KR100819183B1 - Lithium battery electrode of tape double-faced adhesive equipment and method - Google Patents

Abstract

An apparatus for joining a tape onto both surfaces of an electrode plate of a lithium ion battery through adhesion is provided to allow continuous processing of electrode plates into a roll shape, to improve the workability and productivity, and to prevent accidents in the workplace. An apparatus for joining a tape onto both surfaces of an electrode plate of a lithium ion battery through adhesion comprises: a holding section(100) for holding electrode plates, which includes a first holder(110) for holding a currently used electrode plate, a second holder(130) for holding a residual electrode plate, and a fixing roller(150) disposed on the top of the first and the second holders having a groove for fixing the end of the electrode plate; and a tape adhering unit(300) for joining the used electrode plate with the residual electrode plate.

Description

Lithium Battery Electrode of Tape Double-Faced Adhesive Equipment and Method}

1 is a schematic diagram showing a conventional joint process

Figure 2 is an exploded perspective view showing a joint device for attaching the tape to both sides of the present invention lithium ion battery electrode plate joints

Figure 3 is a perspective view showing a joint device for attaching the tape on both sides of the present invention lithium ion battery electrode plate joint

Figure 4 is a front view showing the operating state of the joint device to be bonded to the tape on both sides of the present invention lithium ion battery electrode plate

5 is a block diagram showing a joint method for attaching a tape to both sides of the electrode plate for a lithium ion battery for the present invention.

Explanation of symbols on the main parts of the drawings

100: mounting part 110: first mounting bracket

130: second cradle 150: fixed roller

300: tape bonding device 310: vacuum suction unit

330: knife 350: tape adhesive

500: adhesive tape

The present invention relates to a jointing apparatus and a method for attaching a tape to both sides of a lithium ion battery electrode plate, and more specifically, to a lithium ion battery electrode plate used in continuous processing of a lithium ion battery electrode plate used in various batteries in roll form. The present invention relates to a jointing apparatus and a method for attaching a tape to both sides of a lithium ion battery electrode plate which is connected to an end of a lithium ion battery electrode plate to enable continuous processing by connecting an extra lithium ion battery electrode plate.

In general, a lithium ion battery electrode plate is processed in a roll form to be charged inside a battery such as a mobile phone.

When the lithium ion battery electrode plate is processed in a roll form, the lithium ion battery electrode plate and the extra lithium ion may be used after having a lithium ion battery electrode plate separately provided on one side in addition to the lithium ion battery electrode plate. The end of the battery electrode plate was joined to allow continuous processing.

The following describes the joint operation of the lithium ion battery electrode plate in detail, Figure 1 is a schematic diagram showing a conventional bonding process.

One side of the device is equipped with a lithium ion battery electrode plate and is set for processing, then the machine is operated to process it.

When the amount of the lithium ion battery electrode plate used during the operation falls, the end of the extra lithium ion battery electrode plate provided on one side is faced with the end of the lithium ion battery electrode plate, and the adhesive tape is attached.

After the joint operation is finished, the machine is operated to perform the machining operation again.

Conventionally, when the lithium ion battery electrode plate is bonded as described above, the tape is attached and fixed only on one surface, and thus the fixing force is weak.

In addition, when the adhesive portion is dropped as described above, the worker has to manually bond the tape, and thus, the trouble of having to perform the joint work again.

In addition, as described above, when the worker works manually, the problem of lowering productivity is caused by stopping the machine and working.

The present invention has been invented to solve the conventional problems as described above has the following object.

The present invention connects the lithium ion battery electrode plate to the end of the lithium ion battery electrode plate used for continuous processing of the lithium ion battery electrode plate used in various batteries in the form of a roll lithium ion to enable continuous processing It is an object of the present invention to provide a jointing apparatus and a method for attaching a tape to both surfaces of a battery electrode plate.

Another object of the present invention is to provide a jointing apparatus and a method for attaching a tape to both sides of a lithium ion battery electrode plate which can increase the efficiency of work by allowing continuous processing as described above. have.

