983 U CN 204204983U
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- revolving body
- commutation
- needle shaft
- master file
- needle
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Abstract
Dual Drive three volume pin winding mechanism disclosed in the utility model, comprise the major and minor support of winding, reel on major and minor support and be respectively arranged with main commutation revolving body, the first secondary commutation revolving body, the second secondary commutation revolving body, to be provided with all commutation revolving body concentrics between revolving body at main commutation revolving body and the first secondary commutation and to drive the upset tumbler gear that all commutation revolving bodies move; Main commutation revolving body and upset tumbler gear circumference are equipped with first, second, third master file needle shaft, and first, second, third master file needle shaft is connected to the first, second, third master file pin with each axle revolution and rotation; What first, second secondary commutation revolving body was corresponding be equipped with first, second, third of master file needle shaft synchronous rotation and revolution secondaryly roll up needle shaft and first, second, third pair rolls up pin; Reel and be provided with the three groups of volume needle shafts driving upset tumbler gear to drive all commutation revolving bodies to switch between winding, rubberizing, discharge station on rear side of major and minor support and overturn driven units.
Description
[technical field]
The utility model relates to lithium battery production technology, is specifically related to the Dual Drive three volume pin winding mechanism of lithium battery core coil.
[background technology]
At present, in the manufacturing process of lithium battery electric core, the winding head of the winding apparatus of application usually, adopts single needle winding mechanism, double needle winder structure or three pin winding mechanisms mostly, and the power source rolling up pin in winding process is all adopt single driving mechanism; This employing winding head completes rolling of battery battery core, generally be only applicable to the making of compact battery battery core, for the making of large battery battery core, because the external diameter value of battery battery core, height dimension are large, if also adopt single-ended power drive winding head to reel, easily cause the series of problems such as electric core winding is uneven, poor stability.
[utility model content]
The utility model provides a kind of and is applicable to that external diameter value is large, the large battery battery core of height gauge modest ability makes, adopt both-end to drive three of winding head groups to roll up pin simultaneously and carry out different station electric core windings at different work steps, saving rolls the time, increases work efficiency, and the Dual Drive three volume pin winding mechanism that battery core is neat, coiling process is reliable and stable of winding.
In order to realize above-mentioned utility model object, the technical solution adopted in the utility model is:
Dual Drive three volume pin winding mechanism, be applied in the rolling of lithium battery electric core, it is main that it comprises winding, assistant support, described winding is main, assistant support is provided with the main commutation revolving body of concentric gyration thereon, first secondary commutation revolving body and the second secondary commutation revolving body, main commutation revolving body is arranged on winding main support, first, second secondary commutation revolving body is arranged on winding assistant support, to be provided with all commutation revolving body concentrics between revolving body at main commutation revolving body and the first secondary commutation and to drive the upset tumbler gear of all commutation revolving body concentrics gyration,
The circumference of described main commutation revolving body and upset tumbler gear angularly interval be equipped with the first, second, third master file needle shaft that three components is not centered around main commutation revolving body and upset tumbler gear axial centre, the axial top of first, second, third master file needle shaft is connected to stretches out upset tumbler gear and with respective master file needle shaft revolution and the first, second, third master file pin being certainly diverted to winding battery cells;
Corresponding main commutation revolving body and first on upset tumbler gear, second, 3rd master file needle shaft and first, second, 3rd master file pin, described first, the three components that is equipped with at the circumference of the second secondary commutation revolving body angularly interval is not centered around first, second secondary commutation revolving body axial centre and respectively with first, second, first of 3rd master file needle shaft synchronous rotation, second, 3rd secondary volume needle shaft, first, second, the axial top of the 3rd secondary volume needle shaft is connected to stretches out the first secondary commutation revolving body and first, second, 3rd master file pin respectively axial correspondence arranges and revolves round the sun with respective secondary needle shaft of rolling up and be certainly diverted to first of supplemental support winding battery cells, second, 3rd secondary volume pin,
Be provided with the three groups of volume needle shafts upset driven units driving upset tumbler gear to drive main commutation revolving body, the first secondary commutation revolving body, the second secondary commutation revolving body simultaneously to revolve round the sun on rear side of the major and minor support of described winding, three groups of volume needle shaft upset driven units control the first corresponding master file needle shaft simultaneously and the first secondary needle shaft, the second master file needle shaft and the second secondary needle shaft, the 3rd master file needle shaft and the 3rd pair of rolling up of roll up is rolled up needle shaft and switched between winder station, rubberizing station and discharge station respectively;
