KR102611154B1 - electrode sheet connection method for secondary battery - Google Patents

Abstract

Disclosed is a method for connecting electrode sheets for secondary batteries.
A method of connecting an electrode sheet for a secondary battery according to an embodiment connects electrode sheets for processing electrodes of a secondary battery, wherein the electrode includes an electrode body and an electrode tab protruding from one end of the electrode body, The electrode sheet has a width corresponding to the length of the electrode body in the protruding direction of the electrode tab, and on one side of the electrode sheet in the width direction, a plurality of electrode tabs are spaced at regular intervals along the longitudinal direction of the electrode sheet. It is arranged to protrude, The electrode sheets may be connected so that the other sides of the individual electrode sheets in the width direction are aligned and the spacing between the electrode tabs between the electrode sheets is the same as the spacing between the electrode tabs of the individual electrode sheets.

Description

Electrode sheet connection method for secondary battery}

It relates to a method of connecting electrode sheets for secondary batteries to connect electrode sheets for secondary batteries used in manufacturing secondary batteries to form electrodes of secondary batteries.

Secondary batteries have the advantage of being reusable through repeated charging and discharging, and are used in various technological fields throughout the industry, such as being used as an energy source for mobile devices and electric vehicles.

This secondary battery includes an electrode assembly and a case that accommodates the electrode assembly together with an electrolyte solution. The electrode assembly includes positive and negative electrodes, and a separator interposed between them to prevent short circuits and allow movement of electrolyte and ions.

The electrode and separator are cut from the electrode sheet and the separator sheet and laminated on each other, and the electrode sheet and separator sheet are installed in a state wound on a roll to form a coil in the electrode assembly manufacturing line, and are unwound and supplied to the electrode and separator processing position. It is common.

Such electrode sheets are designed to have extras in addition to those normally used. Therefore, when all of the electrode sheets in use are used up, the supply of electrode sheets can be continued by connecting extra electrode sheets to the electrode sheets in use.

And recently, in order to improve the productivity of the electrode assembly, technology has been developed to automatically perform the connection between the electrode sheet in use and the spare electrode sheet in standby.

The aim is to provide a method of connecting electrode sheets for secondary batteries that can improve the manufacturing efficiency of secondary batteries.

The aim is to provide a method of connecting electrode sheets for secondary batteries that can reduce the amount of loss of electrode sheets used in the manufacture of secondary batteries.

A method of connecting an electrode sheet for a secondary battery according to an embodiment connects electrode sheets for processing electrodes of a secondary battery, wherein the electrode includes an electrode body and an electrode tab protruding from one end of the electrode body, The electrode sheet has a width corresponding to the length of the electrode body in the protruding direction of the electrode tab, and on one side of the electrode sheet in the width direction, a plurality of electrode tabs are spaced at regular intervals along the longitudinal direction of the electrode sheet. It is arranged to protrude, The electrode sheets may be connected so that the other sides of the individual electrode sheets in the width direction are aligned and the spacing between the electrode tabs between the electrode sheets is the same as the spacing between the electrode tabs of the individual electrode sheets.

Cutting the individual electrode sheets; It includes; connecting the cut portions of the cut individual electrode sheets with adhesive tape; cutting the electrode sheet includes detecting the position of the electrode tab and the position of the other side; Cutting the electrode sheet along a center line between a pair of adjacent electrode tabs in a direction perpendicular to the longitudinal direction of the electrode sheet using the position information of the sensed electrode tab and the other side. , connecting the cut portions with an adhesive tape may include connecting the cut portions with an adhesive tape while the cut lines of the cut individual electrode sheets are in contact with each other.

Cutting the individual electrode sheets; It includes: connecting the cut portions of the cut individual electrode sheets with adhesive tape; cutting the electrode sheet includes detecting the position of the electrode tab and the position of the other side; Cutting the electrode sheet located between a pair of adjacent electrode tabs in a direction perpendicular to the longitudinal direction of the electrode sheet using the detected position information of the electrode tab and the other side, Connecting the cut portions by attaching an adhesive tape is to ensure that the spacing between the electrode tabs of the electrode sheets on both sides where the seam is located between the cut portions is the same as the spacing between the electrode tabs of the individual electrode sheets. It may include connecting with adhesive tape.

