CN219276744U

CN219276744U - Button cell flat pressing equipment

Info

Publication number: CN219276744U
Application number: CN202320119519.6U
Authority: CN
Inventors: 章荣忠; 陈志勇; 陈雷
Original assignee: Jiangxi Weidian New Energy Co Ltd
Current assignee: Jiangxi Weidian New Energy Co Ltd
Priority date: 2023-02-06
Filing date: 2023-02-06
Publication date: 2023-06-30
Anticipated expiration: 2033-02-06

Abstract

The utility model relates to the field of button cell preparation, and discloses button cell flat pressing equipment, which comprises: the transmission mechanism is used for transmitting the button cells; the flat pressing mechanism comprises a driving assembly, a flat pressing assembly and a sealing piece, wherein the flat pressing assembly comprises a flat pressing base, a limiting jig and a flat pressing core block, the limiting jig is arranged on the flat pressing base, the sealing piece is covered outside the flat pressing core block, the limiting jig is used for placing the button cell, and the driving assembly is used for driving the sealing piece and the flat pressing core block to move towards a direction close to or far away from the limiting jig; the grabbing and clamping mechanism is used for grabbing and transferring the button cell between the transmission mechanism and the platen press mechanism; the device has simple structure, and production efficiency is high, and button cell height uniformity after the flat pressing is high, and the defective rate is low characteristics.

Description

Button cell flat pressing equipment

Technical Field

The utility model relates to the field of button cell preparation, in particular to button cell flat pressing equipment.

Background

Button cell generally comprises negative pole steel casing, anodal steel casing and electric core, and button cell need carry out the level and press the process after the equipment closes the lid for with button cell level to prescribed height. The existing equipment structure is that 1 cylinder carries out flat pressing to the mode of 1 button cell, and the structure of existing equipment is complicated and huge, and is with high costs and inefficiency, and the high uniformity between the battery finished product is relatively poor after flat pressing, influences button cell's production yield.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides button cell flat pressing equipment, which can simultaneously perform flat pressing operation on batch button cells and improve the production efficiency and the high consistency of the cells.

The aim of the utility model is realized by the following technical scheme:

a button cell platen press apparatus, comprising:

the transmission mechanism is used for transmitting the button cells;

the flat pressing mechanism comprises a driving assembly, a flat pressing assembly and a sealing piece, wherein the flat pressing assembly comprises a flat pressing base, a limiting jig and a flat pressing core block, the limiting jig is arranged on the flat pressing base, the sealing piece is covered outside the flat pressing core block, the limiting jig is used for placing the button cell, and the driving assembly is used for driving the sealing piece and the flat pressing core block to move towards a direction close to or far away from the limiting jig;

the grabbing and clamping mechanism is used for grabbing and transferring the button cells between the transmission mechanism and the platen press mechanism.

In one embodiment, the driving assembly comprises a first driving member, a second driving member, a supporting member and a lifting member, wherein the first driving member is arranged on the supporting member, the second driving member is arranged on the lifting member, and the first driving member is used for driving the lifting member to perform lifting motion.

In one embodiment, the lifting member comprises a lifting plate and a connecting plate, the lifting plate is connected with the connecting plate, the connecting plate is in sliding connection with the supporting member, the output end of the first driving member is connected with the connecting plate, and the second driving member is arranged on the lifting plate.

In one embodiment, the output end of the second driving member is connected with the flat pressing core block, and the sealing member is arranged on one surface of the lifting plate, which is close to the limiting jig.

In one embodiment, the limiting jig is provided with a plurality of limiting grooves, each limiting groove is used for accommodating the button cell, two sides of the limiting jig are provided with limiting blocks, and the limiting blocks are used for limiting the down pressure height of the flat pressing core block.

In one embodiment, the conveying mechanism comprises an incoming material conveying device and a feeding conveying device, the incoming material conveying device and the feeding conveying device are respectively arranged at two ends of the flat pressing mechanism, the grabbing and clamping mechanism comprises a moving assembly, a feeding assembly and a discharging assembly, the moving assembly is used for driving the feeding assembly and the discharging assembly to reciprocate, the feeding assembly is used for clamping and transferring button cells on the incoming material conveying device to the flat pressing mechanism, and the discharging assembly is used for clamping and transferring the button cells after flat pressing to the feeding conveying device.

In one embodiment, the moving assembly comprises a moving slide rail and a third driving piece, the third driving piece is used for driving the feeding assembly and the discharging assembly to move back and forth along the moving slide rail, the feeding assembly comprises a plurality of first cylinder clamping jaws and a first mounting seat, the first cylinder clamping jaws are arranged on the first mounting seat side by side, the discharging assembly comprises a plurality of second cylinder clamping jaws and a second mounting seat, and the second cylinder clamping jaws are arranged on the second mounting seat side by side.

