CN110977123A - Welding lug machine equipment for double-body button cell - Google Patents

Abstract

The invention discloses a double-body button cell welding machine device which comprises a rack platform, wherein a turntable mechanism is arranged in the middle of the rack platform, a cell feeding mechanism, an electrode plate feeding mechanism, a welding mechanism, a turnover mechanism, a detection mechanism and a discharging mechanism are sequentially arranged on the rack platform and around the edge of the turntable mechanism, a cam is arranged above the turntable mechanism and is fixed relative to the rack platform, and an electrode plate pressing mechanism is arranged on the turntable mechanism and around the edge of the cam. According to the welding lug machine equipment for the double-body button cell, provided by the invention, the welding of the cell and the electrode plate can be automatically finished by matching the cell feeding mechanism, the electrode plate feeding mechanism, the welding mechanism, the turnover mechanism, the detection mechanism and the discharging mechanism with the turntable mechanism, the quality of a product is ensured, the labor cost and the labor intensity are greatly reduced, the productivity is improved, and the working efficiency is effectively improved.

Description

Welding lug machine equipment for double-body button cell

Technical Field

The invention relates to the technical field of automatic battery assembling equipment, in particular to double-body button battery welding lug machine equipment.

Background

Button cells are widely used in electronic products due to their small size. On the computer mainboard, the button cell needs to supply power for basic input and output system under the condition that the mainboard is not electrified, so as to record the basic loading information and the system time of system hardware, but the power supply quantity of a single button cell is smaller, so that in order to meet the power supply requirement of the computer mainboard, a plurality of button cells need to be assembled and welded and then inserted into the computer mainboard to complete power supply.

In the prior art, the production and processing of the button cell need to weld soldering lugs on the front surface and the back surface of the cell, so that the button cell can be used as a positive electrode and a negative electrode. The traditional welding mode of the button cell welding lug is manual welding, and a welder places the welding lug on the cell for welding in a manual mode. Because the button cell has small volume, manual welding operation is inconvenient, and the influence on the welding quality and the production efficiency is serious. In the process of mass production and processing, welding personnel are often required to be added for production, so that the production cost is increased, and the development of enterprises is not facilitated.

The utility model discloses a chinese utility model patent with application number 201521077359.5 discloses a button cell soldering lug machine, though accomplished double-sided welding, its structure sets up comparatively complicatedly, and efficiency is not high, and does not contain electrically conductive detection mechanism, and the unable very first time verifies that the welding is effective.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

In view of the defects in the prior art, the invention aims to provide the welding lug machine equipment for the double-body button cell, which can effectively improve the welding efficiency, accuracy and yield of the cell and the electrode lug.

In order to solve the technical problems, the invention adopts the following technical scheme:

a double-body button cell welding machine device comprises a rack platform, wherein a turntable mechanism is arranged in the middle of the rack platform, a cell feeding mechanism, an electrode plate feeding mechanism, a welding mechanism, a turnover mechanism, a detection mechanism and a discharging mechanism are sequentially arranged on the rack platform and around the edge of the turntable mechanism, a cam is arranged above the turntable mechanism and is fixed relative to the rack platform, and an electrode plate pressing mechanism is arranged on the turntable mechanism and around the edge of the cam.

The welding machine equipment for the double-body button cell comprises an electrode sheet feeding mechanism, a welding mechanism, a first welding mechanism and a second welding mechanism, wherein the electrode sheet feeding mechanism comprises a first electrode sheet feeding mechanism and a second electrode sheet feeding mechanism, the first electrode sheet feeding mechanism is arranged on one side of the battery feeding mechanism, the first welding mechanism is arranged between the first electrode sheet feeding mechanism and one side of the turnover mechanism, and the second electrode sheet feeding mechanism and the second welding mechanism are sequentially arranged on the other side of the turnover mechanism.

The welding machine equipment for the double-body button cell is characterized in that a sliding rail for conveying the cell is arranged on the cell feeding mechanism, a manipulator is arranged at one end, close to the turntable mechanism, of the sliding rail, a sucker and a rail are arranged on the manipulator, the sucker is controlled by an air cylinder, and the sucker can slide on the rail.

The electrode plate feeding mechanism comprises a vibration disc, a discharging track, a material pushing mechanism and a clamping device, the clamping device is used for placing electrode plates on stations, the discharging track is connected with the vibration disc, the material pushing mechanism is arranged at the tail end of the discharging track, and the clamping device is arranged on one side of the discharging track.

