CN217114704U - Tab kneading and flattening machine of full-tab lithium battery cell - Google Patents

Abstract

The utility model discloses a pole ear flattening machine for a full pole ear lithium battery cell, which comprises a conveyor belt device, an input track, an output track and the like, and also comprises a jacking clamping mechanism and flattening mechanisms at two sides, wherein each side flattening mechanism is provided with a plurality of flattening heads which rotate synchronously; like this, the input track carries a plurality of lithium cell electricity core in proper order to form a set ofly on the conveyer belt device, should organize lithium cell electricity core and will receive jacking clamping mechanism to lift and break away from the conveyer belt device and form the location and press from both sides tightly, can rub the flat head by a plurality of rubbing flat mechanism and simultaneously contact and rub the utmost point ear of flat this group of lithium cell electricity core tip, then jacking clamping mechanism descends and drives again and rub this group of lithium cell electricity core of flat utmost point ear and get back to on the conveyer belt device again, the cooperation output track just can be exported in proper order at last to accomplish the utmost point ear of a set of lithium cell electricity core in batches and rub flat. Simultaneously, still provide unique flat head of rubbing of structure and this utmost point ear and rub flat-bed machine and cooperate, the production efficiency of better improvement lithium cell and reduction product disability rate.

Description

Tab kneading and flattening machine of full-tab lithium battery cell

Technical Field

The utility model relates to a flat-bed machine is rubbed to utmost point ear, specifically indicates a flat-bed machine is rubbed to utmost point ear of full utmost point ear lithium cell electricity core.

Background

At present, the kneading of the lugs is involved in the production and manufacturing process of the full-lug lithium battery cell, namely, the exposed lugs are kneaded and flatly adhered to the end part of the lithium battery cell, because the full-lug lithium battery is developed in recent years, no special automatic lug kneading machine is available in the market, the existing automatic production equipment only assists in conveying or outputting the lithium battery cell, for example, the basic structure mainly comprises a conveyor belt device, an input track connected with the initial end of the conveyor belt device, an output track connected with the terminal end of the conveyor belt device and the like, when the lithium battery cell sequentially enters the conveying belt device through the input track to be conveyed, only a manual kneading and flattening production mode can be adopted, so that the defects of low production efficiency, high product rejection rate and the like exist, and the automatic and intelligent lug kneading and flattening production requirement of the full-lug lithium battery cell is more and more difficult to meet.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art's defect and provide one kind can effectively improve production efficiency, reduce the product disability rate and satisfy the utmost point ear of full utmost point ear lithium battery cell of the automatic intelligent production needs of full utmost point ear lithium battery cell and rub flat-bed machine.

The technical problem of the utility model is realized through following technical scheme:

a pole lug flattening machine for a full pole lug lithium battery cell comprises a conveyor belt device, an input rail connected with the starting end of the conveyor belt device and an output rail connected with the terminating end of the conveyor belt device, wherein a jacking clamping mechanism is arranged below the conveyor belt device, flattening mechanisms are respectively arranged on two sides of the conveyor belt device, and each flattening mechanism is provided with a plurality of flattening heads which rotate synchronously; the input track sequentially conveys a plurality of lithium battery cells to the conveyor belt device to form a group, the group of lithium battery cells are lifted by the jacking clamping mechanism to separate from the conveyor belt device to form positioning and clamping, then the plurality of flat-kneading units of the flat-kneading mechanism simultaneously contact and flatten the tabs at the end parts of the group of lithium battery cells, the jacking clamping mechanism descends to drive the group of lithium battery cells for kneading the flat tabs to return to the conveyor belt device again, and then the group of lithium battery cells are sequentially output by matching with the output track.

Each flat head comprises a main body and a flat kneading hole at the top of the main body, an inner shaft which is arranged perpendicular to the axial lead of the flat kneading hole and a rotating sleeve which is rotatably sleeved on the inner shaft are arranged in the flat kneading hole, the end part of the lithium battery cell is arranged in the flat kneading hole, the lug is tightly attached to the rotating sleeve, the main body rotates around the axial lead of the flat kneading hole and drives the rotating sleeve to roll along the circumference of the end part of the lithium battery cell, and the lug is flatly kneaded at the end part of the lithium battery cell.

The outer port of the kneading flat hole is designed to be an inverted cone port, the end part of the lithium battery cell is arranged in the kneading flat hole, and the inverted cone port extrudes the tail ends of the lugs together towards the center to form a cone.