In one embodiment, the incoming material transmission device comprises a transmission assembly, a discharging assembly, an ejection assembly and a material receiving jig, wherein the transmission assembly comprises a transmission belt and a transmission drive, the transmission drive is used for driving the transmission belt to transmit, the discharging assembly and the ejection assembly are sequentially arranged along the transmission belt, and the material receiving jig is arranged on one side, away from the ejection assembly, of the transmission belt.

In one embodiment, the discharging assembly comprises a first intercepting part and a second intercepting part, the first intercepting part and the second intercepting part are sequentially arranged along the conveying direction of the conveying belt, and the first intercepting part and the second intercepting part are mutually matched to release button cells on the conveying belt one by one.

In one embodiment, the ejection assembly comprises a plurality of ejection pieces and a plurality of spacing pieces, the plurality of ejection pieces are arranged at intervals along the conveying direction of the conveying belt, one spacing piece is arranged between every two ejection pieces, the plurality of spacing pieces are used for spacing and positioning the button cell, and the plurality of ejection pieces are used for pushing the button cell to the limiting jig.

Compared with the prior art, the utility model has at least the following advantages:

according to the button cell flat pressing device, the transmission mechanism, the flat pressing mechanism and the grabbing and clamping mechanism are arranged, wherein the transmission mechanism and the grabbing and clamping mechanism can realize automatic feeding and discharging of the button cell, the flat pressing mechanism is provided with the driving component, the flat pressing component and the sealing piece, the driving component, the flat pressing component and the sealing piece are mutually matched, batch flat pressing of the button cell can be realized, and meanwhile, the height consistency of the button cell can be improved.

Drawings

Fig. 1 is a schematic structural view of a button cell flat pressing apparatus according to an embodiment of the present utility model;

fig. 2 is a schematic structural view of a platen press mechanism of the button cell platen press apparatus shown in fig. 1;

fig. 3 is a schematic structural diagram of a grabbing and clamping mechanism of the button cell flat pressing device shown in fig. 1;

fig. 4 is a schematic structural diagram of an incoming material conveying device of the button cell flat pressing apparatus shown in fig. 1;

fig. 5 is a schematic view of a part of a structure of an incoming material conveying device of the button cell flat pressing device shown in fig. 1.

Description of the embodiments

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1 and 2, a button cell platen press apparatus 10 includes: the device comprises a transmission mechanism 100, a flat pressing mechanism 200 and a grabbing and clamping mechanism 300, wherein the transmission mechanism 100 is used for conveying button cells; the flat pressing mechanism 200 comprises a driving assembly 210, a flat pressing assembly 220 and a sealing piece 230, wherein the flat pressing assembly 220 comprises a flat pressing base 221, a limiting jig 222 and a flat pressing core block 223, the limiting jig 222 is arranged on the flat pressing base 221, the sealing piece 230 is covered outside the flat pressing core block 223, the limiting jig 222 is used for placing a button cell, and the driving assembly 210 is used for driving the sealing piece 230 and the flat pressing core block 223 to move towards a direction approaching or far away from the limiting jig 222; the grabbing and clamping mechanism 300 is used for grabbing and transferring the button cells between the conveying mechanism 100 and the flattening mechanism 200.

It should be noted that, the leveling device in the existing production line mainly comprises a plurality of leveling units, each leveling unit adopts a cylinder to drive a leveling block to perform leveling operation on a button cell, the structure is more complex, the height consistency of the button cell after leveling is poorer, the button cell is used as a miniature cell, the size is tiny, the requirement on the height consistency is higher, and the tiny height difference can directly lead to the qualification rate of the finished button cell, therefore, the inventor of the utility model proposes a new button cell leveling device 10 based on the defects of the existing leveling device, and the action flow of the button cell leveling device 10 is as follows: the button cell to be pressed flatly is transmitted to the working area of the grabbing and clamping mechanism 300 by the transmission mechanism 100, the grabbing and clamping mechanism 300 is started to clamp and rotate the button cell to be pressed flatly onto the limiting jig 222, then the driving assembly 210 is started to enable the sealing element 230 to move downwards until the sealing element 230 is attached to the flatly pressing base 221 and seals the limiting assembly, vacuumizing operation is firstly carried out, the driving assembly 210 is started continuously after vacuumizing, the flatly pressing core block 223 is enabled to move downwards until the flatly pressing core block abuts against the limiting jig 222, and meanwhile the flatly pressing operation of the button cell is completed.