This three volumes pin winding mechanism also comprises control first master file needle shaft and the first pair rolls up needle shaft, second master file needle shaft and the second pair roll up needle shaft, 3rd master file needle shaft and the 3rd secondary three groups of rolling up the rotation of needle shaft difference roll up needle shaft rotation driven unit, and described three groups of volume needle shaft rotation driven units comprise the first drive motors, second drive motors, 3rd drive motors, central shaft, first inner sleeve, first outer sleeve, first primary cog set, second primary cog set, 3rd primary cog set, 4th gear train, second inner sleeve, 5th gear train, second outer sleeve, first pinion group, second pinion group and the 3rd pinion group, described central shaft is installed on main commutation revolving body, upset tumbler gear, the spindle central of the first secondary commutation revolving body and the second secondary commutation revolving body also supports the rotation of its concentric, described first outer sleeve to be sheathed on outside the first inner sleeve and both concentrics be sheathed on the right side of central shaft, described first primary cog set, second primary cog set, 3rd primary cog set, 4th gear train and the 5th gear train are arranged at the master file needle shaft between main commutation revolving body and upset tumbler gear, on central shaft and inside and outside sleeve, described second outer sleeve to be sheathed on outside the second inner sleeve and both concentrics be sheathed on the left of central shaft, described second inner and outer sleeves is also arranged axially across upset tumbler gear, the first secondary commutation revolving body axle center, and described first, second, third pinion group is arranged on pair volume needle shaft, central shaft and the inside and outside sleeve between first, second secondary commutation revolving body,
Described first drive motors is by cog belt and the rotation of band wheel drive first outer sleeve, first outer sleeve drives the first master file needle shaft and the first master file pin rotation by the first primary cog set, described first master file needle shaft also synchronously drives the second inner sleeve rotation by the 4th gear train, and the second inner sleeve drives the first secondary volume needle shaft and the first secondary volume pin synchronous rotation by the second pinion group;
Corresponding described second drive motors is by cog belt and the rotation of band wheel drive first inner sleeve, first inner sleeve drives the second master file needle shaft and the second master file pin rotation by the second primary cog set, described second master file needle shaft also synchronously drives the second outer sleeve rotation by the 5th gear train, and the second outer sleeve drives the second secondary volume needle shaft and the second secondary volume pin synchronous rotation by the first pinion group;
Corresponding described 3rd drive motors is by cog belt and the rotation of band wheel drive central shaft, central shaft drives the 3rd master file needle shaft and the 3rd master file pin rotation by the 3rd primary cog set, and central shaft also synchronously drives the 3rd secondary volume needle shaft and the 3rd secondary volume pin synchronous rotation by the 3rd pinion group simultaneously.
Preferably, described first, second, third master file pin all adopts with the mandrel section of first, second, third secondary volume pin the prismatic column structure preventing the relative mandrel circumference of battery core from sliding.
Preferably, described three groups of volume needle shafts upset driven units are provided with and the tumbler gear overturning tumbler gear and coordinates, and tumbler gear drives main commutation revolving body, the first secondary commutation revolving body and the second pair revolving body that commutates to revolve round the sun and the three groups of major and minor volume needle shafts controlled on it switch respectively between winder station, rubberizing station and discharge station by upset tumbler gear simultaneously.
Preferably, be also provided with outside described main commutation revolving body to coordinate with first, second, third master file needle shaft rear end respectively and abut or recess the first, second, third secondary master rolling up needle end part go out needle assemblies and main withdraw of the needle assembly for promoting first, second, third master file needle end part respectively.
Preferably, be also provided with roll up needle shaft rear end secondary with first, second, third respectively outside described second secondary commutation revolving body to coordinate and roll up the pair that needle end part abutted or recessed first, second, third master file needle end part go out needle assemblies and secondary withdraw of the needle assembly for promoting first, second, third pair respectively.
The beneficial effects of the utility model are:
Three groups of rolling needle mechanisms of the present utility model are rolled up with existing pair compared with pin or single rolling needle mechanism, according to the rolling technology of battery battery core, with three groups of volume pins, different work steps are carried out the electric core winding of different station, save and roll the time, can greatly increase work efficiency.When particularly large battery battery core that is large to external diameter value, height gauge modest ability makes, adopt both-end to drive major and minor volume needle shaft to rotate simultaneously, the plug of the major and minor volume pin of common driving winding battery cells simultaneously, can effectively make the neat of winding battery core, coiling process is reliable and stable; In addition, the mandrel section of major and minor volume pin all adopts prismatic column structure, the plug of battery battery core is sleeved on volume nook closing member axle, when overlap is wound into battery core in order barrier film, pole piece, can effectively prevents the plug of pond battery core from rotating relative to the mandrel of volume pin.