The outer surface of the rotating sleeve is provided with a chamfer outer shoulder which is arranged around the circumference by taking the axial lead of the rotating sleeve as the center, the chamfer outer shoulder is connected with the inverted cone opening, and the tail ends of the lugs passing through the inverted cone opening are turned over towards the center together.

The main body comprises a head part and a handle part, the kneading flat hole is arranged on the top surface of the head part, the handle part is connected with the bottom surface of the head part, and the axis of the handle part is overlapped with the axis of the kneading flat hole.

The handle part is internally provided with an air hole, one end of the air hole is communicated with the kneading flat hole, and the other end of the air hole penetrates through the handle part.

The rotary sleeves are two, the two rotary sleeves are spaced by a middle shaft of the inner shaft, each rotary sleeve is provided with a chamfer outer shoulder, and the outer chamfers of the two rotary sleeves rub the tabs on the end parts of the lithium battery cell.

The flat kneading mechanism comprises a propelling cylinder and a bracket, the bracket is provided with a plurality of flat kneading heads and a driving motor, and the driving motor drives the plurality of flat kneading heads to synchronously rotate; the propulsion cylinder promotes the support and is close to the conveyer belt device to drive a plurality of to rub the crew cut and simultaneously contact and rub the utmost point ear of flat a set of lithium cell electricity core tip, or the propulsion cylinder promotes the support and keeps away from the conveyer belt device, and drives a plurality of to rub the crew cut and break away from the tip of a set of lithium cell electricity core simultaneously.

The jacking clamping mechanism comprises a jacking cylinder, two jacking guide pillars, a jacking plate, a jacking block and a positioning block, wherein the jacking cylinder is arranged below the conveying belt device, the positioning block is arranged above the conveying belt device, the jacking plate is driven by the jacking cylinder to move up and down along the two jacking guide pillars which are vertically arranged in parallel, and the jacking block on the jacking plate is driven to move up and down synchronously; the jacking block rises and drives a group of lithium battery cells on the conveying belt device to lift to form positioning and clamping by matching with the positioning block, or the jacking block descends and drives a group of lithium battery cells to be separated from the positioning block and return to the conveying belt device again.

The conveying belt device comprises a driving wheel, a driven wheel and two conveying belts connected between the driving wheel and the driven wheel, the driving wheel drives the two conveying belts to form synchronous unidirectional operation, and a plurality of positioning grooves corresponding to the positions are arranged on the two conveying belts; the input track sequentially conveys a plurality of lithium battery cells to the conveying belt device to form a group, two ends of each lithium battery cell are positioned and supported in positioning grooves of the two conveying belts and driven by the conveying belts to operate, the jacking block moves up and down from the middle of the two conveying belts, and lifts a group of lithium battery cells off the conveying belt device or descends to the conveying belt device; after the conveying belt device sequentially outputs a group of lithium battery cells through the output rail, the input rail sequentially conveys a plurality of lithium battery cells to the conveying belt device to form a new group.

Compared with the prior art, the utility model mainly comprises a jacking clamping mechanism arranged below a conveyor belt device for conveying lithium battery cells in sequence, a flattening mechanism is respectively arranged on two sides of the conveyor belt device, and the flattening mechanism on each side is provided with a plurality of flattening heads which rotate synchronously; like this, carry a plurality of lithium cell electricity core to form a set ofly on the conveyer belt device in proper order when linking up the input track at the conveyer belt device initiating terminal, this group of lithium cell electricity core will be lifted by jacking clamping mechanism and break away from the conveyer belt device and form the location and press from both sides tightly, can rub the flat head by a plurality of rubbing flat mechanism and simultaneously contact and rub the utmost point ear of flat this group of lithium cell electricity core tip, then jacking clamping mechanism descends to drive again and rub this group of lithium cell electricity core of flat utmost point ear and get back to the conveyer belt device again on, this group of lithium cell electricity core just can be exported in proper order to the cooperation output track at last, thereby accomplish the utmost point ear of a set of lithium cell in batches and rub flat. Meanwhile, a kneading flat head with a unique structure is designed, which comprises a main body, a kneading flat hole at the top of the main body, an inner shaft arranged in the kneading flat hole and vertical to the axial lead of the kneading flat hole, a rotating sleeve rotatably sleeved on the inner shaft and the like, and can realize automatic and rapid kneading flat of the tab; therefore, the lug flattening machine is matched with the unique flattening head, the production efficiency of the lithium battery can be obviously improved, the rejection rate of products can be reduced, and the automatic intelligent production requirement of the full-lug lithium battery can be better met.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of fig. 1 (with the locating block removed).

