CN217881623U - Core-closing electric core binding production system - Google Patents

Abstract

The utility model discloses a close core electricity core bundle and glue production system. The core-combined battery cell bundling glue production system comprises a battery cell conveying line, wherein a battery cell clamp is arranged on the battery cell conveying line; the battery cell conveying line can transfer the battery cell clamp to a battery cell loading station, a battery cell binding station and a battery cell unloading station; the battery cell clamp comprises a movable clamping jaw and a fixed clamping jaw which are arranged in a matched manner, and the movable clamping jaw can move relative to the fixed clamping jaw to realize clamping opening or clamping closing; a charging opening and clamping assembly is arranged at the battery cell charging station, and the battery cell clamp transferred to the battery cell charging station can be opened and clamped for charging; the battery cell blanking station is provided with a blanking clamp opening assembly, and the blanking clamp opening assembly can be used for opening and clamping the battery cell clamp transferred to the battery cell blanking station. The utility model discloses a close core electricity core bundle and glue production system can realize closing the bundle of core electricity core and glue automated production operation, improves production efficiency, and reduction in production cost guarantees production quality.

Description

Core-closing electric core binding production system

Technical Field

The utility model relates to a battery electricity core production facility technical field, concretely relates to close core electricity core bundle and glue production system.

Background

In the core combining production process of the lithium battery core, the core after core combining needs to be bundled and glued, the core after core combining is bound stably, the loosening of the core is avoided, and the electric connection stability of the whole core is effectively ensured.

The traditional manual glue binding method has the advantages that the quality is uneven, the yield is low, the production efficiency is low, the labor cost is high, and the large-scale production requirement cannot be met. The full-automatic glue binding operation can effectively improve the production efficiency and reduce the labor cost.

However, the conventional automation industry mainly adopts a linear production line type operation, a carrying tray jig capable of carrying the battery cell is arranged on the conveying line, and the battery cell is conveyed to the glue binding station by the carrying tray jig and then clamped by the glue binding manipulator and bound. Although high-efficiency production is realized, the core-combined electric core carried by the carrying disc jig is easy to loosen in the whole conveying process of the conveying line, the glue binding clamping precision requirement of the glue binding manipulator is increased, and the setting cost of production equipment is increased. In addition, the linear assembly line type conveying line has the advantages that the space occupancy rate is large, in addition, the material retention and accumulation are easily caused at the glue binding station due to the fact that the feeding operation and the glue binding operation cannot be synchronized, and the production efficiency and the production quality are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the current core-closing electric core is tied up and is glued that production efficiency is low, manufacturing cost is high, and a core-closing electric core is tied up and is glued production system is provided. This close core electricity core bundle and glue production system can realize closing the automatic bundle of core electricity core and glue the production operation, and production efficiency is high and manufacturing cost requires lowly.

The purpose of the utility model is realized through following technical scheme.

A core-combined battery cell bundling glue production system comprises a battery cell conveying line, wherein a battery cell clamp is arranged on the battery cell conveying line; the battery cell conveying line can transfer the battery cell clamp to a battery cell feeding station, a battery cell glue binding station and a battery cell blanking station;

the battery cell clamp comprises a movable clamping jaw and a fixed clamping jaw which are arranged in a matched mode, and the movable clamping jaw can move relative to the fixed clamping jaw to realize clamping opening or clamping closing; a charging opening and clamping assembly is arranged at the battery cell charging station, and the battery cell clamp transferred to the battery cell charging station can be opened and clamped for charging; the battery cell blanking station is provided with a blanking clamp opening assembly, and the blanking clamp opening assembly can be used for opening and clamping the battery cell clamp transferred to the battery cell blanking station.

In a preferred embodiment, the battery cell conveying line includes a glue binding turntable, and the battery cell clamp is mounted on the glue binding turntable and can rotate along with the glue binding turntable to move to the battery cell loading station, the glue binding station and the battery cell unloading station.