The welding mechanism comprises a fixed column, a pushing cylinder for clamping a jig, a butt-welding machine and a welding pin, the pushing cylinder is slidably arranged on the fixed column, the butt-welding machine is arranged above the pushing cylinder, and a clamping claw for clamping the welding pin is arranged at the tail of the butt-welding machine.

The welding lug machine equipment for the double-body button cell comprises a fixed support, a vertical pushing mechanism arranged on the fixed support, a translation mechanism arranged on the vertical pushing mechanism, a rotating mechanism arranged on the translation mechanism and a pneumatic claw arranged at the tail part of the rotating mechanism and used for clamping a cell.

The welding machine equipment for the double-body button cell comprises a detection mechanism and a control mechanism, wherein the detection mechanism comprises a fixed rod, a positive pole vertical pushing mechanism arranged at the top end of the fixed rod and a negative pole vertical pushing mechanism arranged on one side of the fixed rod and positioned below the positive pole vertical pushing mechanism.

The welding lug machine equipment for the double-body button cell is characterized in that the discharging mechanism comprises a feeding mechanism and a transferring mechanism, the transferring mechanism is arranged above the feeding mechanism, and the transferring mechanism stretches across the feeding mechanism.

The welding lug machine equipment for the double-body button cell is characterized in that the transfer mechanism comprises a translation module, a vertical pushing module and a vacuum suction head, wherein the vertical pushing module is arranged on the translation module, and the vacuum suction head is arranged on the vertical pushing module.

The welding machine equipment for the double-body button cell comprises a welding machine, wherein the feeding mechanism comprises a customer material tray, a translation mechanism is arranged below the customer material tray, a plastic tray is arranged at the tail part of the translation mechanism, a vertical pushing mechanism is arranged below the plastic tray, the vertical pushing mechanism can vertically jack the plastic tray, supporting frames are arranged on the periphery of the plastic tray, and supporting block assemblies used for fixing the customer material tray are further arranged on the supporting frames.

Compared with the prior art, the invention discloses a double-body button cell welding machine device, which comprises a rack platform, wherein a turntable mechanism is arranged in the middle of the rack platform, a cell feeding mechanism, an electrode plate feeding mechanism, a welding mechanism, a turnover mechanism, a detection mechanism and a discharge mechanism are sequentially arranged on the rack platform and around the edge of the turntable mechanism, a cam is arranged above the turntable mechanism, the cam is fixed relative to the rack platform, and an electrode plate pressing mechanism is arranged on the turntable mechanism and around the edge of the cam. Meanwhile, the labor cost and the labor intensity are greatly reduced, the productivity is improved, and the working efficiency is effectively improved.

Drawings

Fig. 1 is a top view of a soldering lug machine for a double-body button cell provided by the invention.

Fig. 2 is a perspective view of a soldering lug machine for a double-body button cell provided by the invention.

Fig. 3 is a top view of a battery feeding mechanism of the soldering lug machine for the double-body button cell provided by the invention.

Fig. 4 is a perspective view of a partial structure of a soldering lug machine for a double-body button cell provided by the invention.

Fig. 5 is a partial structural plan view of a soldering lug machine for a double-body button cell provided by the invention.

Fig. 6 is a perspective view of an electrode plate pressing mechanism of a welding electrode machine device for a double-body button cell battery provided by the invention.

Fig. 7 is a front view of a welding mechanism of a two-body button cell welding machine device provided by the invention.

Fig. 8 is a perspective view of a turnover mechanism of the soldering lug machine for the double-body button cell provided by the invention.

Fig. 9 is a perspective view of an electrode plate feeding mechanism of the double-body button cell welding machine equipment provided by the invention.

Fig. 10 is a partial structural perspective view of an electrode plate feeding mechanism of a two-body button cell welding machine device provided by the invention.

Fig. 11 is a perspective view of a detection mechanism of a soldering lug machine for a double-body button cell provided by the invention.

Fig. 12 is a front view of the feeding mechanism of the soldering lug machine for the double-body button cell provided by the invention.

Fig. 13 is a perspective view of a feeding mechanism of a soldering lug machine for double-body button cells provided by the invention.

Fig. 14 is an enlarged view of fig. 13A.