Another object of the present invention is to provide a jointing apparatus and method for attaching a tape to both sides of a lithium ion battery electrode plate, which prevents the adhesive part from falling off during operation, thereby reducing production costs and reducing production costs. There is this.

The present invention for achieving the above object is implemented by an embodiment having the following configuration.

According to a first embodiment of the present invention, a joint apparatus for attaching a tape to both surfaces of a lithium ion battery electrode plate according to the present invention is mounted on a lithium ion battery electrode plate and is mounted on a lithium ion battery electrode plate currently used. A cradle portion, a second cradle on which an extra lithium ion battery electrode plate is mounted, and a cradle having a fixing roller provided on an upper side of the first and second cradles and having grooves formed thereon to fix an end of the lithium ion battery electrode plate; ;

It characterized in that it comprises a tape adhesive device for connecting the lithium ion battery electrode plate and the extra lithium ion battery electrode plate used to continuously process the lithium ion battery electrode plate.

According to the second embodiment of the present invention, the tape bonding apparatus of the joint apparatus for attaching a tape to both sides of the lithium ion battery electrode plate according to the present invention when the lithium ion battery electrode plates are joined to each other, the lithium ion battery electrode plate A vacuum adsorption unit for adsorbing and fixing the adsorbent;

A knife for cutting the lithium ion battery electrode plate so that the ends thereof line up with each other;

It characterized in that it comprises a tape adhesive portion for attaching the adhesive tape to the lithium ion battery electrode plate in order to join the lithium ion battery electrode plate.

According to a third embodiment of the present invention, the vacuum adsorption portion of a joint apparatus for attaching a tape to both sides of a lithium ion battery electrode plate according to the present invention is connected to a lithium ion battery electrode plate when the lithium ion battery electrode plates are joined together. By fixing by vacuum suction,

Located on the left side of the device, a plurality of holes are formed to suck the air to fix the lithium ion battery electrode plate in a vacuum, divided into the upper and lower adsorption plate, provided by the pneumatic pipe provided on one side of the air A first suction plate operated by suction and exhaust;

It is provided in a position facing each other to correspond to the first adsorption plate, a plurality of holes are formed as in the first adsorption plate to fix the lithium ion battery electrode plate by sucking the air, divided into an upper adsorption plate and a lower adsorption plate, It characterized in that it comprises a second suction plate which is operated by the intake, exhaust of the air through the pneumatic pipe provided on one side.

According to the fourth embodiment of the present invention, the knife of the joint apparatus for attaching the tape to both sides of the lithium ion battery electrode plate of the present invention is located between the second adsorption plate to cut the lithium ion battery electrode plate to the end. This is to make them line up with each other, and is characterized by being moved back and forth by intake and exhaust of air through a pneumatic pipe.

According to a fifth embodiment of the present invention, the tape adhesive portion of the joint apparatus for attaching a tape to both sides of the lithium ion battery electrode plate according to the present invention by attaching an adhesive tape for jointing the lithium ion battery electrode plate In that,

When attaching the lithium ion battery electrode plate, the adhesive tape is attached to one side, and is fastened to the long groove formed in the body by a hinge and is slid along the long groove to be located at the rear of the first adsorption plate. A first tape adhesive plate moved back and forth by intake and exhaust;

It is usually provided on one side of the second adsorption plate by attaching the adhesive tape to the opposite side of the lithium ion battery electrode plate to which the adhesive tape is adhered by the first tape adhesive plate when the joint operation of the lithium ion battery electrode plate, It is fastened to the lower side of the second adsorption plate by the fastening member and is spaced apart, and then attaches the adhesive tape to one side through the first tape adhesive plate, and then moves to the second adsorption plate by the first cylinder and the second cylinder It characterized in that it comprises a two-tap adhesive plate to be able to attach the adhesive tape to one side of the lithium ion battery electrode plate.

