KR101908586B1 - Automatic cutting edge of terrace edge of secondary battery cell - Google Patents

Abstract

The present invention relates to an apparatus for automatically quickly and accurately cutting a remaining portion of a terrace of a secondary battery cell which is transferred by a carrier. The apparatus includes a transfer carrier for transferring the secondary battery cell, which is seated on the transfer carrier, along a rail; an upper cutting mold that moves up and down above the terrace of the secondary battery cell transferred by the transfer carrier, to cut the remaining portion of the terrace; and a main frame provided to a lower portion of the upper cutting mold to support a lower support mold supporting a lower portion of the terrace and the remaining portion of the terrace.

Description

Technical Field [0001] The present invention relates to an automatic cutting edge of a terrace edge of a secondary battery cell,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for cutting corners at a terrace portion of a rechargeable battery cell, that is, a pouch-shaped sealing material remaining portion, and more particularly to a device for cutting a corner portion in a terrace portion of a rechargeable battery cell, The cutter can be individually operated to cut and remove the edge portion of the terrace portion while the cutting metal mold and the support metal mold that are driven to move up and down and stably support the edge portion of the terrace portion, The edge portion of the terrace portion can be cut off while leading the lower cutter and the terrace supporting portion to be in close contact with each other without being caught by each other even when a negative tolerance is applied to cut the edge portion of the terrace portion as the portions come into contact with each other, Of the secondary battery cell It relates to a terrace portion edge and cut devices of a secondary battery cell capable of quickly and accurately cutting the both side edge portions.

2. Description of the Related Art Recently, as the demand and development of electric vehicles, mobile devices, notebooks, portable terminals, etc., such as electric vehicles and electric scooters, have increased, demand for secondary batteries has rapidly increased.

Particularly, research and commercialization of lithium secondary batteries having high efficiency and portability have been made.

Such a lithium secondary battery is manufactured in a cylindrical shape, a square shape, a pouch shape or the like depending on its shape, and a pouch type battery cell which can be stacked with a high degree of integration, an energy density per weight is high, have.

On the other hand, in the case of a pouch-shaped battery cell, sealing is very important for securing the sealing property, insulation resistance, etc. Especially, in the case of the middle- or large-sized battery, since the internal capacity is large, the sealing portion is widened, And a method of bending the remaining area after the sealing is used.

However, when the remaining area is excessively wide, the volume of the battery cell becomes large.

In connection with the prior art 1 (Japanese Unexamined Patent Application Publication No. 10-2018-0023230, a cutting apparatus for manufacturing a secondary battery), the pressure applied during the cutting process of at least one of the positive electrode plate, the negative electrode plate, Disclosed is a cutting apparatus for manufacturing a secondary battery for preventing misalignment.

However, in the prior art document 1, the cutters can not be brought into close contact with each other as much as possible, resulting in a cutting error due to the wear of the cutter, and the upper and lower portions of the cutting object can not be supported during the cutting process.

In addition, in order to improve the accuracy and convenience of bending, the edge portion of the terrace portion must be removed. In the prior art 1, the edge portion of the workpiece can not be cut.

Prior art document 1 (Japanese Unexamined Patent Application Publication No. 10-2018-0023230)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems described above, and it is an object of the present invention to provide a method for manufacturing a secondary battery cell in which, when a corner portion of a terrace portion is cut while a secondary battery cell is supported at an accurate position by a supporting portion of a secondary battery cell, The upper cutter and the terrace supporting portion can be cut and cut without flowing in a state in which the upper and lower portions of the remaining portion of the terrace are supported by the cutting supporting portion which can perform the cutting operation automatically, The upper portion of the terrace can be cut off while the upper cutter is in contact with the terrace supporting portion without being caught by the upper portion by the inclined surface immediately before the upper portion of the cutter is brought into contact with the support portion of the terrace. It is possible to efficiently cut the glass of the terrace portion And can cut and remove at an accurate position an angle and an interval of a cut edge according to the size and shape of the secondary battery cell. The purpose is to provide.