In a preferred embodiment, the feeding unclamping assembly comprises a first unclamping drive member; after the battery core clamp is transferred to the battery core loading station, the first clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

In a preferred embodiment, in the core-combined battery cell glue-binding production system described in any one of the above embodiments, the battery cell clamp is movably disposed on the battery cell conveying line, and can be turned over relative to the battery cell conveying line; the feeding and clamping assembly comprises a first clamping opening driving piece; the battery core clamp is transferred to the battery core loading station and is opposite to the battery core conveying line, and after the battery core clamp is turned over, the first clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

In a further preferred embodiment, the movable clamping jaw is connected with a first clamp opening fastener, and the output end of the first clamp opening driving piece is connected with a second clamp opening fastener; the cell clamp is arranged at the cell loading station and is opposite to the cell conveying line, and the first opening and clamping fastener and the second opening and clamping fastener are buckled after the cell clamp is turned over.

In a further preferred embodiment, a clamp overturning and jacking assembly is arranged at the battery cell loading station; the clamp overturning and jacking assembly comprises a jacking driving piece, the battery cell clamp is movably arranged on the battery cell conveying line through a turnover shaft, and the jacking driving piece can drive and transfer the battery cell clamp to the battery cell loading station to rotate around the turnover shaft.

In a further preferred embodiment, a cam follower is arranged on the cell fixture, and an output end of the jacking driving member is connected with a jacking block which is used for acting correspondingly with the cam follower; and the cam follower and the overturning shaft are eccentrically arranged, and the battery cell clamp can be overturned and reset under the action of self weight in a natural state after overturning.

In a preferred embodiment, in the core-closing electric core glue-bundling production system of any one of the above, a return clamping spring is disposed between the fixed clamping jaw and the movable clamping jaw, and the return clamping spring can drive the movable clamping jaw after being opened to move towards the fixed clamping jaw and close the clamp.

In a preferred embodiment, in the core-combined electrical core bale adhesive production system described in any one of the above, the electrical core clamp is provided with a guide rail; the movable clamping jaw is arranged on the guide rail and can move along the guide rail relative to the fixed clamping jaw.

In a preferred embodiment, in the core-combined electrical core glue-binding production system, electrical core inductors are disposed at the electrical core loading station, the glue-binding station, and the electrical core unloading station.

In a preferred embodiment, in the core-closing cell bale adhesive production system described in any of the above, the blanking clamp opening assembly includes a second clamp opening driving member; after the battery cell clamp is transferred to the battery cell blanking station, the second clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

In a further preferred embodiment, the cell clamp is movably disposed on the cell conveying line and can be turned over relative to the cell conveying line;

an anti-overturning assembly is arranged at the battery cell blanking station and comprises an anti-overturning driving piece and an anti-overturning jacking block connected to the output end of the anti-overturning driving piece; the battery cell clamp is provided with a turnover-preventing limiting block, the battery cell clamp is transferred to the battery cell blanking station, and the turnover-preventing limiting block corresponds to the turnover-preventing jacking block.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect:

the utility model discloses a close core electricity core and bundle and glue production system sets up electric core transfer chain and carries out electric core bundle and glue the pay-off, can realize closing binding of core electricity core and glue the automated production operation, improves production efficiency, reduction in production cost. Wherein, set up electric core anchor clamps on electric core conveying line as the carrier that closes core electric core, can realize closing the stable transport of core electric core and not loose to can directly tie the gluey to the core electric core that closes who shifts to corresponding station on electric core anchor clamps in the operation of tying the gluey, avoid the centre gripping conversion, reduce to tie gluey centre gripping required precision after the conversion.

And moreover, the corresponding feeding clamping opening assembly and the corresponding discharging clamping opening assembly are respectively arranged at the cell feeding station and the cell discharging station, and the cell clamp transferred to the station can be precisely clamped at the corresponding station, so that stable and precise feeding and discharging operation is realized, and the production quality is ensured.