According to a sixth embodiment of the present invention, a joint method for attaching a tape to both surfaces of a lithium ion battery electrode plate according to the present invention includes a first lithium ion battery electrode plate of a lithium ion battery electrode plate provided on a lower left side of the device. Mounting on a cradle and setting the end of the used lithium ion battery electrode plate to the device through a roller provided in the device (S1)

Mounting the spare lithium ion battery electrode plate on the second cradle provided on the lower right side of the device and inserting the end of the lithium ion battery electrode plate into the groove provided in the fixing roller provided on one side of the device ( S2)

After the finishing operation, the device is operated to perform the lithium ion battery electrode plate processing operation (S3).

The sensor detects that the amount of the lithium ion battery electrode plate used during the process of processing the lithium ion battery electrode plate (S4)

When the sensor senses the machining operation is stopped, characterized in that it comprises a step (S5) of performing a joint operation of the lithium ion battery electrode plate.

According to the seventh embodiment of the present invention, the joint operation step (S5) of the joint method of attaching the tape to both surfaces of the present invention lithium ion battery electrode plate is

The first and second adsorption plates are moved forward to close each other, and then the air is sucked from the first and second adsorption plates to closely contact the lithium ion battery electrode plates (S5-1).

Operating a knife provided on one side of the second adsorption plate to cut the lithium ion battery electrode plate so that the ends of the lithium ion battery electrode plate coincide with each other in a straight line (S5-2).

Positioning the first and second adsorption plates to their original state (S5-3)

In the above state, after stopping the air suction between the lower and lower adsorption plates of the first adsorption plate and the second adsorption plate, the first stage is reversely rotated, and the fixed roller is rotated to collect the remaining lithium-ion battery plates (S5). -4)

In this state, the first adsorption plate is advanced to bring the second adsorption plate back into contact with the second adsorption plate, and then the air adsorption of the upper adsorption plate of the first adsorption plate is stopped, and the air adsorption of the upper adsorption plate of the second adsorption plate is operated to gather the lithium ion battery electrode plate to one side. Step (S5-5)

In this state, the first adsorption plate is returned to its original position, and then moved up and down to secure a space for the first tape adhesion plate to move forward. Then, the first tape adhesion plate is advanced to attach the adhesive tape to the lithium ion battery electrode plate. Step (S5-6)

In this state, the first tape adhesive plate is reversed, and the first suction plate is returned to its original state (S5-7).

After advancing the second adsorption plate in such a state as to be in contact with the first adsorption plate, operating the air suction of the first adsorption plate, and stopping the air adsorption of the first adsorption plate so that the lithium ion battery electrode plate is in close contact with the first adsorption plate. (S5-8)

In the above state, the second adsorption plate is reversed, and the second tape adhesive plate having the adhesive tape is attached between the lithium ion battery electrode plate and the second adsorption plate to operate and position the first cylinder (S5-9).

Attaching the adhesive tape to the lithium ion battery electrode plate by operating the second cylinder in the above state (S5-10)

Operating the first and second cylinders in the above state to return the second tape adhesive plate to its original position (S5-11)

Advancing the first adsorption plate in the above state and firmly attaching the adhesive tape to the lithium ion battery electrode plate (S5-12)

It is characterized in that it comprises a step (S5-13) to carry out the machining operation by mounting the extra lithium ion battery electrode plate on the first cradle in the above state and operating the device.

Applicant will now be described in detail the coupling relationship of the present embodiments with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a joint apparatus for attaching the tape to both sides of the present invention lithium ion battery electrode plate, Figure 3 is a perspective view showing a joint apparatus for attaching the tape to both sides of the present invention lithium ion battery electrode plate. to be.

The present invention largely includes a lithium ion battery electrode plate 10, the mounting portion 100, and the tape adhesive device 300.

The mounting portion 100 is a lithium ion battery electrode plate 10 is mounted, the first mounting bracket 110 and the extra lithium ion battery electrode plate 13 is mounted on which the lithium ion battery electrode plate 11 is used. It includes a second mounting bracket 130.