[accompanying drawing explanation]
Fig. 1 is that perspective view is looked on a left side of the present utility model;
Fig. 2 is that perspective view is looked on the right side of the present utility model;
Fig. 3 is main TV structure schematic diagram of the present utility model;
Fig. 4 is revolved section structural representation of the present utility model;
Fig. 5 is major and minor volume pin structure for amplifying schematic diagram of the present utility model.
[embodiment]
Dual Drive three volume pin winding mechanism, as depicted in figs. 1 and 2, be applied in the rolling of lithium battery electric core, it is main that it comprises winding, assistant support (1a, 1b), main at winding, assistant support (1a, the main commutation revolving body 2 of concentric gyration is thereon provided with 1b), first secondary commutation revolving body 4 and the second secondary commutation revolving body 5, main commutation revolving body 2 is arranged on winding main support 1a, first, second secondary commutation revolving body (4, 5) be arranged on winding assistant support 1b, at main commutation revolving body 2, be provided with all commutation revolving body concentrics between first secondary commutation revolving body 4 and drive the upset tumbler gear 3 of all commutation revolving body concentrics gyration, main commutation revolving body 2, upset tumbler gear 3 circumference angularly interval be equipped with the first, second, third master file needle shaft (6,7,8) that three components is not centered around main commutation revolving body 2 and upset tumbler gear 3 axial centre, the axial top of first, second, third master file needle shaft (6,7,8) is connected to stretches out upset tumbler gear 3 and with respective master file needle shaft revolution and the first, second, third master file pin (9,10,11) being certainly diverted to winding battery cells.
Continue as depicted in figs. 1 and 2, corresponding main commutation revolving body 2 and first on upset tumbler gear 3, second, 3rd master file needle shaft (6, 7, 8) and the first, second, 3rd master file pin (9, 10, 11), described first, second secondary commutation revolving body (4, 5) three components that is equipped with at circumference angularly interval is not centered around first, second secondary commutation revolving body (4, 5) axial centre and respectively with first, second, 3rd master file needle shaft (6, 7, 8) synchronous rotation first, second, 3rd secondary volume needle shaft (12, 13, 14), first, second, 3rd secondary volume needle shaft (12, 13, 14) axial top is connected to stretches out the first secondary commutation revolving body 4 and first, second, 3rd master file pin (9, 10, 11) axially correspondence arranges and revolves round the sun with respective secondary volume needle shaft and be certainly diverted to first of supplemental support winding battery cells respectively, second, 3rd secondary volume pin (15, 16, 17).
Continue as depicted in figs. 1 and 2, be provided with at the major and minor support of winding (1a, 1b) rear side drive upset tumbler gear 3 to drive main commutation revolving body 2, first to commutate three groups of volume needle shafts upset driven units 18, three groups volume needle shafts upset driven units that revolving body 4 and the second secondary commutation revolving body 5 revolve round the sun simultaneously to control corresponding first master file needle shaft 6 and first simultaneously and secondaryly roll up needle shaft 12, second master file needle shaft 7 and the second secondary needle shaft 13, the 3rd master file needle shaft 8 and the 3rd pair of rolling up is rolled up needle shaft 14 and switched between winder station, rubberizing station and discharge station respectively; Three groups of volume needle shaft upset driven units 18 are provided with and the tumbler gear 180 overturning tumbler gear 3 and coordinates, and tumbler gear 180 drives main commutation revolving body 2, first to commutate revolving body 4 and the second secondary revolving body 5 that commutates revolves round the sun simultaneously and the three groups of major and minor volume needle shafts controlled on it switch respectively between winder station, rubberizing station and discharge station by upset tumbler gear 3.Wherein, be also provided with outside main commutation revolving body 2 to coordinate with first, second, third master file needle shaft (6,7,8) rear end respectively and be used for promoting first, second, third master file pin (9,10,11) end abutment respectively or recess the first, second, third secondary master rolling up pin (15,16,17) end to go out needle assemblies (not shown) and main withdraw of the needle assembly (not shown); Also being provided with roll up needle shaft (12,13,14) rear end secondary with first, second, third respectively outside described second secondary commutation revolving body 5 coordinates the pair of rolling up pin (15,16,17) end abutment for promoting first, second, third pair respectively or recessing first, second, third master file pin (9,10,11) end to go out needle assemblies (not shown) and secondary withdraw of the needle assembly (not shown).