Connecting the cut portions by applying an adhesive tape may include connecting the cut portions of the individual electrode sheets by attaching the adhesive tape while the cutting lines are in contact with each other or are spaced apart.

The electrode sheets that are interconnected include: a first electrode sheet that is provided to be transported to the cutting position of the electrode and wound on a supply roll so that the electrode is cut and separated; It may include; a second electrode sheet wound on a waiting roll so that it can be connected to the first electrode sheet in preparation for when the first electrode sheet is exhausted.

According to a method of connecting electrode sheets for secondary batteries according to an embodiment, the manufacturing efficiency of secondary batteries can be improved and the amount of loss of the electrode sheets used when manufacturing secondary batteries can be reduced.

Figure 1 is a plan view showing the structure of an electrode sheet for applying a method of connecting an electrode sheet for a secondary battery according to an embodiment and an electrode cut from the electrode sheet.
Figure 2 shows the configuration of an electrode processing device equipped with an electrode sheet connecting device for implementing a method of connecting an electrode sheet for a secondary battery according to an embodiment.
Figure 3 is a front view showing the structure of the adsorption plate in the electrode sheet connecting device of Figure 2.
Figures 4 to 7 sequentially show the process of connecting electrode sheets by the electrode sheet connecting device shown in Figure 2.
Figure 8 is a plan view showing a state in which electrode sheets are connected by a method of connecting electrode sheets for a secondary battery according to an embodiment.
Figure 9 shows another modified example of a joint between electrode sheets connected by a method of connecting electrode sheets for a secondary battery according to an embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples so that the idea of the present invention can be sufficiently conveyed to those skilled in the art. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout the specification.

A method of connecting electrode sheets for a secondary battery according to an embodiment relates to a method of connecting electrode sheets provided for processing electrodes among the components of an electrode assembly of a secondary battery.

The secondary electrons may include an electrode assembly, and the electrode assembly may include a positive electrode, a negative electrode, and a separator interposed between them.

The electrode 1 may be prepared by cutting the electrode sheets 4 and 5 during the manufacturing process of the electrode assembly.

As shown in FIG. 1, the electrode 1 may include an electrode body 2 and an electrode tab 3 protruding from one end of the electrode body 2.

The electrode sheets 4 and 5 for processing the electrode 1 have a width corresponding to the length of the electrode body 2 in the protruding direction of the electrode tab 3, and the width of the electrode sheets 4 and 5 is On one side of the direction, a plurality of electrode tabs 3 may be arranged to be spaced apart at regular intervals along the longitudinal direction of the electrode sheets 4 and 5 and may be provided to protrude.

In the electrode sheets 4 and 5, the gap t1 between a pair of adjacent electrode tabs 3 is the length of the width of the electrode tab 3 from the length t2 of the width of the electrode body 2 ( It may be the same as subtracting t3).

Therefore, the center line between the pair of electrode tabs 3 adjacent to each other in the direction perpendicular to the longitudinal direction of the electrode sheets 4 and 5 is used to cut and separate the electrodes 3. This can be the cutting line (6). The cutting line 6 may be an imaginary line.

2 and 3 show an electrode processing device for implementing a method of connecting electrode sheets for secondary batteries according to an embodiment.

The electrode processing device includes a supply roll 10 for supplying the first electrode sheet 4, a transfer roll 20 for transferring the first electrode sheet 4 released from the supply roll 10 in one direction, and A cutter 30 disposed on the transport path of the first electrode sheet 4 transported by the roll 20 may be provided.

The cutter 30 is equipped with a cutting blade including the top coat and the bottom coat and can be driven to sequentially cut the first supply sheet 4 transported along the transport path at a constant speed.