According to an aspect of the present invention, there is provided an apparatus for automatically cutting a corner of a terrace of a secondary battery cell, the apparatus comprising: An upper cutting metal mold 100 for cutting the edge of the terrace portion 20 while being vertically lifted and lowered from the upper portion of the upper cutting metal mold 100 to support the lower portion of the terrace portion 20, A main frame 300 supporting the upper cutting mold 100 and the lower supporting mold 200 and a lower frame 300 disposed under the main frame 300 to adjust the angle and position of the main frame 300, A cutting position adjusting unit 400 capable of changing an angle and a position of the upper cutting die 100 and the lower support die 200; And a secondary battery cell support part (500) for supporting the secondary battery cell (10) so as not to flow at an accurate position.

The upper cutting mold 100 is sloped and symmetrically formed on both sides of the edge of the terrace portion 20 of the secondary battery cell 10 in the main frame 300 above the terrace portion 20, An upper cutting portion 110 for cutting and removing only a corner portion of the terrace portion 20 while being vertically raised and lowered at an upper portion of the upper cutting portion 110 and a terrace portion 20 located at the upper cutting portion 110, A cutting support portion 120 for pressing and supporting the upper portion of the terrace portion 20 when the upper cutting portion 110 cuts a corner portion of the terrace portion 20 and a cutting support portion 120 for supporting the upper cutting portion 110 and the cutting support portion 120, And a cutting unit driving unit 130 for moving the driving unit 130 up and down together.

At this time, the lower support die 200 is provided to face the upper cutting unit 110, and only a part of the thickness is overlapped with the bottom die 210 to support the lower portion of the terrace unit 20 when corner cutting is performed. A bottom die drive unit 220 provided at the rear of the bottom die 210 to operate the bottom die 210 in a cam driving manner and a second die drive unit 220 disposed at a rear lower portion of the bottom die 210, And a cutting position adjusting unit 400 for adjusting a position and an angle of cutting according to the size and shape of the cutting position adjusting unit 400.

The secondary battery cell support unit 500 is separated from the upper cutting metal mold 100 and the lower support metal mold 200 and is disposed at a lower portion of the secondary battery cell 10 to be driven by the cylinder, A rear supporting portion 510 for supporting the other end portion of the secondary battery cell 10 to be cut at an edge thereof; and a secondary battery cell 10, which is driven by a cylinder at both lower portions of the secondary battery cell 10, And a supporting member 520 provided at the rear of the rear support 510 to adjust the position of the secondary battery cell 10 in accordance with the size and size of the secondary battery cell 10, And an adjusting unit 530.

The cutting position adjusting unit 400 includes an angle adjusting unit 410 that is rotated and overlapped with a lower portion of the main frame 300 to adjust the angle of the main frame 300, The distance between the main frame 300 and the secondary battery cell 10 can be adjusted by moving the position of the angle adjusting unit 410 in the longitudinal direction of the secondary battery cell 10, And the distance between the main frame 300 provided symmetrically on both sides of the secondary battery cell 10 can be adjusted to be remote or close to each other And an interval adjusting unit 430 for adjusting the interval.

The apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention has the following effects.

First, there is an effect that only a corner portion can be automatically cut and removed from the terrace portion of the secondary battery cell.

Secondly, the cutter, which operates on both sides of the terrace remaining part and cuts the remaining part of the terrace part when cutting, comes in close contact with each other as much as possible, so that the edge part of the terrace part can be cut off and the remaining part of the terrace part can be accurately removed.

Thirdly, it is possible to adjust the cutter to be in close contact with each other according to the wear of the cutter, so that the cutting efficiency due to wear can be prevented from being lowered.

Fourth, since the upper and lower portions of the edge of the terrace portion are supported by the cutting support portion which is operated separately before cutting the edge portion of the terrace portion, the terrace portion can be prevented from flowing during the cutting process, .

Fifth, an edge cutting position can be freely adjusted according to the size and shape of the secondary battery cell.