As shown in Figures 1 to 4, this three volumes pin winding mechanism also comprises control first master file needle shaft 6 and first and secondaryly rolls up needle shaft 12, second master file needle shaft 7 and the second pair roll up needle shaft 13, 3rd master file needle shaft 8 and the 3rd secondary three groups of rolling up the rotation of needle shaft 14 difference roll up needle shaft rotation driven unit, and described three groups of volume needle shaft rotation driven units comprise the first drive motors 19, second drive motors 20, 3rd drive motors 21, central shaft 22, first inner sleeve 23, first outer sleeve 24, first primary cog set 25, second primary cog set 26, 3rd primary cog set 27, 4th gear train 28, second inner sleeve 29, 5th gear train 30, second outer sleeve 31, first pinion group 32, second pinion group 33 and the 3rd pinion group 34, central shaft 22 is installed on main commutation revolving body 2, upset tumbler gear 3, first secondary commutation revolving body 4, the spindle central of the second secondary commutation revolving body 5 also supports the rotation of its concentric, the first outer sleeve 24 to be sheathed on outside the first inner sleeve 23 and both concentrics be sheathed on the right side of central shaft 22, described first primary cog set 25, second primary cog set 26, 3rd primary cog set 27, 4th gear train 28 and the 5th gear train 30 are arranged at the master file needle shaft between main commutation revolving body 2 and upset tumbler gear 3 respectively, on central shaft and inside and outside sleeve.Continue as shown in Figures 1 to 4, second outer sleeve 31 to be sheathed on outside the second inner sleeve 29 and both concentrics be sheathed on the left of central shaft 22, described second inner and outer sleeves (29,31) is also arranged axially across upset tumbler gear 3 and the first secondary commutation revolving body 4 axle center, wherein, first, second, third pinion group (32,33,34) is arranged on pair volume needle shaft, central shaft and the inside and outside sleeve between first, second secondary commutation revolving body (4,5) respectively.
Continue as shown in Figures 1 to 4, first drive motors 19 is by cog belt and the rotation of band wheel drive first outer sleeve 24, first outer sleeve 24 drives the first master file needle shaft 6 and the first master file pin 9 rotation by the first primary cog set 25, described first master file needle shaft 6 also synchronously drives the second inner sleeve 29 rotation by the 4th gear train 28, and the second inner sleeve 29 drives the first secondary volume needle shaft 12 and the first secondary volume pin 15 synchronous rotation by the second pinion group 33.
Continue as shown in Figures 1 to 4, corresponding described second drive motors 20 is by cog belt and the rotation of band wheel drive first inner sleeve 23, first inner sleeve 23 drives the second master file needle shaft 7 and the second master file pin 10 rotation by the second primary cog set 26, described second master file needle shaft 7 also synchronously drives the second outer sleeve 31 rotation by the 5th gear train 30, and the second outer sleeve 31 drives the second secondary volume needle shaft 13 and the second secondary volume pin 16 synchronous rotation by the first pinion group 32.
Continue as shown in Figures 1 to 4, corresponding described 3rd drive motors 21 is by cog belt and the rotation of band wheel drive central shaft 22, central shaft 22 drives the 3rd master file needle shaft 8 and the 3rd master file pin 11 rotation by the 3rd primary cog set 27, and central shaft 22 also synchronously drives the 3rd secondary volume needle shaft 14 and the 3rd secondary volume pin 17 synchronous rotation by the 3rd pinion group 34 simultaneously.
As shown in Figure 5, first, second, third master file pin (9,10,11) and the mandrel section of first, second, third secondary volume pin (15,16,17) all adopt the prismatic column structure preventing the relative mandrel circumference of battery core from sliding, the plug of battery battery core is sleeved on volume nook closing member axle, when overlap is wound into battery core in order barrier film, pole piece, can effectively prevent the plug of pond battery core from rotating relative to the mandrel of volume pin.
This Dual Drive three volume pin winding mechanism drives central shaft 22 and sleeve rotation respectively by three groups of motors, the rotation of volume pin is often organized further by gear set drive, and by middle power transmission shaft and sleeve, the rotation of master file pin side is sent to the winding head other end, and drive secondary volume pin synchronous rotation together by gear train, realize the plug that volume pin corresponding to winding head two ends support battery battery core and synchronously reel.