Fig. 15 is a perspective view of a transfer mechanism of a soldering lug machine for double-body button cells provided by the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

The embodiment of the invention provides a double-body button cell welding machine device, and with reference to fig. 1-9, the double-body button cell welding machine device comprises a rack platform 1, a turntable mechanism 2 is arranged in the middle of the rack platform 1, a cell feeding mechanism 3, an electrode plate feeding mechanism 4, a welding mechanism 5, a turnover mechanism 6, a detection mechanism 7 and a discharging mechanism 8 are sequentially arranged on the rack platform 1 and around the edge of the turntable mechanism 2, a cam 9 is arranged above the turntable mechanism 2, the cam 9 is fixed relative to the rack platform 1, and an electrode plate pressing mechanism 11 is arranged on the turntable mechanism 2 and around the edge of the cam 9.

In the embodiment of the invention, the rack platform 1 serves as a supporting base of the whole equipment, an installation platform is provided, the turntable mechanism 2 is arranged in the middle of the rack platform 1, a certain installation space is conveniently reserved for other devices, meanwhile, the distribution of each equipment is more neat and attractive, and a battery feeding mechanism 3 for placing a battery on a station of the turntable mechanism 2, an electrode plate feeding mechanism 4 for placing an electrode plate on the battery, a welding mechanism 5 for welding the battery and the electrode plate together, a turnover mechanism 6 for automatically turning over the battery, a detection mechanism 7 for detecting whether the battery and the electrode plate are well conductive and a final discharging mechanism 8 are sequentially arranged around the turntable mechanism 2 according to an assembly process.

Still specifically, be provided with electrode piece hold-down mechanism 11 on carousel mechanism 2, electrode piece hold-down mechanism 11 still includes tool 10, electrode piece hold-down mechanism 11's quantity is 10, electrode piece hold-down mechanism 11 evenly distributed in on carousel mechanism 2, the shape of cam 9 is irregular circular, works as when carousel mechanism 2 rotates, second follow-up gyro wheel 12 on the electrode piece hold-down mechanism 11 is pasting cam 9 and is rotating along with carousel mechanism 2, and under extension spring 13's effect, then compress tightly when extension spring 13 compresses tightly, then relaxs when extension spring 13 is tensile, and is corresponding, can correspond the action that different stations realized compressing tightly or relaxing battery and electrode piece.

Meanwhile, in order to prevent the electrode plate pressing mechanism 11 from carrying the electrode plate when being pressed or loosened under the action of the cam 9, the second follow-up roller 12 and the tension spring 13, the electrode plate pressing mechanism 11 is also provided with a first follow-up roller 14 and a pressure spring 15 below the electrode plate pressing position, the first follow-up roller 14 is matched with a jacking cam 16 arranged below the first follow-up roller 14, when the first follow-up roller 14 rolls to the upper part of the jacking cam 16 along with the turntable mechanism 2, the pressure spring 15 is further compressed, the electrode plate pressing position is jacked, the electrode plate pressing mechanism 11 can be prevented from carrying the electrode plate when being pressed or loosened, and the jacking cam 16 is provided with three jacking cams 16 which are uniformly distributed below the turntable mechanism 2 and fixed through the rack platform 1.

When the electrode plate pressing mechanism 11 is pressed, the tension spring 13 is compressed, and meanwhile, the compression spring 15 is in a normal state, namely, the first follow-up roller 14 does not roll above the jacking cam 16, so that the electrode plate pressing mechanism 11 is in a pressing state; when the electrode plate pressing mechanism 11 is released, the tension spring 13 extends, and meanwhile, the compression spring 15 is in a compressed state, namely, the first follow-up roller 14 rolls above the jacking cam 16 to jack up the pressed part of the electrode plate, so that the electrode plate is not taken away when the electrode plate pressing mechanism 11 is in the released state.

Further, when each battery is placed on the rotary table station by the battery feeding mechanism 3, the rotary table mechanism 2 rotates one station, and simultaneously performs the next operation, and when the rotary table mechanism 2 rotates one circle, the work of double-side welding of the battery and the electrode plate and the like can be completed.

More specifically, referring to fig. 2, fig. 3 and fig. 5, the battery feeding mechanism 3 conveys the batteries from the battery tray (not shown in the figure) to the jigs 10, the number of the jigs 10 is 10 according to the process requirement, and the jigs 10 are uniformly distributed on the rotating plate, so as to start the next operation.

With reference to fig. 1, the electrode sheet feeding mechanism 4 includes a first electrode sheet feeding mechanism 41 and a second electrode sheet feeding mechanism 42, the welding mechanism 5 includes a first welding mechanism 51 and a second welding mechanism 52, the first electrode sheet feeding mechanism 41 is disposed at one side of the battery feeding mechanism 3, the first welding mechanism 51 is disposed between the first electrode sheet feeding mechanism 41 and one side of the turnover mechanism 6, and the second electrode sheet feeding mechanism 42 and the second welding mechanism 52 are sequentially disposed at the other side of the turnover mechanism 6.