Fig. 3 is a sectional view a-a of fig. 2.

FIG. 4 is a schematic sectional view of the kneading block.

Fig. 5 is a perspective view of fig. 4.

Fig. 6 is a schematic structural view of the main body.

Fig. 7 is a schematic structural view of the swivel sleeve.

Fig. 8 is a structural diagram of the inner shaft.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the drawings.

As shown in fig. 1 to 8, 1 is a jacking clamping mechanism, 11 is a jacking guide post, 12 is a jacking plate, 13 is a jacking block, 14 is a jacking guide sleeve, 15 is a positioning block, 16 is a jacking cylinder, 2 is a conveying belt device, 21 is a driving wheel, 22 is a driven wheel, 23 is a conveying belt, 231 is a positioning groove, 3 is an input rail, 4 is an output rail, 6 is a transmission gear set, 7 is a kneading mechanism, 71 is a pushing guide post, 72 is a pushing plate, 73 is a support, 74 is a pushing guide sleeve, 75 is a driving motor, 76 is a pushing cylinder, 8 is a lithium battery cell, 9 is a kneading flat head, 91 is a main body, 911 is a head, 912 is a handle, 913 is an air hole, 914 is a kneading flat hole, 915 is a reverse taper hole, 916 is a side hole, 92 is an inner shaft, 921 is a middle shaft, 93 is a rotating sleeve, 931 is a chamfer outer shoulder, 932 is an end hole, 94 is an inner retainer ring, 95 is a washer, 96 is a bearing, 97 is an outer retainer ring, 97 is a bearing, and a reverse ring is a reverse ring, 98. And a nut.

The utility model provides a flat-bed machine is rubbed to utmost point ear of full utmost point ear lithium cell electricity core, as shown in fig. 1-3, mainly relate to a section and be exclusively used in automatic production machinery of rubbing flat of utmost point ear of lithium cell electricity core tip, its structure includes conveyer belt device 2, links up input track 3 at conveyer belt device initiating terminal and links up output track 4 etc. at conveyer belt device terminating end, is equipped with jacking clamping mechanism 1 below this conveyer belt device 2, and 2 both sides of conveyer belt device are equipped with respectively and rub flat-bed machine and construct 7.

The conveying belt device 2 comprises a driving wheel 21, a driven wheel 22 and two conveying belts 23 connected between the driving wheel and the driven wheel, the driving wheel 21 drives the two conveying belts 23 to form synchronous one-way operation, and a plurality of positioning grooves 231 corresponding to the positions are arranged on the two conveying belts 23.

Input track 3 carry a plurality of lithium battery electricity core 8 to conveyer belt device 2 in proper order on to make the equal location support in the constant head tank 231 of two conveyer belts 23 in the both ends of every lithium battery electricity core 8, thereby can be driven the operation by conveyer belt 23, just so can form a set of lithium battery electricity core 8 on conveyer belt 23.

The jacking clamping mechanism 1 comprises a jacking cylinder 16, two jacking guide pillars 11, a jacking plate 12 and a jacking block 13, and a positioning block 15 is also arranged above the conveyer belt device 2; the jacking plate 12 is driven by a jacking cylinder 16 to move up and down along two jacking guide posts 11 which are vertically arranged in parallel, so that a jacking block 13 on the jacking plate 12 can be driven to move up and down synchronously, and a jacking guide sleeve 14 forming the lifting movement is arranged between the jacking plate 12 and the jacking guide posts 11.

Simultaneously, jacking piece 13 is from making the lift removal in the middle of two conveyer belts 23, and the lift removal of this jacking piece can lift a set of lithium battery electricity core 8 and break away from conveyer belt device 2 or descend and get back to on conveyer belt device 2, and it is tight that jacking piece 13 also rises and to form the location with the cooperation of locating piece 15 and press from both sides that a set of lithium battery electricity core 8 that can drive on the conveyer belt device 2 lifts, also can make lithium battery electricity core 8 fastened by the centre gripping to it is more stable when rubbing flat ear to guarantee lithium battery electricity core 8 by rubbing flat head 9. Or the jacking block 13 descends and drives the group of lithium battery cells 8 to be separated from the positioning blocks 15 and then return to the conveyer belt device 2.