Drawings

Fig. 1 is a schematic structural view of a core-combined electrical core glue-binding production system in a feeding state in the specific embodiment of the present invention;

fig. 2 is a schematic structural diagram of the core-combined electrical core glue-binding production system in the specific embodiment after the feeding is finished;

fig. 3 is a schematic structural diagram of a cell fixture for unclamping and loading under the action of a loading and unclamping assembly;

fig. 4 is a schematic structural view of the action of the feeding unclamping assembly and the cell clamp;

fig. 5 is a schematic structural diagram of the cell fixture for unclamping and blanking under the action of the blanking unclamping assembly;

the attached drawings are marked as follows: 1-glue binding turntable, 2-cell clamp, 201-movable clamping jaw, 202-fixed clamping jaw, 203-clamping jaw fixing seat, 204-limit connecting block, 205-guide rail, 206-reset clamping spring, 207-first open clamping fastener, 3-turnover shaft, 4-feeding open clamping component, 41-first open clamping driving component, 42-second open clamping fastener, 5-clamp turnover jacking component, 51-jacking driving component, 52-jacking block, 53-first fixing frame, 6-cam follower, 7-blanking open clamping component, 71-second open clamping driving component, 72-open clamping jacking block, 73-second fixing frame, 8-anti-turnover component, 81-anti-turnover driving component, 82-anti-turnover jacking block, 9-anti-turnover limiting block, 10-cell inductor, 11-open clamping fixing plate, 12-core-closing cell, 100-cell feeding station, 200-glue binding bottom glue, 300-binding side glue, 400-cell station.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following specific embodiments and accompanying drawings, but the scope of protection and the implementation of the present invention are not limited thereto.

In the description of the specific embodiments, it should be noted that the terms "upper", "lower", "left", "right", "front", "back", etc. indicate the orientation or position relationship based on the orientation or position relationship shown in the drawings or the orientation or position relationship that the product of the invention is usually placed when in use, and the terms "first", "second", etc. are only used for convenience of distinguishing and are only used for convenience of describing the invention and simplifying the description, but do not indicate or imply that the structure or element that is referred to must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, should not be construed as limiting the invention, and even should not indicate or imply relative importance.

Unless expressly stated or limited otherwise, the terms "mounted," "disposed," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Example one

The utility model discloses a close core electricity core and bundle gluey production system, please refer to fig. 1 and fig. 2 and show, including electric core transfer chain. The battery cell conveying line is provided with a battery cell clamp 2; this electricity core anchor clamps 2 can carry out the centre gripping to closing core electricity core 12, and electricity core transfer chain can shift to electricity core material loading station 100, bundle glue station and electricity core unloading station 400 through carrying with the electricity core anchor clamps 2 that set up above that.

When the glue operation is tied up, electric core transfer chain carries electric core anchor clamps 2 to electric core material loading station 100, and the centre gripping is stabilized by electric core anchor clamps 12 to the core electricity core 12 that closes of material loading, then makes electric core anchor clamps 2 shift to tie and glue the station through the transport of electric core transfer chain, and the station is glued to the electric core anchor clamps 2 and goes up the core electricity core 12 that closes of centre gripping and tie and glue at tying. After the glue binding is completed, the cell clamp 2 is driven by the cell conveying line to move the cell 12 which is co-core with the cell to the cell blanking station 400 for blanking. According to the glue binding requirement of the core-combining electric core 12, if the bottom surface and the side surface of the core-combining electric core 12 both need to be glued, the glue binding station correspondingly comprises a base glue binding station 200 and a side glue binding station 300, and base glue gluing and side glue binding can be respectively carried out.