It should be noted that, a plurality of first limiting grooves 2221 are formed in the limiting jig 222, each first limiting groove 2221 is used for accommodating a button cell, two sides of the limiting jig 222 are provided with a height limiting block 2222, and the height limiting block 2222 is used for limiting the down-pressure height of the flat pressing core block 223.

It should be noted that, the sealing member 230 is provided with a vacuum pipe 231 for connecting with an external vacuumizing device, the sealing member 230 is covered outside the platen roller block 223, when the driving assembly 210 starts to drive the sealing member 230 to move downwards until the sealing member 230 is attached to the platen roller base 221, at this time, the platen roller block 223 and the limiting jig 222 are sealed inside the sealing member 230 at the same time, the external vacuumizing device starts to perform vacuumizing operation, so that the inside of the button cell is vacuumized and then performs platen roller operation; further, the sealing rubber ring is further arranged on the surface of the sealing member 230 close to the bottom of the platen base 221, so that the sealing effect between the sealing member 230 and the platen base 221 can be improved.

Referring to fig. 2, in one embodiment, the driving assembly 210 includes a first driving member 211, a second driving member 212, a supporting member 213, and a lifting member 214, wherein the first driving member 211 is disposed on the supporting member 213, the second driving member 212 is disposed on the lifting member 214, and the first driving member 211 is used for driving the lifting member 214 to perform lifting motion.

It should be noted that, the supporting member 213 includes a stand 2131 and a horizontal mounting plate 2132, one end of the stand 2131 is mounted on the platen base 221, the other end of the stand 2131 is connected with the horizontal mounting plate 2132, the first driving member 211 is disposed on the horizontal mounting plate 2132, when the platen operation is performed, the first driving member 211 is started and drives the lifting member 214 to move in a direction close to the platen base 221 until the sealing member 230 is attached to the platen base 221, and then the second driving member 212 drives the platen core 223 to move downward and press the button cell.

Referring to fig. 2, in one embodiment, the lifting member 214 includes a lifting plate 2141 and a connecting plate 2142, the lifting plate 2141 is connected to the connecting plate 2142, the connecting plate 2142 is slidably connected to the supporting member 213, the output end of the first driving member 211 is connected to the connecting plate 2142, and the second driving member 212 is disposed on the lifting plate 2141; the output end of the second driving member 212 is connected to the platen core 223, and the sealing member 230 is disposed on a surface of the lifting plate 2141, which is close to the limiting fixture 222. Wherein, the connecting plate 2142 is slidably connected to the supporting member 213 through the sliding rail 215, so as to improve the stability of the lifting movement of the lifting member 214,

referring to fig. 1 and 3, in one embodiment, a conveying mechanism 100 includes an incoming material conveying device 110 and a feeding material conveying device 120, the incoming material conveying device 110 and the feeding material conveying device 120 are respectively disposed at two ends of a platen press mechanism 200, a grabbing and clamping mechanism 300 includes a moving assembly 310, a feeding assembly 320 and a discharging assembly 330, the moving assembly 310 is used for driving the feeding assembly 320 and the discharging assembly 330 to reciprocate, the feeding assembly 320 is used for clamping and transferring button cells on the incoming material conveying device 110 onto the platen press mechanism 200, and the discharging assembly 330 is used for clamping and transferring button cells after platen press onto the feeding material conveying device 120.

It should be noted that, the incoming material conveying device 110 conveys the button cell to be pressed flatly, then the feeding component 320 cooperates with the moving component 310 to clamp and transfer the button cell to be pressed flatly onto the flatly pressing mechanism 200, and after the flatly pressing mechanism 200 completes the flatly pressing operation, the discharging component 330 cooperates with the moving component 310 to clamp and transfer the button cell on the flatly pressing mechanism 200 onto the material conveying device 120, so that automatic feeding and discharging of the button cell in the flatly pressing process are completed, manual operation is reduced, and production efficiency is improved.

Referring to fig. 3, in one embodiment, the moving assembly 310 includes a horizontal sliding rail 311, a horizontal driving member 312, and a lifting driving member 313, the lifting driving member 313 is slidably disposed on the horizontal sliding rail 311, the feeding assembly 320 and the discharging assembly 330 are disposed on the lifting driving member 313, the horizontal driving member 312 is used for driving the feeding assembly 320 and the discharging assembly 330 to move back and forth along the horizontal sliding rail 311, the lifting driving member 313 is used for driving the feeding assembly 320 and the discharging assembly 330 to perform lifting movement, the feeding assembly 320 includes a plurality of first cylinder clamping jaws 321 and a first mounting seat 322, the plurality of first cylinder clamping jaws 321 are disposed on the first mounting seat 322 side by side, the discharging assembly 330 includes a plurality of second cylinder clamping jaws 331 and a second mounting seat 332, and the plurality of second cylinder clamping jaws 331 are disposed on the second mounting seat 332 side by side.