Two roll up compared with pin or single rolling needle mechanism with existing, according to the rolling technology of battery battery core, roll up with three groups the electric core winding that different work steps to be carried out different station by pins, saving rolls the time, can greatly increase work efficiency.When particularly large battery battery core that is large to external diameter value, height gauge modest ability makes, adopt both-end to drive major and minor volume needle shaft to rotate simultaneously, the plug of the major and minor volume pin of common driving winding battery cells simultaneously, can effectively make the neat of winding battery core, coiling process is reliable and stable.
The above embodiment is just preferred embodiment of the present utility model, not limits practical range of the present utility model with this, the equivalence change that all shapes according to the utility model, structure and principle are done, and all should be covered by protection range of the present utility model.
Claims (5)
1. Dual Drive three volume pin winding mechanism, is applied in the rolling of lithium battery electric core, and it comprises the major and minor support of winding, it is characterized in that:
The major and minor support of described winding is provided with the main commutation revolving body of concentric gyration thereon, the first secondary commutation revolving body and the second secondary commutation revolving body, main commutation revolving body is arranged on winding main support, first, second secondary commutation revolving body is arranged on winding assistant support, to be provided with all commutation revolving body concentrics at main commutation revolving body and the first secondary commutation and to drive the upset tumbler gear of all commutation revolving body concentrics gyration between revolving body;
The circumference of described main commutation revolving body and upset tumbler gear angularly interval be equipped with the first, second, third master file needle shaft that three components is not centered around main commutation revolving body and upset tumbler gear axial centre, the axial top of first, second, third master file needle shaft is connected to stretches out upset tumbler gear and with respective master file needle shaft revolution and the first, second, third master file pin being certainly diverted to winding battery cells;
Corresponding main commutation revolving body and first on upset tumbler gear, second, 3rd master file needle shaft and first, second, 3rd master file pin, described first, the three components that is equipped with at the circumference of the second secondary commutation revolving body angularly interval is not centered around first, second secondary commutation revolving body axial centre and respectively with first, second, first of 3rd master file needle shaft synchronous rotation, second, 3rd secondary volume needle shaft, first, second, the axial top of the 3rd secondary volume needle shaft is connected to stretches out the first secondary commutation revolving body and first, second, 3rd master file pin respectively axial correspondence arranges and revolves round the sun with respective secondary needle shaft of rolling up and be certainly diverted to first of supplemental support winding battery cells, second, 3rd secondary volume pin,
Be provided with the three groups of volume needle shafts upset driven units driving upset tumbler gear to drive main commutation revolving body, the first secondary commutation revolving body, the second secondary commutation revolving body simultaneously to revolve round the sun on rear side of the major and minor support of described winding, three groups of volume needle shaft upset driven units control the first corresponding master file needle shaft simultaneously and the first secondary needle shaft, the second master file needle shaft and the second secondary needle shaft, the 3rd master file needle shaft and the 3rd pair of rolling up of roll up is rolled up needle shaft and switched between winder station, rubberizing station and discharge station respectively;
This three volumes pin winding mechanism also comprises control first master file needle shaft and the first pair rolls up needle shaft, second master file needle shaft and the second pair roll up needle shaft, 3rd master file needle shaft and the 3rd secondary three groups of rolling up the rotation of needle shaft difference roll up needle shaft rotation driven unit, and described three groups of volume needle shaft rotation driven units comprise the first drive motors, second drive motors, 3rd drive motors, central shaft, first inner sleeve, first outer sleeve, first primary cog set, second primary cog set, 3rd primary cog set, 4th gear train, second inner sleeve, 5th gear train, second outer sleeve, first pinion group, second pinion group and the 3rd pinion group, described central shaft is installed on main commutation revolving body, upset tumbler gear, the spindle central of the first secondary commutation revolving body and the second secondary commutation revolving body also supports the rotation of its concentric, described first outer sleeve to be sheathed on outside the first inner sleeve and both concentrics be sheathed on the right side of central shaft, described first primary cog set, second primary cog set, 3rd primary cog set, 4th gear train and the 5th gear train are arranged at the master file needle shaft between main commutation revolving body and upset tumbler gear, on central shaft and inside and outside sleeve, described second outer sleeve to be sheathed on outside the second inner sleeve and both concentrics be sheathed on the left of central shaft, described second inner and outer sleeves is also arranged axially across upset tumbler gear, the first secondary commutation revolving body axle center, and described first, second, third pinion group is arranged on pair volume needle shaft, central shaft and the inside and outside sleeve between first, second secondary commutation revolving body,
Described first drive motors is by cog belt and the rotation of band wheel drive first outer sleeve, first outer sleeve drives the first master file needle shaft and the first master file pin rotation by the first primary cog set, described first master file needle shaft also synchronously drives the second inner sleeve rotation by the 4th gear train, and the second inner sleeve drives the first secondary volume needle shaft and the first secondary volume pin synchronous rotation by the second pinion group;
Corresponding described second drive motors is by cog belt and the rotation of band wheel drive first inner sleeve, first inner sleeve drives the second master file needle shaft and the second master file pin rotation by the second primary cog set, described second master file needle shaft also synchronously drives the second outer sleeve rotation by the 5th gear train, and the second outer sleeve drives the second secondary volume needle shaft and the second secondary volume pin synchronous rotation by the first pinion group;
Corresponding described 3rd drive motors is by cog belt and the rotation of band wheel drive central shaft, central shaft drives the 3rd master file needle shaft and the 3rd master file pin rotation by the 3rd primary cog set, and central shaft also synchronously drives the 3rd secondary volume needle shaft and the 3rd secondary volume pin synchronous rotation by the 3rd pinion group simultaneously.