The electric core conveying line can be a linear conveying line which can be a linear conveying line or an annular circulating conveying line, or the electric core conveying line can be a rotary table conveying line. In a preferred embodiment, the cell conveying line can be a rotary disc conveying line selected from rotary disc conveying lines and comprises a glue binding rotary disc 1, wherein the cell clamp 2 is arranged on the glue binding rotary disc 1 and is provided with a driving motor in transmission connection with the glue binding rotary disc 1, and the glue binding rotary disc 1 can be driven to rotate. Wherein, electric core material loading station 100, bundle primer station 200, bundle side glue station 300 and electric core unloading station 400 distribute in proper order in the periphery of bundling and gluing carousel 1, if distribute in proper order in the periphery of bundling and gluing carousel 1 along anticlockwise, bundle that glues carousel 1 and be provided with a set of electric core anchor clamps 2 respectively corresponding to each station department, along with the rotation of bundling and gluing carousel 1, each electric core anchor clamps 2 of group can be along with bundling and glue carousel 1 rotation and shift to electric core material loading station 100 in proper order, bundle primer station 200, bundle side glue station 300 and electric core unloading station 400 department. Based on the transport of bundling gluey carousel 1, can realize the used circle of electric core anchor clamps 2, and when bundling gluey operation, the process on each station such as electric core material loading station 100, bundle primer station 200, bundle side glue station 300 and electric core unloading station 400 can be gone on in step, realizes continuous bundle and glues the operation, ensures production efficiency.

The battery cell clamp 2 is specifically set to be a normally closed clamp, and when the core-closing battery cell 12 is loaded on the battery cell clamp 2, the battery cell can be stably clamped, so that stable glue binding material conveying is ensured, and glue binding precision is ensured. A feeding and clamping opening assembly 4 is arranged at the battery cell feeding station 100, and the battery cell clamp 2 transferred to the battery cell feeding station 100 can be opened to perform clamping opening and feeding; further, a blanking opening and clamping assembly 7 is arranged at the battery cell blanking station 400, and the battery cell clamp 2 transferred to the battery cell blanking station 400 can be opened to open and clamp blanking.

As shown in fig. 3 and fig. 4, the battery cell fixture 2 includes a movable clamping jaw 201 and a fixed clamping jaw 202, which are configured in a matching manner, wherein the movable clamping jaw 201 can move relative to the fixed clamping jaw 202 to open or close the clamp. The movable clamping jaw 201 and the fixed clamping jaw 202 are provided with clamping fingers distributed left and right, a space is avoided between the left and right clamping fingers, and the left and right clamping fingers of the movable clamping jaw 201 and the fixed clamping jaw 202 correspond to each other and can be matched with the core matching electric core 12 to realize stable clamping. The movable clamping jaw 201 and the fixed clamping jaw 202 are matched with each other to clamp the core-closing electric core 12 and are transferred to the glue binding station, and then the side glue and the bottom glue can be directly pasted on the bottom surface of the side surface of the core-closing electric core 12 from the clearance between the left clamping fingers and the right clamping fingers and the vacancy between the two sides, so that the clamping conversion is not needed, the arrangement of the clamping conversion mechanism is reduced, and the glue binding precision is improved.

Specifically, the fixed jaw 202 is fixedly mounted on the jaw fixing base 203, and the jaw fixing base 203 is provided with a guide rail 205. Wherein the movable clamping jaw 201 is arranged on the guide rail 205 and is opposite to the fixed clamping jaw 202, and the movable clamping jaw 201 can move away from or close to the fixed clamping jaw 202 along the guide rail 205 to open or close the clamp. In a preferred embodiment, a reset clamping spring 206 is arranged and can be used for driving the opened movable clamping jaw 201 to move towards the fixed clamping jaw 202 for clamping, specifically, a limit connecting plate 204 is arranged on one side of the clamping jaw fixing seat 203, which is away from the movable clamping jaw 201, the movable clamping jaw 201 is connected with the limit connecting plate 204 through a guide rod penetrating through the clamping jaw fixing seat 203, and the reset clamping spring 206 is sleeved on the guide rod and is located between the clamping jaw fixing seat 203 and the limit connecting plate 204.