The kneading flat mechanisms on both sides of the conveyor belt device 2 are all the same, so the embodiment will be described in detail only by taking the kneading flat mechanism on one side as an example.

The kneading and flattening mechanism 7 comprises a propulsion cylinder 76 and a bracket 73, the bracket is arranged on a propulsion plate 72 of the propulsion mechanism 7, the propulsion cylinder can push the propulsion plate 72 to move back and forth along two propulsion guide posts 71 which are horizontally arranged in parallel, the bracket is driven to move back and forth, and a propulsion guide sleeve 74 which can move back and forth is arranged between the propulsion plate 72 and the propulsion guide posts 71.

The support 73 is provided with a plurality of flat kneading heads 9, a driving motor 75 and a transmission gear set 6, and the driving motor 75 can drive the plurality of flat kneading heads 9 to synchronously rotate through the transmission gear set 6; the propulsion cylinder 76 pushes the support 73 to be close to the conveyer belt device 2, so that the plurality of rubbing heads 9 are driven to simultaneously contact and rub the tabs at the end parts of the group of lithium battery cells 8, or the propulsion cylinder 76 pushes the support to be far from the conveyer belt device 2, so that the plurality of rubbing heads 9 are driven to simultaneously separate from the end parts of the group of lithium battery cells 8, and the plurality of rubbing heads 9 are always in a synchronous rotating state in the back-and-forth moving process of the support 73 to be close to or far away from.

Like this, carry a plurality of lithium battery electricity core 8 to form a set ofly on conveyer belt device 2 in proper order when input track 3, this group of lithium battery electricity core 8 will be lifted by jacking clamping mechanism 1 and break away from conveyer belt device 2 and form the location and press from both sides tightly, again rub flat head 9 by a plurality of rubbing flat mechanism 7 simultaneously the contact rub flat head this group of lithium battery electricity core 8 tip after, a plurality of rubs flat head 9 and will break away from, this group rubs flat lithium battery electricity core 8 of flat pole ear descend by jacking clamping mechanism 1 again and get back to conveyer belt device 2 again, cooperate output track 4 again to export this group of lithium battery electricity core 8 in proper order.

After the conveying belt device sequentially outputs a group of lithium battery cells 8 through the output rail 4, the input rail 3 sequentially conveys a plurality of lithium battery cells 8 to the conveying belt device 2 to form a new group, so that batch circulating conveying and flattening operation of the lithium battery cells 8 is formed.

Each of the kneading blocks 9 has the same structure, and each of the kneading blocks 9 includes a main body 91 as shown in fig. 4, which is composed of a head 911 and a shank 912 in a cylindrical shape, and the upper end of the shank is connected to the bottom of the head 911 and the axes of the two are overlapped; the top surface of the head 911 is provided with a flattening hole 914 arranged along the axis, the handle 912 is internally provided with an air hole 913 arranged along the axis, one end of the air hole is communicated with the flattening hole 914, and the other end of the air hole penetrates through the handle 912 and is mainly used for heat dissipation, exhaust, chip removal and the like when the pole lug is flattened.

Meanwhile, the outer port of the kneading flat hole 914 is set as an inverted cone 915, which has the functions of: when the end of the lithium battery cell 8 is inserted into the flattened hole 914, the inverted taper 915 can press the tab ends together toward the center to form a taper.

The inner shaft 92 is perpendicular to the kneading hole axis and is arranged in the kneading hole 914, and the rotating sleeve 93 is rotatably sleeved on the inner shaft 92.

Wherein, two ends of the inner shaft 92 respectively penetrate through two sides of the main body 91 and then are fixed by the nut 98 and the washer 95; the two rotating sleeves 93 are provided, the outer surface of each rotating sleeve 93 is provided with a chamfer outer shoulder 931 which is circumferentially arranged around the shaft axis of the rotating sleeve as a center as shown in fig. 4, the chamfer outer shoulder is a chamfer outer shoulder and is connected with the inverted cone opening 915, when the end part of the pole lug forms a cone shape through the inverted cone opening 915, the pole lug can be rolled towards the center by the chamfer outer shoulder 931 together, so that the pole lug can be conveniently and smoothly rolled when the rotating sleeve 93 rolls, the pole lug can be flatly rolled on the end part of the lithium battery cell 8 between the chamfer outer shoulders 931 of the two rotating sleeves 93, and the two rotating sleeves 93 can be separated by the center shaft 921 of the inner shaft 92 shown in fig. 8 so as to prevent interference between the two rotating sleeves when the two rotating sleeves rotate.