It should be noted that, the plurality of first cylinder clamping jaws 321 and the plurality of second cylinder clamping jaws 331 can realize batch feeding and discharging of the button cells, thereby improving production efficiency; further, be provided with a plurality of clamping positions on every first cylinder clamping jaw 321 and the second cylinder clamping jaw 331, can press from both sides simultaneously and get at least more than one waiting to press button cell, wherein the shape in every clamping position and button cell's lateral wall phase-match can improve the centre gripping stability, avoids dropping button cell in the centre gripping transportation process.

Referring to fig. 4 and 5, in one embodiment, the incoming material conveying device 110 includes a conveying assembly 111, a discharging assembly 112, an ejection assembly 113 and a receiving jig 114, the conveying assembly 111 includes a conveying belt 1111 and a conveying drive, the conveying drive is used for driving the conveying belt 1111 to convey, the discharging assembly 112 and the ejection assembly 113 are sequentially arranged along the conveying belt 1111, and the receiving jig 114 is arranged on one side of the conveying belt 1111 away from the ejection assembly 113.

It should be noted that, the button cells to be pressed flatly are transferred by the conveyor belt 1111, then are intercepted by the discharging assembly 112, the discharging assembly 112 releases the button cells to be pressed flatly one by one, the ejecting assembly 113 firstly performs distance positioning on the button cells, then ejects the button cells onto the receiving jig 114, then the feeding assembly 320 starts, and simultaneously clips and transfers the button cells on the receiving jig 114 onto the limiting jig 222, that is, the receiving jig 114 is provided with a plurality of second limiting grooves 1141, a plurality of first limiting grooves 2221, a plurality of first cylinder clamping jaws 321 and a plurality of second cylinder clamping jaws 331, which are matched one by one, so that automatic, accurate and batch feeding and discharging of the button cells can be realized, and the pressing efficiency is remarkably improved.

Further, each first limit groove 2221 and each second limit groove 1141 can limit a plurality of button cells at the same time, so as to increase the number of button cells that are clamped and transferred each time.

Referring to fig. 4 and 5, in one embodiment, the discharging assembly 112 includes a first intercepting member 1121 and a second intercepting member 1122, the first intercepting member 1121 and the second intercepting member 1122 are sequentially disposed along the conveying direction of the conveyor belt 1111, and the first intercepting member 1121 and the second intercepting member 1122 cooperate to release the button cells on the conveyor belt 1111 one by one.

A first sensor 1123 is disposed between the first shut-off member 1121 and the second shut-off member 1122, wherein the first shut-off member 1121 includes a first shut-off cylinder and a first shut-off block, an output end of the first shut-off cylinder is connected to the first shut-off block, and the first shut-off cylinder drives the first shut-off block to move in a direction approaching or separating from the conveyor belt 1111; the second intercepting member 1122 includes a second intercepting cylinder and a second intercepting block, the output end of the second intercepting cylinder is connected with the second intercepting block, the second intercepting cylinder drives the second intercepting block to move towards a direction close to or far away from the conveyor belt 1111, when the conveyor belt 1111 conveys the button cells until the button cells are blocked by the second intercepting block, the first sensor 1123 senses the button cells at the moment and feeds back signals to the first intercepting member 1121, the first intercepting driving member drives the first intercepting block to move towards the conveyor belt 1111 so that only one button cell exists between the first intercepting block and the second intercepting block, and then the second intercepting driving member drives the second intercepting block to move towards a direction far away from the conveyor belt 1111, so that the button cells can be discharged one by one through the mutual cooperation of the first intercepting member 1121 and the second intercepting member 1122.

Referring to fig. 4 and 5, in one embodiment, the ejection assembly 113 includes a plurality of ejection members 1131 and a plurality of spacing members 1132, the plurality of ejection members 1131 are disposed along the conveying direction of the conveyor belt 1111 at intervals, a spacing member 1132 is disposed between every two ejection members 1131, the plurality of spacing members 1132 are used for spacing and positioning the button cell, and the plurality of ejection members 1131 are used for pushing the button cell onto the spacing fixture 222.