The supply roll 10 and the transfer roll 20 can feed the first electrode sheet 4 toward the cutter 30 by transferring it at a constant speed. The supply roll 10 rotates at a constant speed, and the rotation speed of the transfer roll 20 is adjusted in response to changes in the rotation speed of the supply roll 10 so that the first electrode sheet 4 can be transferred at a constant speed. It can be.

In addition, the processing device has a standby roll (40) on which the extra second supply sheet (5) is wound, and when the first electrode sheet (4) is exhausted, the second supply sheet (5) wound on the standby roll (40) is used. An electrode sheet connecting device 50 connected to the first supply sheet 4 may be provided.

The electrode sheet connecting device 50 includes an adsorption unit 60 provided to selectively vacuum adsorb the electrode sheets 4 and 5, a cutting unit 70 provided to cut the electrode sheets 4 and 5, and , may include an adhesive unit 80 that attaches the adhesive tape 82 between the cut electrode sheets 4 and 5.

The adsorption unit 60 may include a pair of adsorption plates 61 and 62.

The adsorption plates 61 and 62 can adsorb and secure the electrode sheets 4 and 5 by negative pressure applied from a vacuum generator (not shown). When the applied negative pressure is released, the fixation of the electrode sheets 4 and 5 by the adsorption plates 61 and 62 can be released.

Suction holes 63 and 64 are formed in the suction plates 61 and 62 to provide negative pressure to the electrode sheets 4 and 5, and a cutting unit 70 and a cutting unit 70 are formed in the middle of the longitudinal direction of the suction plates 61 and 62. , an entrance hole 65 may be provided for entry and exit of the adhesive unit 80. The suction holes 63 and 64 may be provided in plural numbers disposed above and below the access hole 65. The suction holes 63 and 64 can be divided into an upper suction hole 63 above the entrance hole 65 and a lower suction hole 64 below the entrance hole 65.

The pair of adsorption plates 61 and 62 can be divided into a first adsorption plate 61 corresponding to the first electrode sheet 4 and a second adsorption plate 62 corresponding to the second electrode sheet 62. You can.

The first adsorption plate 61 is disposed between the supply roll 10 and the transfer roll 20 to fix the first electrode sheet 4 transferred between the supply roll 10 and the transfer roll 20. , the second adsorption plate 62 may be disposed opposite the first adsorption plate 61 to fix the second electrode sheet 5.

On both upper sides of the adsorption plates 61 and 62, there is a first sensor 91 for detecting the position of the electrode tab 3 of the electrode sheets 4 and 5, and an electrode sheet 4 on the opposite side of the electrode tab 3. , A second sensor 92 may be provided to detect the position of the side of 5). The first sensor 91 may be provided as a photo sensor, and the second sensor 92 may be provided as a laser sensor.

The electrode sheets (4, 5) are cut while the first sensor (91) detects the position of the electrode tab (3) and the second sensor (92) detects the position of the side of the electrode sheets (4, 5). Line 6 may coincide with the center line of the access hole 65. This may be possible by setting the positions of the first sensor 91 and the second sensor 92 and the corresponding access hole 65 based on the size specifications of the electrode sheets 4 and 5.

The first adsorption plate 61 and the second adsorption plate 62 are connected between the first electrode sheet 4 and the second electrode sheet 5 in the process of connecting the electrode sheets 4 and 5. They can be arranged to face each other on the outside.

The first adsorption plate 61 and the second adsorption plate 62 can each move forward or backward by a driver (not shown).

The cutting unit 70 is a first cutting tool 71 that cuts the first electrode sheet 4, which is fixed by vacuum adsorption to the first adsorption plate 61, and is fixed by vacuum adsorption to the second adsorption plate 62. It may include a second cutting tool 72 for cutting the second electrode sheet 5.

The cutting tools (71, 72) can enter and exit the entrance hole (65) of the corresponding suction plate (61, 62), and can travel along the longitudinal direction of the entrance hole (65) while entering the entrance hole (65). It may be operated by an actuator to do so.