Sixth, there is an effect that the corner portions can be accurately cut while the rear and both sides of the secondary battery cell are supported.

1 is an overall perspective view of an apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention.
2 is a rear perspective view of a device for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention.
3 is a perspective view showing only an upper cutting mold, a lower supporting die and a main frame of an apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention.
4 is a perspective view illustrating a cutting position adjusting unit of the apparatus for automatically cutting the edge of a terrace of a secondary battery cell according to an embodiment of the present invention.
5 is a perspective view showing a detail of a secondary battery cell supporting portion of a device for automatically cutting the edge of a terrace portion of a secondary battery cell according to an embodiment of the present invention.

The present invention relates to a method for automatically cutting the edge of a terrace portion of a secondary battery cell, and more particularly, to a method for cutting a corner portion of a secondary battery cell in a state where the terrace portion of the secondary battery cell is not fluidized, In addition, the upper cutter and the terrace supporting portion can be easily adjusted according to the abrasion of the cutter, and the angle and position at which the corners are cut according to the size and shape of the secondary battery cell can be freely adjusted The present invention relates to an apparatus for automatically cutting a corner of a terrace of a secondary battery cell that can be cut.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall perspective view of an apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention. FIG. 2 is a rear perspective view of a device for automatically cutting a corner of a terrace of a secondary battery cell according to an embodiment of the present invention. to be.

1 and 2, the present invention mainly relates to an upper cutting mold 100 which is vertically driven at an upper portion of a secondary battery cell 10 to remove an edge from a terrace portion 20 of the secondary battery cell 10, A lower supporting metal mold 200 for supporting the lower portion of the terrace portion 20 of the secondary battery cell 10 at the lower portion of the upper cutting metal mold 100 and a lower supporting metal mold 200 for supporting the upper cutting metal 100 and the lower supporting metal mold 200, The main frame 300 and the main frame 300. When the edges of the secondary battery cell 10 are removed from the terrace 20 of the secondary battery cell 10, A cutting position adjusting unit 400 capable of adjusting a cutting position of the secondary battery cell 10 and a secondary battery cell 10 to which the secondary battery cell 10 is fixed when the edge is cut and removed from the terrace 20 of the secondary battery cell 10 And a secondary battery cell support unit 500.

As a result, only the corners of the secondary battery cell 10 of various sizes can be cut into a desired shape in one apparatus.

FIG. 3 is a perspective view illustrating only an upper cutting mold, a lower supporting die, and a main frame of a device for automatically cutting the edge of a terrace of a secondary battery cell according to an embodiment of the present invention.

3, the upper cutting metal 100 is vertically moved up and down from the upper portion of the terrace portion 20 so as to cut only the edges of the upper portion of the terrace portion 20 of the secondary battery cell 10, An upper cutting portion 110 for cutting off a portion to be removed, which is in contact with an edge of the upper cutting portion 110, and a lower cutting portion 110 provided on the front side (upper portion of the terrace portion) And a cutting part driving part 130 for moving the cutting part 120 and the cutting part 110 and the cutting part 120 up and down.

The upper cutting portion 110 is directly contacted with the edge of the terrace portion 20 and presses to cut the terrace portion 20. The upper cutting portion 110 has a length corresponding to the longitudinal direction of the terrace portion 20, And a cutter adjusting unit 112 for adjusting the upper cutter 111 to be in close contact with the cutting position so as to correspond to the thickness reduction when the upper cutter 111 is polished and used when the upper cutter 111 is worn, ).

The cutter adjusting part 112 is adjustable such that the upper cutter 111 is closely contacted to the cutter adjusting part 112 side by the cutter adjusting bolt 112a. The cutter adjusting part 112 penetrates the cutter adjusting part 112, The upper cutter 111 can be adjusted to be closely attached to the cutter adjusting portion 112 side.

This makes it possible to accurately and quickly cut the edges of the terrace portion 20.