And the feeding unclamping assembly 4 includes a first unclamping driving member 41, and the first unclamping driving member 41 can be selected from, but not limited to, an air cylinder. After the cell fixture 2 is transferred to the cell loading station 100, the first opening-clamping driving member 41 corresponds to the cell fixture 2, and can drive the movable clamping jaw 201 to move away from the fixed clamping jaw 202, so that the cell fixture 2 is opened and clamped.

In a preferred embodiment, please refer to fig. 1 to 4 again, the battery cell clamp 2 is movably disposed on the glue binding turntable 1 and can be turned over relative to the glue binding turntable 1. Wherein have the turnover shaft seat on the carousel 1 of gluing of bundle, electric core anchor clamps 2 are installed on electric core conveying line through the activity of trip shaft 3, clamping jaw fixing base 203 and 3 fixed connection of trip shaft, and the activity of the both ends of trip shaft 3 sets up on the turnover shaft seat, and whole electric core anchor clamps 2 can be twined 3 relative turntables 1 of gluing of turnover shaft around the trip shaft and overturn. After the cell fixture 2 is transferred to the cell loading station 100 and is opposite to the glue binding turntable 1, the first unclamping driving member 41 drives the movable clamping jaw 201 to move relative to the fixed clamping jaw 202 so as to unclamp the cell.

Specifically, the movable clamping jaw 201 is connected with a first unclamping fastener 207, and the output end of the first unclamping driving element 41 is connected with a second unclamping fastener 42; after the cell fixture 2 is turned over relative to the cell conveying line at the cell loading station 100, the first opening fastener 207 and the second opening fastener 42 are fastened, and at this time, the first opening fastener driving member 41 acts to pull backwards, so that the movable clamping jaw 201 can be pulled backwards to move away from the fixed clamping jaw 202 through the action of the first opening fastener 207 and the second opening fastener 42, so that the cell fixture 2 is opened. After the clamp is opened, the first clamp opening driving element 41 moves forward to push, and the movable clamping jaw 201 is driven to move forward to approach the fixed clamping jaw 202 for resetting through the action of the first clamp opening fastener 207 and the second clamp opening fastener 42. In some preferred embodiments, the first clip opening fastener 207 can be selected but not limited to a buckle, the second clip opening fastener 42 can be selected but not limited to a clamping table, the first clip opening fastener 207 is disposed at the rear end of the movable clamping jaw 201, the second clip opening fastener 42 is disposed at the front end of the output end of the first clip opening driving component 41, and the cell clamp 2 can be turned over backwards to enable the first clip opening fastener 207 to be buckled on the second clip opening fastener 42.

And material loading opens clamp subassembly 4 and specifically installs on opening clamp fixed plate 11, and the support that supports this division of clamp fixed plate 11 passes from the perforating hole in the middle of bundle gluey carousel 1, makes this division of clamp fixed plate 11 and bundle gluey carousel 1 be relatively independent setting, and then makes material loading open clamp subassembly 4 can not rotate along with bundle gluey carousel 1, ensures that material loading opens the fixed setting of clamp subassembly 4 in electric core material loading station 100 department.

When closing the material loading of core electricity core 12, the upset of gluing carousel 1 can be tied relatively to electric core anchor clamps 2 of electric core material loading station 100 department, makes and is fore-and-aft centre gripping between activity clamping jaw 201 and the fixed clamping jaw 202, conveniently closes core electricity core 12 and directly places the material loading on electric core anchor clamps 2, rather than the edgewise fill in to being between the activity clamping jaw 201 and the fixed clamping jaw 202 of centre gripping from top to bottom, guarantee to close core electricity core 12 material loading after by electric core anchor clamps 2 stable centre gripping.