The first mounting base 110 is positioned on the lower left side of the device and is mounted with the lithium ion battery electrode plate 11, and the lithium ion battery electrode plate 13 is wound around the roller provided in the device.

A stopper 170 is provided on an upper portion of the first cradle 110 to prevent the lithium ion battery electrode plate from being unwound when the lithium ion battery electrode plate is cut by the knife 330 to be described below.

 The second cradle 130 is located on the lower right side of the apparatus, and the spare lithium ion battery electrodes can be connected and used before the end of use of the lithium ion battery electrode plate 11 mounted on the first cradle 110. The plate 13 is mounted and placed in the standby state.

One end of the extra lithium ion battery electrode plate 13 mounted on the second cradle 130 is fixed to the fixed roller 150 provided on one side of the device.

The fixed roller 150 is provided above the first and second mounting brackets 110 and 130, respectively.

The first and second mounting bases 110 and 130 are replaced with each other to supply the lithium ion battery electrode plate 10 to the device.

The tape adhesive device 300 is to connect the ends of the lithium ion battery electrode plate 11 and the spare lithium ion battery electrode plate 13 to be used for continuous processing, vacuum adsorption unit 310, The knife 330 and the tape adhesive part 350 are included.

The vacuum adsorption unit 310 adsorbs and fixes the lithium ion battery electrode plate 10 when the lithium ion battery electrode plate 10 is joined to each other. The first adsorption plate 311 and the second adsorption plate 313 are fixed. It includes.

The first adsorption plate 311 is positioned on the left side of the device, and a plurality of holes 3115 are formed to fix the lithium ion battery electrode plate 10 by sucking air, and the upper adsorption plate 3111 and the lower adsorption plate ( 3113) is provided.

The first suction plate 311 is moved back and forth, up and down by pneumatic pressure.

The second adsorption plate 313 is provided at a position facing each other to correspond to the first adsorption plate 311, and a plurality of holes 3135 are formed like the first adsorption plate 311 to inhale air to induce a lithium ion battery. The electrode plate 10 is fixed in a vacuum state and is divided into an upper adsorption plate 3131 and a lower adsorption plate 3133.

The vacuum suction unit 310 is operated by the intake and exhaust of air through a pneumatic pipe provided on one side.

The knife 330 is located between the second adsorption plate 313 to cut the lithium ion battery electrode plate 10 so that the ends thereof line up with each other. The air intake and exhaust of the air through the pneumatic pipe It moves back and forth by.

The tape adhesive part 350 attaches an adhesive tape 500 to joint the lithium ion battery electrode plate 10, and connects the first tape adhesive plate 351 and the second tape adhesive plate 353. Include.

The first tape adhesive plate 351 is located at the rear of the first adsorption plate 311 and attaches the adhesive tape 500 to one side when the lithium ion battery electrode plate 10 is joined. A hinge 3515 is fastened to one side of the 3511.

A long groove 3513 is formed in the body 3511, and a first tape adhesive plate 351 is fastened by a hinge 3515 to the long groove 3513 to be slid and moved along the long groove 3513. 3515).

The body 3511 is provided on one side of the device is moved back and forth by the intake, exhaust of air through the pneumatic pipe.

That is, when the first tape adhesive plate 351 which is fastened to the body 3511 by the hinge 3515 is pulled forward, it is moved forward along the long groove 3513, and the first tape adhesive is started from the hinge 3515 in the above state. When the plate 351 is rotated, the tape attaching surface 3517 rotates to face the front.

After the adhesive tape 500 is attached to the tape adhesive surface 3517 in the above state, the reverse operation is performed to maintain the standby state.

The second tape adhesive plate 353 is provided on one side of the second adsorption plate 313 so that the adhesive tape is adhered by the first tape adhesive plate 351 when the lithium ion battery electrode plate 10 is jointed. The adhesive tape 500 is attached to the opposite side of the lithium ion battery electrode plate 10 to be joined.