In a state where the electrode sheets (4, 5) are adsorbed and fixed to the suction plates (61, 62), the cutting tools (71, 72) enter the longitudinal end of the access hole (65), and in this state, the access hole (65) ), the cutting line 6 of the electrode sheets 4 and 5 can be cut while traveling along the line. In a state where the electrode sheets 4 and 5 are cut, the cutting tools 71 and 72 can be moved backwards and drawn out of the access hole 65.

The adhesive unit 80 may include a tape holder 81 and an adhesive tape 82 attached to the tape holder 81. The tape holder 81 can enter and exit the entrance hole 65 and can be operated by a driver to travel along the longitudinal direction of the entrance hole 65 while entering the entrance hole 65. The adhesive tape 82 may be mounted so that it can be released from the traveling tape holder 81.

In a state where the electrode sheets 4 and 5 are adsorbed and fixed to the suction plates 61 and 62, the tape holder 81 enters the longitudinal end of the access hole 65, and in this state, the access hole 65 is opened. You can drive along. At this time, the adhesive tape 82 may be released from the tape holder 81 and attached to the electrode sheets 4 and 5. With the adhesive tape 82 attached to the electrode sheets 4 and 5, the tape holder 81 can be moved backwards and pulled out of the access hole 65.

In addition, the electrode sheet connecting device 50 may be provided with a feeding unit 100 that moves the starting end of the second electrode sheet 5 wound around the waiting roll 40 while holding it.

The feeding unit 100 includes a clamp 101 that holds the starting end of the second electrode sheet 5, and the clamp 101 is connected to the first suction plate 61 and the second suction plate 62 by a driver. You can move between them.

Hereinafter, a method of connecting electrode sheets according to an embodiment performed through the electrode sheet connecting device 50 while cutting the electrode 1 from the electrode sheets 4 and 5 using an electrode processing device will be described.

Referring to FIG. 2, the first electrode sheet 4 is normally supplied to the cutter 30 by the supply roll 10 and the transfer roll 20, and the cutter 30 is supplied with the first electrode sheet 4. The end of the first electrode sheet 4 can be cut so that the electrode 1 is separated from the.

At this time, the supply roll 10 and the transfer roll 20 transfer the first electrode sheet 4 toward the cutter 30 at a constant speed, and the cutter 30 cuts the cutting line 6 of the first electrode sheet 4. The electrode 1 can be continuously separated from the first electrode sheet 4 by sequentially cutting the electrodes.

In this state, if exhaustion of the first electrode sheet 4 is expected, the operation of connecting the second electrode sheet 5 to the first electrode sheet 4 using the electrode sheet connecting device 50 can be performed. .

In order to connect between the electrode sheets 4 and 5, first, as shown in FIG. 4, the first electrode sheet 4 and the second electrode sheet 5 can be adsorbed and fixed to the corresponding suction plates 61 and 62. there is.

In the case of the first electrode sheet 4, the first sensor 91 and the second sensor 92 installed on the first adsorption plate 61 are transferred to the electrode tab 3 of the first electrode sheet 4. ) and the position of the opposite side, the transport operation of the first electrode sheet 4 can be stopped by stopping the driving of the supply roll 10 and the transport roll 20.

In this state, the first adsorption plate 61 advances toward the first electrode sheet 4 so that the cutting line 6 of the first electrode sheet 4 coincides with the center line of the access hole 65. The sheet 4 can be adsorbed and fixed.

And the feeding unit 100 can pass the front of the second suction plate 62 holding the starting end of the second electrode sheet 5 from the bottom to the top, and the feeding unit 100 is installed on the second suction plate 62. When the positions of the electrode tab 3 and the opposite side of the second electrode sheet 5 are detected by the first sensor 91 and the second sensor 92, the operation of the feeding unit 100 is stopped to The two electrode sheets (5) can be stopped.

In this state, the second adsorption plate 62 advances toward the second electrode sheet 5 so that the cutting line 6 of the second electrode sheet 5 coincides with the center line of the access hole 65. The sheet 5 can be adsorbed and fixed.