In addition, every changes set 93 the inner and all is equipped with interior retaining ring 94, and the outer end all is equipped with outer retaining ring 97, specifically is: an end hole 932 is formed at the inner end of the rotating sleeve 93, and an inner retainer ring 94, a gasket 95 and a bearing 96 for supporting the rotating sleeve 93 to rotate relative to the inner shaft 92 are sequentially sleeved on the inner shaft 92.

The outer retainer 97 is sleeved on the inner shaft 92, when the nut 98 is screwed, the outer retainer 97 is pushed, so that the outer retainer and the inner shaft 92 can be fixed on the main body 91 at the same time, and the fixed outer retainer 97 is also just matched and assembled in the side hole 916 of the main body 91 and can position the outer end of the rotating sleeve 93 to prevent the rotating sleeve 93 from being loosened outwards.

Therefore, when the end of the lithium battery cell 8 is inserted into the flattening hole 914 and the tab is tightly attached to the rotary sleeve 93, the terminal of the tab is sequentially inverted-tapered and turned over during the entering process, at this time, the lithium battery cell 8 is still positioned and clamped, the main body 91 of the flattening head 9 is driven by the driving motor 75 through the transmission gear set 6 to rotate, so that the main body 91 rotates around the axial lead of the flattening hole 914, and the rotary sleeve 93 is driven to roll circumferentially along the end of the lithium battery cell, thereby quickly flattening the tab on the end of the lithium battery cell 8.

The utility model discloses this kind of utmost point ear is rubbed flat-bed machine cooperation unique crew cut 9 of rubbing can show the production efficiency who improves the lithium cell and reduce the product disability rate, also can better satisfy the intelligent production needs of automation of full utmost point ear lithium cell.

The above description is only an embodiment of the present invention, and those skilled in the art should understand that any structural design similar to the embodiment is included in the protection scope of the present invention.

Claims (10)

1. A pole lug flattening machine for a full pole lug lithium battery cell comprises a conveying belt device (2), an input track (3) connected to the starting end of the conveying belt device and an output track (4) connected to the terminating end of the conveying belt device, and is characterized in that a jacking clamping mechanism (1) is arranged below the conveying belt device (2), flattening mechanisms (7) are respectively arranged on two sides of the conveying belt device (2), and each flattening mechanism is provided with a plurality of flattening heads (9) which rotate synchronously; input track (3) carry a plurality of lithium cell electricity core (8) in proper order and form a set ofly on conveyer belt device (2), should organize lithium cell electricity core (8) and be lifted by jacking clamping mechanism (1) and break away from conveyer belt device (2) and form the location and press from both sides tightly, again by rub a plurality of flat head (9) of mechanism (7) and rub after flat utmost point ear of should organizing lithium cell electricity core (8) tip in the contact simultaneously, by jacking clamping mechanism (1) descend and drive and rub flat utmost point ear should organize lithium cell electricity core (8) and get back to conveyer belt device (2) again, cooperate output track (4) again and export this group lithium cell electricity core (8) in proper order.

2. The pole lug flattening machine for the full-pole lithium battery cell of claim 1, characterized in that each of the flattening heads (9) comprises a main body (91) and a flattening hole (914) at the top of the main body, an inner shaft (92) installed perpendicular to the axial line of the flattening hole and a rotating sleeve (93) rotatably sleeved on the inner shaft are arranged in the flattening hole, the end of the lithium battery cell (8) is installed in the flattening hole (914) and the pole lug is tightly attached to the rotating sleeve (93), the main body (91) rotates around the axial line of the flattening hole (914) and drives the rotating sleeve (93) to roll along the circumference of the end of the lithium battery cell (8), and the pole lug is flattened at the end of the lithium battery cell.

3. The pole lug flattening machine for the full-pole lithium battery cell as claimed in claim 2, characterized in that the outer port of the flattening hole (914) is provided with an inverted taper (915), the ends of the lithium battery cell (8) are installed in the flattening hole (914), and the inverted taper (915) presses the terminal ends of the pole lugs together to form a cone towards the center.