The second tape adhesive plate 353 is normally positioned to be spaced apart by being fastened by a fastening member 3531 to the lower side of the second suction plate 313 and then adhered to one side through the first tape adhesive plate 351. After the tape was attached, the first cylinder 3535 moved to the second adsorption plate 313, and the second cylinder 3535 allowed the adhesive tape to be attached to the other side of the lithium ion battery electrode plate.

Hereinafter, with reference to the accompanying drawings look at the operating state of the present invention.

Figure 4 is a front view showing the operation state of the joint device for attaching the tape to both sides of the lithium ion battery electrode plate of the present invention, Figure 5 is a tape attached to both sides of the lithium ion battery electrode plate for the present invention A block diagram showing a jointing method.

First, the lithium ion battery electrode plate 11 of the lithium ion battery electrode plate 10 is mounted on the first cradle 110 provided on the lower left side of the device, and the end of the lithium ion battery electrode plate 11 is mounted. It is set in the machine through the roller provided in the.

After mounting the used lithium ion battery electrode plate 11 to the first cradle 110 as described above to mount the spare lithium ion battery electrode plate 13 to the second cradle 130 provided on the lower right side of the device At this time, the end of the spare lithium ion battery electrode plate 13 is inserted into and fixed in the groove 151 provided in the fixed roller 150 provided on one side of the device.

After the mounting operation of the lithium ion battery electrode plate 10 as described above to operate the device performs a lithium ion battery electrode plate processing.

The amount of the lithium ion battery electrode plate 11 used during the processing of the lithium ion battery electrode plate 11 is sensed by a sensor (not shown) provided on one side, and the amount of the lithium ion battery electrode plate 11 is a certain amount. The consumed location is marked so that the sensor can detect it at a specific location so that the amount is known.

When the sensor detects the machining operation is stopped, and the lithium ion battery electrode plate 10 is connected.

In the joint operation, first and second suction plates 311 and 313 are moved forward to close each other.

At this time, the first and second adsorption plates 311 and 313 suck air and thus the lithium ion battery electrode plate 10 is in close contact with the first and second adsorption plates 311 and 313.

In this state, the knife 330 provided on one side of the second adsorption plate 313 is operated to cut the lithium ion battery electrode plate 10.

At this time, the ends of the lithium ion battery electrode plate 10 coincide with each other in a straight line.

In this state, the first and second adsorption plates 311 and 313 are positioned in their original states.

After stopping the air suction of the lower adsorption plate 3111 and the upper adsorption plate 3133 of the second adsorption plate 311 of the first adsorption plate 311 in the above state, the first mounting base 110 is rotated in reverse, and the fixed roller 150 ), And collect the remaining lithium ion battery electrode plates (11, 13).

In this state, the first adsorption plate 311 is advanced to bring it back into contact with the second adsorption plate 313, and then the air absorption of the upper adsorption plate 3111 of the first adsorption plate 311 is stopped and the upper portion of the second adsorption plate 313 is provided. Air suction of the suction plate 3131 is operated to collect the lithium ion battery electrode plate 10 to one side.

In this state, the first adsorption plate 311 is moved to its original position and moved up and down to secure a space for the first tape adhesive plate 351 to move forward.

In the above state, the first tape adhesive plate 351 is advanced. At this time, the adhesive tape 500 is attached to the adhesive surface 3517 of the first tape adhesive plate 351.

As described above, the adhesive tape 500 is attached to the lithium ion battery electrode plate 10 transferred by advancing the first tape adhesive plate 351.

In this state, the first tape adhesive plate 351 is reversed, and the first adsorption plate 311 is returned to its original state.

In this state, the second adsorption plate 313 is advanced to be brought into close contact with the first adsorption plate 311, and then the air suction of the first adsorption plate 311 is activated, and the air suction of the first adsorption plate 311 is stopped. The ion battery electrode plate is brought into close contact with the first adsorption plate 311.