In a further preferred embodiment, please refer to fig. 1 to 4 again, a fixture overturning and jacking assembly 5 is disposed at the cell loading station 100. Wherein, anchor clamps upset jacking subassembly 5 includes jacking driving piece 51, and this jacking driving piece 51 is optional but not limited to motor or cylinder, and this jacking driving piece 51 is installed on first mount 53, shifts to the electric core anchor clamps 2 of 100 departments of electric core material loading station and can be rotated around trip shaft 3 by the drive of jacking driving piece 51. Specifically, be provided with cam follower 6 on electric core anchor clamps 2, this cam follower 6 concrete coupling is on clamping jaw fixing base 203, and cam follower 6 is eccentric settings with trip shaft 3, and jacking driving piece 51's output is connected with the jacking piece 52 that is used for with the corresponding effect of cam follower 6, and jacking driving piece 51 can drive jacking piece 52 and make progress the jacking.

When the cell fixture 2 is transferred to the cell loading station 100, the cam follower 6 connected to the clamping jaw fixing seat 203 corresponds to the jacking block 52 of the fixture overturning jacking assembly 5. When the jacking driving piece 51 drives the jacking block 52 to move upwards, the jacking block 52 and the cam follower 6 act and push the cell fixture 2 to overturn around the overturning shaft 3. And when the turning is completed and the feeding of the core-combined electrical core 12 is completed, the jacking driving piece 51 drives the jacking block 52 to move down and reset in a natural state, and the electrical core clamp 2 can turn over and reset under the action of self gravity.

Moreover, the battery cell clamp 2 that resets under the action of its own weight after the loading of the core-combined battery cell 12 is completed always maintains the initial state, including the initial state that the battery cell clamp is transferred to the glue binding station and the battery cell blanking station 400 is still maintained to be clamped up and down. In the cell fixture 2 in the initial state, the movable clamping jaw 201 is located above the fixed clamping jaw 202, and the limiting connection block 204 is located below the clamping jaw fixing seat 203.

In a preferred embodiment, referring to fig. 1, 2 and 5, the blanking opening clamp assembly 7 includes a second opening clamp driving member 71, and the second opening clamp driving member 71 can be selected from, but not limited to, an air cylinder or a motor. After the cell fixture 2 is transferred to the cell blanking station 400, the second unclamping driving member 71 can drive the movable clamping jaw 201 of the cell fixture 2 to move relative to the fixed clamping jaw 202 so as to unclamp the cell.

Specifically, the second unclamping driving member 71 is mounted on the second fixing frame 73, the output end of the second unclamping driving member 71 is connected with an unclamping ejector 72, and the second unclamping driving member 71 can drive the unclamping ejector 72 to move up and down. When the cell fixture 2 is transferred to the cell blanking station 400, the opening and clamping top block 72 corresponds to the limiting connection plate 204 on the cell fixture 2. When the second opens and presss from both sides driving piece 71 and orders about to open and press from both sides kicking block 72 and upwards remove the spacing connecting plate 204 of jacking, can make activity clamping jaw 201 keep away from fixed clamping jaw 202 and realize opening the clamp through promoting spacing connecting plate 204, can take off the core electric core 12 that closes of gluing with accomplishing on electric core anchor clamps 2 this moment. When the second clamp opening driving member 71 drives the clamp opening pushing block 72 to move downwards for resetting, the limit connecting plate 204 can move downwards for resetting under the driving of the reset clamping spring 206, so that the movable clamping jaw 201 moves downwards to approach the fixed clamping jaw 202 to realize clamping again.

Further, please refer to fig. 1, fig. 2, and fig. 5 again, an anti-overturning assembly 8 is disposed at the battery core unloading station 400, and the battery core clamp 2 can be acted when the unloading opening and clamping assembly 7 opens and clamps the battery core clamp 2, so as to prevent the battery core clamp 2 from overturning relative to the glue binding turntable 1.