According to the operation procedures, the first procedure firstly conveys the battery to the jig 10 through the battery feeding mechanism 3, the turntable mechanism 2 rotates for one station, the second procedure conveys the first electrode plate to the jig 10 through the first electrode plate feeding mechanism 41, the turntable mechanism 2 continuously rotates for one station, the third procedure carries out the first welding through the first welding mechanism 51, the turntable mechanism 2 continuously rotates for one station, the fourth procedure overturns the battery and the electrode plate which are welded for the first time through the overturning mechanism 6, the turntable mechanism 2 continuously rotates for one station, the fifth procedure conveys the second electrode plate to the jig 10 through the second electrode plate feeding mechanism 42, the turntable mechanism 2 continuously rotates for one station, the sixth procedure carries out the second welding through the second welding mechanism, the turntable mechanism 2 continuously rotates for one station, and finally the detection mechanism detects whether the conductivity is good or not, carousel mechanism 2 continues to rotate a station, puts into the material dish by discharge mechanism with welded battery and electrode slice module again, and then accomplishes the welding process of whole battery and electrode slice, has guaranteed the quality of product, simultaneously greatly reduced cost of labor and intensity of labour, improved productivity, effectively promoted work efficiency.

Further, referring to fig. 3, a slide rail 31 for conveying the battery is disposed on the battery feeding mechanism 3, a manipulator 32 is disposed at one end of the slide rail 31 close to the turntable mechanism 2, a suction cup 33 and a rail 34 are disposed on the manipulator 32, the suction cup 33 is controlled by an air cylinder 34, and the suction cup 33 can slide on the rail 34.

Specifically, when the battery is conveyed to the tail end of the slide rail 31, the battery is sucked up by the suction cup 33 on the manipulator 32, then the battery is conveyed to the upper side of the jig 10 through the rail 34, the battery on the suction cup 33 is placed into the designated station of the jig 10 through the air cylinder 34, and the suction cup 33 returns to perform the next suction, so that the reciprocating and the circular actions are performed, and the assembly efficiency is further improved.

Further, referring to fig. 9 and 10, the electrode sheet feeding mechanism 4 includes a vibration disc 411, a discharging rail 412, a material pushing mechanism 413, and a clamping device 414 for placing an electrode sheet on a station, the discharging rail 412 is connected to the vibration disc 411, the material pushing mechanism 413 is disposed at the tail end of the discharging rail 412, and the clamping device 414 is disposed at one side of the discharging rail 412.

Specifically, the electrode sheet is arranged in the vibration disc 411, comes out of the vibration disc 411 according to a required state shape, is conveyed to the tail end of the discharge rail 412 through the discharge rail 412, is pushed to the position right above the clamping device 414 through the material pushing mechanism 413, and is clamped to a designated station of the jig 10 through the clamping device 414.

More specifically, the clamping device 414 is provided with a clamping jaw 415, a pushing cylinder 416 for pushing the clamping jaw to move horizontally, and a vertical cylinder 417 for vertically moving the clamping jaw up and down, wherein the clamping jaw 415 is responsible for sucking up the electrode sheet, clamping the electrode sheet to the upper side of the jig 10 by using the pushing cylinder 416, and finally putting the electrode sheet into a designated station of the jig 10 by using the vertical cylinder 417.

Further, referring to fig. 7, the welding mechanism 5 includes a fixing column 511, a pushing cylinder 512 for clamping the jig, a spot-welding machine 513 and a welding pin 514, the pushing cylinder 512 is slidably disposed on the fixing column 511, the spot-welding machine 513 is disposed above the pushing cylinder 512, and a clamping claw 515 for clamping the welding pin 514 is disposed at a tail of the spot-welding machine 513.

Specifically, when the station of the battery with the electrode plate is rotated to the position right below the welding mechanism 5, the pushing cylinder 512 is firstly pushed to transversely compress the battery with the electrode plate, and then the battery and the electrode plate are welded through the butt-welding machine 513 and the welding pin 514, so that the whole process is simple, efficient, convenient and quick.

Further, referring to fig. 8, the turnover mechanism 6 includes a fixing bracket 61, a vertical pushing mechanism 62 disposed on the fixing bracket 61, a translation mechanism 63 disposed on the vertical pushing mechanism 62, a rotation mechanism 64 disposed on the translation mechanism 63, and an air claw 65 disposed at the tail of the rotation mechanism 64 and used for clamping the battery.