In the above state, the second adsorption plate 313 is reversed, and the second tape adhesive plate 353 having the adhesive tape 500 attached between the lithium ion battery electrode plate 10 and the second adsorption plate 313 is first The cylinder 3533 is operated to move in front of the second adsorption plate 313, and the second cylinder 3535 is operated to attach the adhesive tape to the other side of the lithium ion battery electrode plate.

In this state, the second adsorption plate 313 is advanced to attach the adhesive tape 500 to the other side of the lithium ion battery electrode plate 10.

In this state, the extra li-ion battery electrode plate 13 is mounted on the first support 110 and the machine is operated to perform a machining operation.

By repeating the above operation, the lithium ion battery electrode plate is jointed so that the machining operation can be continuously performed.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

The present invention has the following effects by the above configuration.

The joint apparatus and method for attaching a tape to both sides of a lithium ion battery electrode plate according to the present invention are connected to the end of a lithium ion battery electrode plate used for continuous processing of a lithium ion battery electrode plate used in various batteries in a roll form. It has the effect of connecting the extra lithium ion battery electrode plate to enable continuous processing.

In addition, the joint apparatus and method for attaching the tape to both sides of the lithium ion battery electrode plate according to the present invention have the effect of increasing the efficiency of the work by allowing continuous processing as described above.

In addition, the jointing apparatus and method for attaching the tape to both sides of the lithium ion battery electrode plate of the present invention by preventing the adhesive portion from falling during the operation, it has the effect of reducing the defective product to reduce the production cost.

In addition, the jointing apparatus and method for attaching the tape to both sides of the lithium ion battery electrode plate of the present invention has the effect of preventing the safety accident that occurred by the existing joint operation by the worker in advance.

Claims (7)