Specifically, the anti-overturn assembly 8 comprises an anti-overturn driving member 81 and an anti-overturn ejecting block 82 connected to the output end of the anti-overturn driving member 81, wherein the anti-overturn driving member 81 can be selected from, but is not limited to, a cylinder or a motor; and be provided with on electric core anchor clamps 2 and prevent turning over stopper 9, should prevent turning over stopper 9 concrete fixed connection on clamping jaw fixing base 203. After the cell fixture 2 is transferred to the cell blanking station 400, the overturn-preventing limiting block 9 corresponds to the overturn-preventing top block 82, and the overturn-preventing driving member 81 can drive the overturn-preventing top block 82 to move forward and tightly prop against the overturn-preventing limiting block 9, so that the clamping jaw fixing seat 203 is prevented from overturning around the overturning shaft 3, and the cell fixture 2 is prevented from overturning.

Moreover, the anti-overturning component 8 is specifically installed on the clamping fixing plate 11, so that the anti-overturning component 8 cannot rotate along with the glue bundling turntable 1, and the fixed arrangement of the anti-overturning component 8 at the battery cell blanking station 400 is ensured.

Example two

In the embodiment, the same as the first embodiment, and referring to fig. 1 to fig. 5 again, in the core-combined electrical core glue-binding production system of the embodiment, each set of electrical core clamps 2 specifically includes two sets of electrical core clamps, and the two sets of electrical core clamps 2 share the same clamping jaw fixing base 203, and the shared clamping jaw fixing base 203 is movably mounted on the electrical core conveying line through the shared turning shaft 3.

In the illustrated embodiment, a set of electrical core clamps 2 are respectively disposed on the edges of the adhesive binding turntable 1 corresponding to the electrical core loading station 100, the primer binding station 200, the side adhesive binding station 300, and the electrical core unloading station 400, and each set of electrical core clamps 2 specifically includes two electrical core clamps 2 sharing the same clamping jaw fixing base 203, and can be turned over synchronously relative to the adhesive binding turntable 1.

Further, the feeding clamping-opening assemblies 4 at the cell feeding station 100 are two sets corresponding to the two cell clamps 2, and the discharging clamping-opening assemblies 7 at the cell discharging station 400 are two sets corresponding to the two cell clamps 2. Moreover, two groups of glue binding operation mechanisms can be respectively arranged on the glue binding stations of the corresponding bottom glue binding station 200 and the side glue binding station 300. Therefore, synchronous feeding, glue binding and discharging of the two core-combined electric cores 12 can be realized, the production progress is accelerated, and the production efficiency is improved.

EXAMPLE III

In this embodiment, the same as the first embodiment, and referring to fig. 1 and fig. 2 again, in the core-combined electrical core glue-binding production system of this embodiment, electrical core inductors 10 are disposed at the electrical core loading station 100, the glue-binding station, and the electrical core unloading station 400.

The battery cell inductor 10 at each station can detect whether the battery cell clamp 2 at the corresponding station clamps the combined battery cell 12, and can feed back the combined battery cell to the operation mechanism at the corresponding station so as to control whether the corresponding operation mechanism works, thereby realizing efficient and automatic production.

The above embodiments are only preferred embodiments of the present invention, and only lie in further detailed descriptions of the technical solutions of the present invention, but the above descriptions are exemplary, not exhaustive, and are not limited to the disclosed embodiments, the scope and implementation of the present invention are not limited thereto, and any changes, combinations, deletions, substitutions, or modifications that do not depart from the spirit and principle of the present invention are all included in the scope of the present invention.

Claims (12)

1. A core-combined battery cell bundling glue production system is characterized by comprising a battery cell conveying line, wherein a battery cell clamp is arranged on the battery cell conveying line; the battery cell conveying line can transfer the battery cell clamp to a battery cell feeding station, a battery cell glue binding station and a battery cell blanking station;

the battery cell clamp comprises a movable clamping jaw and a fixed clamping jaw which are arranged in a matched mode, and the movable clamping jaw can move relative to the fixed clamping jaw to realize clamping opening or clamping closing; a charging opening and clamping assembly is arranged at the battery cell charging station, and the battery cell clamp transferred to the battery cell charging station can be opened and clamped for charging; the battery cell blanking station is provided with a blanking opening and clamping assembly, and the blanking opening and clamping assembly can be used for opening and clamping the battery cell clamp transferred to the battery cell blanking station.