It should be noted that, each ejection member 1131 includes an ejection cylinder and an ejection block 1131a, the ejection cylinder is used for driving the ejection block 1131a to move towards a direction approaching or separating from the conveyor belt 1111, and the positions of the plurality of ejection members 1131 and the plurality of second limiting grooves 1141 are in one-to-one correspondence; each distance separating member 1132 comprises a distance separating cylinder 1132a and a distance separating block 1132b, the distance separating cylinders 1132a are used for driving the distance separating blocks 1132b to move towards or away from the conveyor belt 1111, the ejection assembly 113 further comprises a plurality of second sensors 1133, the plurality of second sensors 1133 are sequentially arranged at intervals, the plurality of second sensors 1133 are mutually matched with the plurality of distance separating members 1132, so that every two button cells on the conveyor belt 1111 are separated and positioned by one distance separating block 1132b, and then the ejection cylinders drive the ejection blocks 1131a to push the button cells on the conveyor belt 1111 to corresponding second limit grooves 1141; further, in order to improve the positioning accuracy of the button cell, the guide piece 1112 is arranged on the conveyor belt 1111, so that the conveying direction of the button cell on the conveyor belt 1111 is stable, a plurality of avoiding grooves are formed in the guide piece 1112, the avoiding grooves are matched with the second limiting grooves 1141 and the ejection blocks 1131a one by one, and the button cell can enter the second limiting grooves 1141 through the avoiding grooves.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims

1. A button cell platen press apparatus, comprising:

the transmission mechanism is used for transmitting the button cells;

2. The coin cell platen press of claim 1, wherein the drive assembly includes a first drive member disposed on the support member, a second drive member disposed on the lift member, and a support member and a lift member, the first drive member being configured to drive the lift member to perform a lifting motion.

3. The coin cell platen apparatus of claim 2, wherein the lifter includes a lifter plate and a connecting plate, the lifter plate being connected to the connecting plate, the connecting plate being slidably connected to the support member, an output end of the first driver being connected to the connecting plate, and the second driver being disposed on the lifter plate.

4. The button cell flat pressing apparatus according to claim 3, wherein the output end of the second driving member is connected to the flat pressing core block, and the sealing member is disposed on a surface of the lifting plate, which is close to the limiting jig.

5. The button cell flat pressing apparatus according to claim 1, wherein a plurality of limiting grooves are formed in the limiting jig, each limiting groove is used for accommodating the button cell, limiting blocks are arranged on two sides of the limiting jig, and the limiting blocks are used for limiting the down-pressing height of the flat pressing core block.

6. The button cell flat pressing apparatus according to claim 1, wherein the conveying mechanism comprises an incoming material conveying device and a feeding conveying device, the incoming material conveying device and the feeding conveying device are respectively arranged at two ends of the flat pressing mechanism, the grabbing and clamping mechanism comprises a moving assembly, a feeding assembly and a discharging assembly, the moving assembly is used for driving the feeding assembly and the discharging assembly to reciprocate, the feeding assembly is used for clamping and transferring button cells on the incoming material conveying device to the flat pressing mechanism, and the discharging assembly is used for clamping and transferring button cells after flat pressing to the feeding conveying device.

7. The button cell platen press of claim 6, wherein the moving assembly comprises a moving slide rail and a third driving member, the third driving member is used for driving the feeding assembly and the discharging assembly to move back and forth along the moving slide rail, the feeding assembly comprises a plurality of first cylinder clamping jaws and a first mounting seat, the plurality of first cylinder clamping jaws are arranged on the first mounting seat side by side, the discharging assembly comprises a plurality of second cylinder clamping jaws and a second mounting seat, and the plurality of second cylinder clamping jaws are arranged on the second mounting seat side by side.

8. The button cell platen press of claim 6, wherein the incoming material transmission device comprises a transmission assembly, a discharging assembly, an ejection assembly and a material receiving jig, the transmission assembly comprises a transmission belt and a transmission drive, the transmission drive is used for driving the transmission belt to transmit, the discharging assembly and the ejection assembly are sequentially arranged along the transmission belt, and the material receiving jig is arranged on one side of the transmission belt away from the ejection assembly.

9. The coin cell platen press of claim 8, wherein the blanking assembly includes a first shut-off member and a second shut-off member, the first shut-off member and the second shut-off member being disposed in sequence along a conveying direction of the conveyor belt, the first shut-off member and the second shut-off member cooperating with each other to release the coin cells on the conveyor belt one by one.

10. The button cell leveling device of claim 9, wherein the ejection assembly comprises a plurality of ejection pieces and a plurality of spacing pieces, the plurality of ejection pieces are arranged at intervals along the conveying direction of the conveying belt, one spacing piece is arranged between every two ejection pieces, the plurality of spacing pieces are used for spacing and positioning the button cell, and the plurality of ejection pieces are used for pushing the button cell to the limiting jig.