4. The pole lug flattening machine for the full-pole lug lithium battery cell of claim 3, characterized in that the outer surface of the rotating sleeve (93) is provided with a chamfered outer shoulder (931) which is circumferentially arranged around the axis of the rotating sleeve, the chamfered outer shoulder is engaged with the inverted cone opening (915), and the tail ends of the pole lugs passing through the inverted cone opening (915) are jointly rolled towards the center.

5. The pole lug flattening machine for a full-pole lithium battery cell as claimed in claim 2, characterized in that the main body (91) comprises a head part (911) and a handle part (912), the flattening hole (914) is arranged on the top surface of the head part (911), the handle part (912) is connected to the bottom surface of the head part (911), and the axial line of the handle part (912) is overlapped with the axial line of the flattening hole (914).

6. The pole lug flattening machine for the full-pole lithium battery cell as claimed in claim 5, wherein the handle portion (912) is provided with air holes (913), one end of the air holes is communicated with the flattening hole (914), and the other end of the air holes penetrates through the handle portion (912).

7. The pole lug flattening machine for the full-pole-lug lithium battery cell of claim 2 is characterized in that the number of the rotary sleeves (93) is two, the two rotary sleeves are separated by a central shaft (921) of the inner shaft (92), each rotary sleeve (93) is provided with a chamfered outer shoulder (931), and the chamfered outer shoulders (931) of the two rotary sleeves (93) are arranged between the chamfered outer shoulders (931) to flatten the pole lug on the end of the lithium battery cell.

8. The pole lug flattening machine for the full-pole lug lithium battery cell of claim 1, characterized in that the flattening mechanism (7) comprises a propulsion cylinder (76) and a support (73), the support is provided with a plurality of flattening heads (9) and a driving motor (75), and the driving motor (75) drives the plurality of flattening heads (9) to rotate synchronously; the propulsion cylinder (76) pushes the support to be close to the conveying belt device (2), and drives the plurality of kneading flat heads (9) to simultaneously contact and knead the tabs at the end parts of the group of lithium battery electric cores (8), or the propulsion cylinder (76) pushes the support (73) to be far away from the conveying belt device (2), and drives the plurality of kneading flat heads to simultaneously separate from the end parts of the group of lithium battery electric cores (8).

9. The pole lug flattening machine for the full-pole lug lithium battery cell of claim 1, which is characterized in that the jacking clamping mechanism (1) comprises a jacking cylinder (16), two jacking guide pillars (11), a jacking plate (12) and a jacking block (13), a positioning block (15) is further arranged above the conveyor belt device (2), the jacking plate (12) is driven by the jacking cylinder (16) to move up and down along the two jacking guide pillars (11) which are vertically arranged in parallel, and the jacking block (13) on the jacking plate (12) is driven to move up and down synchronously; the jacking block (13) ascends and drives a group of lithium battery cells (8) on the conveying belt device (2) to lift to be matched with the positioning blocks (15) to form positioning clamping, or the jacking block descends and drives a group of lithium battery cells (8) to be separated from the positioning blocks (15) and return to the conveying belt device (2) again.

10. The pole lug flattening machine for the full-pole lug lithium battery cell of claim 9, characterized in that the conveyor belt device (2) comprises a driving wheel (21), a driven wheel (22) and two conveyor belts (23) connected between the driving wheel and the driven wheel, the driving wheel (21) drives the two conveyor belts (23) to form synchronous unidirectional operation, and a plurality of positioning grooves (231) corresponding to the positions are arranged on the two conveyor belts (23); the input track (3) sequentially conveys a plurality of lithium battery cells (8) to the conveyer belt device (2) to form a group, two ends of each lithium battery cell (8) are positioned and supported in positioning grooves (231) of the two conveyer belts (23) and driven by the conveyer belts (23) to operate, the jacking block (13) lifts and moves from the middle of the two conveyer belts (23), and lifts one group of lithium battery cells (8) to be separated from the conveyer belt device (2) or descend to the conveyer belt device (2); after the conveying belt device outputs a group of lithium battery cells (8) in sequence through the output rail (4), the input rail (3) conveys a plurality of lithium battery cells (8) in sequence to the conveying belt device (2) to form a new group.

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