Next, as shown in FIG. 5, the first fixing sheet 4 and the second fixing sheet 5, which are adsorbed and fixed to the first adsorption plate 61 and the second adsorption plate 62, are respectively attached to the first cutting tool. It can be cut using (71) and the second cutting tool (72).

At this time, each cutting tool (71, 72) enters the longitudinal end of the entrance hole (65) of the corresponding suction plate (61, 62) and travels along the entrance hole (65) to cut the corresponding electrode sheets (4, 5). The cutting line 6 can be cut. In a state where the electrode sheets 4 and 5 are cut, each cutting tool 71 and 72 can be moved backwards to be pulled out of the entrance hole 65 of the corresponding suction plate 61 and 62.

In this state, in the case of the first adsorption plate 61, the vacuum in the lower adsorption hole 61 located below the access hole 65 is released, and the first electrode sheet 4 below the cutting line 6 is first adsorbed. It is separated from the plate 61, and the second adsorption plate 62 releases the vacuum in the upper suction hole 63 located above the access hole 65 to remove the second electrode sheet 5 above the cutting line 6. ) can be separated from the second adsorption plate 62.

A process of adsorbing and fixing the first electrode sheet 4 and the second electrode sheet 5 to the first adsorption plate 61 and the second adsorption plate 62, respectively, and the first adsorption plate 61 and the second adsorption plate 62. A process of cutting the first electrode sheet 4 and the second electrode sheet 5 adsorbed and fixed to the plate 62 using the cutting unit 70, and the first electrode sheet ( The process of separating the lower part of 4) and the upper part of the second electrode sheet 5 from the corresponding adsorption plates 61 and 62 can be carried out simultaneously or individually at both adsorption plates 61 and 62 with a time difference.

Next, as shown in FIG. 6, the cutting line 6 is aligned between the first electrode sheet 4 above the cutting line 6 and the second electrode sheet 5 below the cutting line 6. The first adsorption plate 61 and the second adsorption plate 62 can be moved in a mutually supported direction so that they come into contact with each other.

At this time, the distance t1 between the electrode tab 3 on the distal end of the first electrode sheet 4 and the electrode tab 3 on the distal end of the second electrode sheet 5 is the electrode on the individual electrode sheets 4 and 5. The gap may be the same as the gap t1 between the tabs 3.

In this state, the tape holder 81 enters the longitudinal end of the entrance hole 35 of the first adsorption plate 61 and travels along the entrance hole 65 to attach the first electrode sheet 4 and the second electrode sheet. (5) An adhesive tape 82 can be attached between them.

From this point on, the space between the first electrode sheet 4 and the second electrode sheet 5 consists of the cut portions of the first electrode sheet 4 and the second electrode sheet 5, and an adhesive tape 82 connecting them. It can be maintained as an integral connection through the joint (7).

Referring to Figure 8, the first electrode sheet 4 and the second electrode sheet 5 connected through the seam 7 are connected to the electrode tab 3 at the distal end of the first electrode sheet 4 and the second electrode sheet ( The spacing (t1) between the electrode tabs (3) on the tip side of 5) is connected with the same spacing as the spacing (t1) between the electrode tabs (3) on the individual electrode sheets (4, 5).

Next, as shown in FIG. 7, the tape holder 81 can be pulled out of the access hole 65 while the adhesive tape 82 is attached between the electrode sheets 4 and 5. And the first adsorption plate 61 and the second adsorption plate 62 each release the vacuum in the adsorption hole 65 so that the first electrode sheet 4 and the second electrode sheet 5 are separated, and are spaced apart from each other. By moving to , it is possible to transfer the interconnected first electrode sheet 4 and the second electrode sheet 5. In this state, the standby roll 40 becomes a supply roll, and the cutting process of the electrode 1 can be performed again by restarting the surrogate roll 40, the transfer roll 20, and the delivery machine 30.