2. Dual Drive three volume pin winding mechanism according to claim 1, is characterized in that, described first, second, third master file pin all adopts with the mandrel section of first, second, third secondary volume pin the prismatic column structure preventing the relative mandrel circumference of battery core from sliding.
3. Dual Drive three volume pin winding mechanism according to claim 1, it is characterized in that, described three groups of volume needle shafts upset driven units are provided with and the tumbler gear overturning tumbler gear and coordinates, and tumbler gear drives main commutation revolving body, the first secondary commutation revolving body and the second pair revolving body that commutates to revolve round the sun and the three groups of major and minor volume needle shafts controlled on it switch respectively between winder station, rubberizing station and discharge station by upset tumbler gear simultaneously.
4. Dual Drive three volume pin winding mechanism according to claim 1, it is characterized in that, be also provided with outside described main commutation revolving body to coordinate with first, second, third master file needle shaft rear end respectively and abut or recess the first, second, third secondary master rolling up needle end part go out needle assemblies and main withdraw of the needle assembly for promoting first, second, third master file needle end part respectively.
5. Dual Drive three volume pin winding mechanism according to claim 1, it is characterized in that, be also provided with roll up needle shaft rear end secondary with first, second, third respectively outside described second secondary commutation revolving body and coordinate and roll up the pair that needle end part abutted or recessed first, second, third master file needle end part go out needle assemblies and secondary withdraw of the needle assembly for promoting first, second, third pair respectively.
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CN201420513581.4U CN204204983U (en) | 2014-09-05 | 2014-09-05 | Dual Drive three volume pin winding mechanism |
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CN201420513581.4U CN204204983U (en) | 2014-09-05 | 2014-09-05 | Dual Drive three volume pin winding mechanism |
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CN201420513581.4U Withdrawn - After Issue CN204204983U (en) | 2014-09-05 | 2014-09-05 | Dual Drive three volume pin winding mechanism |
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CN106935896A (en) * | 2017-03-07 | 2017-07-07 | 深圳吉阳智能科技有限公司 | The straight winding mechanism and method for winding for driving transmission |
CN106935896B (en) * | 2017-03-07 | 2019-03-26 | 深圳吉阳智能科技有限公司 | The straight winding mechanism and winding method for driving transmission |
CN109888407A (en) * | 2019-02-26 | 2019-06-14 | 东莞泓宇智能装备有限公司 | Three needles of one kind wind short pole piece method and its structure |
CN109888407B (en) * | 2019-02-26 | 2020-09-08 | 东莞泓宇智能装备有限公司 | Method and structure for winding short pole piece by three needles |
CN110400973A (en) * | 2019-08-20 | 2019-11-01 | 珠海华冠科技股份有限公司 | To drawn needle type winding head, winding device and electricity core winding machine |
CN110459814A (en) * | 2019-09-04 | 2019-11-15 | 珠海华冠科技股份有限公司 | Cylindrical button-shaped battery core film-making up- coiler |
CN110474109A (en) * | 2019-09-04 | 2019-11-19 | 珠海华冠科技股份有限公司 | To drawn needle type electric core winding head, winding device and button-shaped battery core film-making up- coiler |
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