2. The core-closing battery cell glue-binding production system according to claim 1, wherein the battery cell conveying line comprises a glue-binding turntable, and the battery cell clamp is mounted on the glue-binding turntable and can move to the battery cell loading station, the glue-binding station and the battery cell unloading station along with the glue-binding turntable in a rotating manner.

3. The core-closing cell bale adhesive production system of claim 1, wherein the feeding unclamping assembly comprises a first unclamping driving member; after the battery core clamp is transferred to the battery core loading station, the first clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

4. The core-closing cell bale adhesive production system of claim 1, wherein the cell clamp is movably disposed on the cell conveyor line and can be flipped with respect to the cell conveyor line; the feeding clamp opening assembly comprises a first clamp opening driving piece; the battery core clamp is transferred to the battery core loading station and is opposite to the battery core conveying line, and after the battery core clamp is turned over, the first clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

5. The core-closing cell bale adhesive production system of claim 4, wherein the movable clamping jaw is connected with a first open clamp fastener, and an output end of the first open clamp driving member is connected with a second open clamp fastener; after the battery cell clamp is arranged at the battery cell loading station and overturns relative to the battery cell conveying line, the first opening and clamping fastener and the second opening and clamping fastener are buckled.

6. The core-combining battery cell glue-binding production system according to claim 4, wherein a fixture overturning and jacking assembly is arranged at the battery cell loading station; anchor clamps upset jacking subassembly includes the jacking driving piece, electric core anchor clamps are installed through the trip shaft activity on the electric core conveying line, the jacking driving piece can drive and shift to electric core material loading station department electric core anchor clamps wind the trip shaft rotates.

7. The core-combining battery cell glue-binding production system according to claim 6, wherein a cam follower is arranged on the battery cell clamp, and an output end of the jacking driving member is connected with a jacking block which is used for acting correspondingly with the cam follower; and the cam follower and the overturning shaft are eccentrically arranged, and the battery cell clamp can be overturned and reset under the action of self weight in a natural state after overturning.

8. The core-closing electric core glue bundling production system according to claim 1, wherein a return clamping spring is arranged between the fixed clamping jaw and the movable clamping jaw, and the return clamping spring can act to drive the opened movable clamping jaw to move towards the fixed clamping jaw and close the clamp.

9. The core-closing cell bale adhesive production system of claim 1, wherein the cell clamp is provided with a guide rail; the movable clamping jaw is arranged on the guide rail and can move along the guide rail relative to the fixed clamping jaw.

10. The core-closing battery cell glue-binding production system according to claim 1, wherein battery cell inductors are arranged at the battery cell loading station, the glue-binding station and the battery cell unloading station.

11. The core-closing cell bale adhesive production system of any of claims 1-10, wherein the blanking clamp-opening assembly comprises a second clamp-opening driving member; after the battery core clamp is transferred to the battery core blanking station, the second clamp opening driving piece can drive the movable clamping jaw to move relative to the fixed clamping jaw so as to open the clamp.

12. The core-combining battery cell bundling glue production system according to claim 11, wherein the battery cell clamp is movably disposed on the battery cell conveying line, and is capable of being turned over with respect to the battery cell conveying line;

an anti-overturning assembly is arranged at the battery cell blanking station and comprises an anti-overturning driving piece and an anti-overturning jacking block connected to the output end of the anti-overturning driving piece; the battery cell clamp is provided with a turnover-preventing limiting block, the battery cell clamp is transferred to the battery cell blanking station, and the turnover-preventing limiting block corresponds to the turnover-preventing jacking block.

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