At this time, the spacing of the electrode tabs 3 between the connected electrode sheets 4 and 5 is aligned to be the same as the spacing of the electrode tabs 3 on the electrode sheets 4 and 5, so the electrode sheets 4 and 5 The standby roll (40), the transfer roll (20), and the cutter (30) are restarted under the same conditions as before connecting the electrodes (1) by the interconnected first electrode sheet (4) and second electrode sheet (5). cutting work can be performed.

During the subsequent cutting process of the electrode 1, the electrode having the seam 7 may be discarded.

According to this method of connecting electrode sheets, when the electrode sheet 4 in use and the electrode sheet 5 on standby are connected, the gap between the electrode tabs 3 between the connected electrode sheets 4 and 5 is The spacing of the electrode tabs 3 of the sheets 4 and 5 becomes the same, and thus the cutting and processing work of the electrode 1 can be continued without changing the operating conditions of the electrode processing device, thereby processing the electrode 1. Efficiency can be increased. Also, at this time, it is possible to minimize the amount of electrode sheets 4 and 5 that are discarded, so the amount of loss of the electrode sheets 4 and 5 during the connection process of the electrode sheets 4 and 5 can be reduced.

The method of connecting electrode sheets for secondary batteries according to the present invention is not limited to being implemented by the electrode sheet connecting device 50 described above. The method of connecting electrode sheets for a secondary battery is suitable for work within the range of ensuring that the spacing of the electrode tabs (3) between the electrode sheets (4, 5) is the same as the spacing of the electrode tabs (3) of the individual electrode sheets (4, 5). It may also be applied manually or when connecting between electrode sheets 4 and 5 that are not wound on a roll.

Figure 9 shows another modified example of a joint between electrode sheets 4 and 5 connected by a method of connecting electrode sheets for a secondary battery according to an embodiment.

As shown in FIG. 9, the seam 7a can be prepared by attaching an adhesive tape 82 between the cut portions of the individual electrode sheets 4 and 5 while spaced apart.

The joint 7a allows the electrode sheets 4 and 5 to be spaced apart, thereby further reducing the amount of loss in the electrode sheets 4 and 5. At this time, the distance between the center line 9 of the seam 7a and the cutting line 6 of the neighboring electrode sheets 4 and 5 is the same as the distance between the cutting lines 6 on the individual electrode sheets 4 and 5. can be achieved.

1: Electrode 3: Electrode tab
4: first electrode sheet 5: second electrode sheet
10: supply roll 20: transfer roll
30: cutter 40: standby roll
50: Electrode sheet connection device 60: Adsorption unit
70: cutting unit 80: adhesive unit
91: first sensor 92: second sensor

Claims (5)

A first electrode sheet prepared to be transported to the cutting position of the electrode so that the electrode can be cut and separated and wound around a supply roll, and a standby roll so that it can be connected to the first electrode sheet in preparation for when the first electrode sheet is used up. In the method of connecting an electrode sheet for a secondary battery to connect a wound second electrode sheet,
The electrode includes an electrode body and an electrode tab protruding from one end of the electrode body,
The first electrode sheet and the second electrode sheet have a width corresponding to the length of the electrode body in the protruding direction of the electrode tab,
On one side of the first electrode sheet and the second electrode sheet in the width direction, a plurality of electrode tabs are provided to protrude at regular intervals along the longitudinal direction of the electrode sheet,
Cutting the first electrode sheet and the second electrode sheet, respectively;
Attaching the cut part of the second electrode sheet to the cut part of the first electrode sheet with adhesive tape to connect the first electrode sheet and the second electrode sheet,
Connecting between the first electrode sheet and the second electrode sheet,
The distance between the electrode tab closest to the cut portion of the first electrode sheet and the electrode tab closest to the cut portion of the second electrode sheet is such that the electrode tab provided on each of the first electrode sheet and the second electrode sheet A method of connecting electrode sheets for a secondary battery, comprising connecting the cut portion of the first electrode sheet and the cut portion of the second electrode sheet while spaced apart from each other so that the spacing between them is the same. delete delete delete delete

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