Specifically, when the battery and the electrode plate after the first welding are rotated to the lower side of the turnover mechanism 6, the gas claw 65 is stretched into the jig 10 through the cooperation of the vertical pushing mechanism 62 and the translation mechanism 63, the battery and the electrode plate after the first welding are clamped tightly by the gas claw 65, the gas claw 65 is rotated by 180 degrees by the rotation mechanism 64, and then the turnover action is completed, the structure is simple, and the operation is convenient.

Further, referring to fig. 1 and 11, the detecting mechanism 7 includes a fixing rod 71, an anode vertical pushing mechanism 72 disposed at a top end of the fixing rod 71, and a cathode vertical pushing mechanism 73 disposed at one side of the fixing rod 71 and below the anode vertical pushing mechanism 72.

Specifically, the positive pole erect push mechanism 72 set up in the top of carousel mechanism 2, the negative pole erect push mechanism 73 set up in the below of carousel mechanism 2, more specifically, the positive pole erect push mechanism 72 set up in directly over tool 10, the negative pole erect push mechanism 73 set up in directly under tool 10, when two-sided all welded battery and electrode slice reach when the positive pole erects the positive below of pushing mechanism 72, the positive pole erects push mechanism 72 descends and the electrode slice contact, and the negative pole erects push mechanism 73 and rises and the electrode slice contact of another side simultaneously to can carry out the detection whether electric conductivity is good.

Further, referring to fig. 1, the discharging mechanism 8 includes a feeding mechanism 81 and a transferring mechanism 82, the transferring mechanism 82 is disposed above the feeding mechanism 81, the transferring mechanism 82 spans across the feeding mechanism 81, and the transferring mechanism 82 is responsible for taking the battery and the electrode plate with both sides welded well from the station and then putting the battery and the electrode plate into the feeding mechanism 81 below the transferring mechanism 82.

Further, referring to fig. 15, the transferring mechanism 82 includes a translation module 821, a vertical pushing module 822, and a vacuum head 823, wherein the vertical pushing module 822 is disposed on the translation module 821, and the vacuum head 823 is disposed on the vertical pushing module 822.

Specifically, when the batteries and the electrode plates with the two surfaces welded well reach the lower part of the transfer mechanism 82, the vacuum suction head 823 is moved to the upper part of the batteries and the electrode plates through the mutual matching of the translation module 821 and the vertical pushing module 822 to suck the batteries and the electrode plates away, and then the batteries and the electrode plates with the two surfaces welded well are placed into the material feeding mechanism 81 below the transfer mechanism 82 through the mutual matching of the translation module 821 and the vertical pushing module 822.

Further, referring to fig. 12, 13 and 14, the feeding mechanism 81 includes a customer tray 811, a translation mechanism 812 is disposed below the customer tray 811, a plastic tray 813 is disposed at the tail of the translation mechanism 812, a vertical pushing mechanism 814 is disposed below the plastic tray 813, and the vertical pushing mechanism 814 can vertically jack up the plastic tray 813.

Specifically, the vacuum suction head 823 puts the sucked batteries and electrode plates into the customer tray 811 one by one in sequence, and after a tray is completely filled, the translation mechanism 812 moves the tray to the plastic tray 813, and meanwhile, the vertical pushing mechanism 814 below the plastic tray 813 jacks up the customer tray 811 by a height and is fixed by the support block assembly 815, so that the incoming material placement of the next customer tray 811 is not affected.

The welding mode of the welding lug machine equipment for the double-body button cell is basically carried out by referring to the steps of manual assembly and welding, and the step of welding a cell and an electrode plate is explained in detail:

1. the battery is placed on the clamping jig through the battery feeding mechanism, and the turntable mechanism rotates for one station;

2. conveying the first electrode plate to a clamping jig through a first electrode plate feeding mechanism, contacting with a battery, and continuously rotating a station through a turntable mechanism;

3. carrying out first welding through a first welding mechanism, and continuously rotating the turntable mechanism for one station;

4. the first welded battery and the electrode plate are turned over through the turning mechanism, and the turntable mechanism continues to rotate for one station;

5. the second electrode plate is conveyed to the clamping jig through the second electrode plate feeding mechanism and is in contact with the turned battery, and the turntable mechanism 2 continues to rotate for one station;

6. performing second welding through a second welding mechanism, and continuously rotating the turntable mechanism for one station;

7. the detection mechanism detects whether the conductivity is good or not, and the turntable mechanism continues to rotate for one station;

8. and the discharging mechanism puts the welded battery and the electrode plate module into a material tray.