In the lithium ion battery electrode plate bonding device for a battery, Lithium ion battery electrode plate is mounted, the first cradle to which the currently used lithium ion battery electrode plate is mounted, the second cradle to which the extra lithium ion battery electrode plate is mounted, and is provided on the upper side of the first and second cradles A mounting part having a fixing roller having a groove formed to fix an end of the ion battery electrode plate; A tape is attached to a lithium ion battery electrode plate, comprising a tape bonding device for connecting a lithium ion battery electrode plate and a spare lithium ion battery electrode plate to continuously process a lithium ion battery electrode plate. To join by attaching to both sides The method of claim 1, The tape adhesive device includes a vacuum adsorption unit for adsorbing a lithium ion battery electrode plate and fixing it in a vacuum state when the lithium ion battery electrode plate is joined to each other; A knife for cutting the lithium ion battery electrode plate so that the ends thereof line up with each other; In order to join the lithium ion battery electrode plate, a joint device for attaching a tape to both sides of the joint device for attaching the adhesive tape to the lithium ion battery electrode plate, characterized in that the joint device The method of claim 2 The vacuum adsorption unit is to adsorb and fix the lithium ion battery electrode plate when the lithium ion battery electrode plate is joined to each other, Located on the left side of the device, a plurality of holes are formed to fix the lithium ion battery electrode plate by sucking the air, divided into an upper adsorption plate and a lower adsorption plate, provided by the pneumatic pipe provided on one side, A first suction plate operated by exhaust; It is provided in a position facing each other to correspond to the first adsorption plate, a plurality of holes are formed as in the first adsorption plate to fix the lithium ion battery electrode plate by sucking the air, divided into an upper adsorption plate and a lower adsorption plate, A joint apparatus for attaching and attaching a tape to both surfaces of a lithium ion battery electrode plate, the second adsorption plate being operated by air intake and exhaust through a pneumatic pipe provided at one side. The method of claim 2, The knife is positioned between the second adsorption plate to cut the lithium ion battery electrode plate so that the ends are aligned with each other in a straight line. The knife is moved back and forth by air intake and exhaust through a pneumatic pipe. Jointing device for attaching tape to both sides of lithium ion battery electrode plate The method of claim 2 The tape adhesive part is to attach an adhesive tape for the joint operation of the lithium ion battery electrode plate, When attaching the lithium ion battery electrode plate, the adhesive tape is attached to one side, and is fastened to the long groove formed in the body by a hinge and is slid along the long groove to be located at the rear of the first adsorption plate. A first tape adhesive plate moved back and forth by intake and exhaust; It is usually provided on one side of the second adsorption plate by attaching the adhesive tape to the opposite side of the lithium ion battery electrode plate to which the adhesive tape is adhered by the first tape adhesive plate when the joint operation of the lithium ion battery electrode plate, It is fastened to the lower side of the second adsorption plate by the fastening member and is spaced apart, and then attaches the adhesive tape to one side through the first tape adhesive plate, and then moves to the second adsorption plate by the first cylinder and the second cylinder A joint apparatus for attaching and joining a tape to both sides of a lithium ion battery electrode plate, comprising: a two-tap adhesive plate for attaching an adhesive tape to one side of the lithium ion battery electrode plate by Mounting the used lithium ion battery electrode plate of the lithium ion battery electrode plate on the first holder provided on the lower left of the device and setting the end of the used lithium ion battery electrode plate to the device through the roller provided in the device ( S1); Mounting the spare lithium ion battery electrode plate on the second cradle provided on the lower right side of the device and inserting the end of the lithium ion battery electrode plate into the groove provided in the fixing roller provided on one side of the device ( S2); After the mounting operation is performed to operate the device to perform a lithium ion battery electrode plate processing (S3); The sensor detects that the amount of the lithium ion battery electrode plate used during the lithium ion battery electrode plate processing operation (S4); When the sensor detects the process is stopped, the joint method of attaching the tape on both sides of the lithium ion battery electrode plate comprising the step (S5) of performing a joint operation of the lithium ion battery electrode plate. The method of claim 6, The joint operation step (S5) is Moving the first and second adsorption plates to close each other and then sucking the air from the first and second adsorption plates to closely contact the lithium ion battery electrode plates (S5-1); Operating a knife provided on one side of the second adsorption plate to cut the lithium ion battery electrode plate so that the ends of the lithium ion battery electrode plate are aligned with each other in a straight line (S5-2); Placing the first and second adsorption plates in an original state (S5-3); In this state, after stopping the air suction between the lower and lower adsorption plates of the first adsorption plate and the second adsorption plate, the first stage is reversely rotated, and the fixed roller is rotated to collect the remaining lithium ion battery electrode plates (S5-). 4); In this state, the first adsorption plate is advanced to bring the second adsorption plate back into contact with the second adsorption plate, and then the air adsorption of the upper adsorption plate of the first adsorption plate is stopped, and the air adsorption of the upper adsorption plate of the second adsorption plate is operated to gather the lithium ion battery electrode plate to one side. Step S5-5; In this state, the first adsorption plate is returned to its original position, and then moved up and down to secure a space for the first tape adhesion plate to move forward. Then, the first tape adhesion plate is advanced to attach the adhesive tape to the lithium ion battery electrode plate. Step (S5-6) In this state, the first tape adhesive plate is reversed, and the first suction plate is returned to its original state (S5-7). After advancing the second adsorption plate in such a state as to be in contact with the first adsorption plate, operating the air suction of the first adsorption plate, and stopping the air adsorption of the first adsorption plate so that the lithium ion battery electrode plate is in close contact with the first adsorption plate. (S5-8) In the above state, the second adsorption plate is reversed, and the second tape adhesive plate having the adhesive tape is attached between the lithium ion battery electrode plate and the second adsorption plate to operate and position the first cylinder (S5-9). Attaching the adhesive tape to the lithium ion battery electrode plate by operating the second cylinder in the above state (S5-10) Operating the first and second cylinders in the above state to return the second tape adhesive plate to its original position (S5-11). Advancing the first adsorption plate in the above state and firmly attaching the adhesive tape to the lithium ion battery electrode plate (S5-12) Attaching the tape to both sides of the lithium ion battery electrode plate comprising the step (S5-13) to mount the extra lithium ion battery electrode plate on the first cradle in the above state and to operate the device to perform the machining operation. Jointing method

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