In summary, the invention discloses a double-body button cell welding machine device, which comprises a frame platform, wherein a turntable mechanism is arranged in the middle of the frame platform, a cell feeding mechanism, an electrode plate feeding mechanism, a welding mechanism, a turnover mechanism, a detection mechanism and a discharge mechanism are sequentially arranged on the frame platform and around the edge of the turntable mechanism, a cam is arranged above the turntable mechanism, the cam is fixed relative to the frame platform, and an electrode plate pressing mechanism is arranged on the turntable mechanism and around the edge of the cam. The productivity is improved, and the working efficiency is effectively improved.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The double-body button cell welding machine equipment is characterized by comprising a rack platform, wherein a turntable mechanism is arranged in the middle of the rack platform, a cell feeding mechanism, an electrode plate feeding mechanism, a welding mechanism, a turnover mechanism, a detection mechanism and a discharging mechanism are sequentially arranged on the rack platform and around the edge of the turntable mechanism, a cam is arranged above the turntable mechanism and is fixed relative to the rack platform, and an electrode plate pressing mechanism is arranged on the turntable mechanism and around the edge of the cam.

2. The two-body button cell welding machine device according to claim 1, wherein the electrode sheet feeding mechanism comprises a first electrode sheet feeding mechanism and a second electrode sheet feeding mechanism, the welding mechanism comprises a first welding mechanism and a second welding mechanism, the first electrode sheet feeding mechanism is arranged on one side of the cell feeding mechanism, the first welding mechanism is arranged between the first electrode sheet feeding mechanism and one side of the turnover mechanism, and the second electrode sheet feeding mechanism and the second welding mechanism are arranged on the other side of the turnover mechanism in sequence.

3. The two-body button cell welding machine device according to claim 2, wherein the cell feeding mechanism is provided with a slide rail for conveying the cell, one end of the slide rail close to the turntable mechanism is provided with a manipulator, the manipulator is provided with a suction cup and a rail, the suction cup is controlled by a cylinder, and the suction cup can slide on the rail.

4. The welding electrode machine equipment for the double-body button cells as claimed in claim 2, wherein the electrode sheet feeding mechanism comprises a vibrating disk, a discharging track, a pushing mechanism and a clamping device for placing the electrode sheets on the stations, the discharging track is connected with the vibrating disk, the pushing mechanism is arranged at the tail end of the discharging track, and the clamping device is arranged on one side of the discharging track.

5. The two-body button cell welding machine equipment according to claim 2, wherein the welding mechanism comprises a fixed column, a pushing cylinder for clamping a jig, a butt-welding machine and a welding pin, the pushing cylinder is slidably arranged on the fixed column, the butt-welding machine is arranged above the pushing cylinder, and a clamping claw for clamping the welding pin is arranged at the tail part of the butt-welding machine.

6. The two-body button cell welding machine device according to claim 2, wherein the turnover mechanism comprises a fixed support, a vertical pushing mechanism arranged on the fixed support, a translation mechanism arranged on the vertical pushing mechanism, a rotation mechanism arranged on the translation mechanism, and a pneumatic claw arranged at the tail of the rotation mechanism and used for clamping the cell.

7. The two-body button cell welding machine device according to claim 2, wherein the detection mechanism comprises a fixing rod, a positive pole vertical pushing mechanism arranged at the top end of the fixing rod, and a negative pole vertical pushing mechanism arranged at one side of the fixing rod and positioned below the positive pole vertical pushing mechanism.

8. The two-body button cell welding machine equipment according to claim 1, wherein the discharging mechanism comprises a feeding mechanism and a transferring mechanism, the transferring mechanism is arranged above the feeding mechanism, and the transferring mechanism crosses over the feeding mechanism.

9. The two-body button cell soldering lug machine equipment according to claim 8, wherein the transfer mechanism comprises a translation module, a vertical push module and a vacuum suction head, the vertical push module is arranged on the translation module, and the vacuum suction head is arranged on the vertical push module.

10. The two-body button cell welding lug machine equipment according to claim 8, wherein the feeding mechanism comprises a customer tray, a translation mechanism is arranged below the customer tray, a plastic tray is arranged at the tail part of the translation mechanism, a vertical pushing mechanism is arranged below the plastic tray, the vertical pushing mechanism can vertically jack up the plastic tray, a support frame is arranged around the plastic tray, and a support block assembly for fixing the customer tray is further arranged on the support frame.

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