On both sides of the upper cutter 111, there is further provided a tight guide portion 113 which is operated so as not to overlap with a later-described terrace supporting portion 211 and which is closely adhered to the upper portion so as to cut the remaining portion of the terrace portion 20 accurately do.

The contact guiding portion 113 will be described more specifically with reference to the configuration of the terrace supporting portion 211 of the lower supporting metal mold 200 described later.

The cutting support part 120 is for supporting the upper part of the terrace part 20 so as not to flow when the remaining part of the terrace part 20 is cut and contacts the upper surface of the terrace part 20, And a stripper pressing spring 122 for providing elasticity so that the stripper 121 always comes into close contact with the terrace side from the upper portion of the stripper 121. The stripper 121 is provided with a stripper 121,

The stripper 121 is in contact with the upper portion of the upper cutter 110 by the stripper pressing spring 122 when the upper cutter 111 contacts the terrace portion 20 and presses and cuts the edge of the terrace portion 20. [ The upper portion of the upper portion of the cutter 111 is pressed against the lower surface of the upper portion of the terrace portion 20 by the elastic force of the stripper pressing spring 122, So that the corner portion can be cut and removed accurately in a state in which the terrace portion 20 is supported without being flowed during the cutting process.

The cutting unit driving unit 130 is disposed at an upper portion of the upper cutting tool 100 and is fixed to the main frame 300 to move the upper cutting unit 110 and the cutting supporting unit 120 upward and downward. The edge of the terrace portion 20 can be cut by raising and lowering the upper cutting portion 110 and the cutting supporting portion 120 including the driving cylinder 131. [

Therefore, only the edge portion can be accurately and quickly cut and removed from the terrace portion 20 of the secondary battery cell 10.

The lower support die 200 is lowered and waits when the terrace portion 20 of the secondary battery cell 10 enters and when the terrace portion 20 is placed at the cutting position, And a bottom die driver 220 for driving the bottom die 210 up and down.

The bottom die 210 includes a terrace supporting portion 211 for supporting the terrace portion in direct contact with the lower portion of the terrace portion 20 while being vertically moved up and down and an edge portion of the terrace portion 20 at a lower portion of the terrace supporting portion 211 And a cutting portion recovery pipe (212) connected to the dropping position and recovering the edge of the terrace portion (20) when the edge is cut off.

The bottom die driving unit 220 includes a bottom die driving cylinder 221 for providing power to vertically drive the bottom die 210 and a bottom die 210 connected to the bottom die driving cylinder 221, And a bottom die driving cam 222 for moving up and down the bottom die driving cam 222.

At this time, the bottom die driving cylinder 221 is driven by the rotary cylinder to rotate, and the bottom die 210 moves up and down.

The upper cutter 111 of the upper cutting part 110 and the terrace supporting part 211 of the bottom die 210 are provided so as to face each other and partially overlap each other.

When the driving unit is driven in the overlapping state as described above, damage occurs due to collision with each other and the remaining portion of the terrace unit 20 can not be cut accurately. At this time, the contact guide unit 113 first contacts the terrace supporting unit 211 The upper cutter 111 and the terrace supporting portion 211 are moved in the vertical direction when the terrace supporting portion 211 contacts the upper cutter 111 by pushing the slightly overlapped portion by the guiding inclined surface 113a, So that the remaining portion of the terrace portion 20 can be cut accurately.

The upper cutting die 100 and the lower support die 200 are installed on one main frame 300 and the main frame 300 on which the upper cutting die 100 and the lower support die 200 are installed Two pairs of the battery cells 10 are symmetrically disposed to face the edge of the terrace portion 20 of the secondary battery cell 10.

FIG. 4 is a perspective view illustrating a cutting position adjusting unit of a device for automatically cutting a terrace edge of a secondary battery cell according to an embodiment of the present invention. Referring to FIG.

4, the cutting position adjustment unit 400 is provided at a lower portion of the main frame 300 and adjusts the angle at which the edges are cut at the terrace portion 20 as the angle of the main frame 300 is adjusted. An individual distance adjusting unit 420 disposed below the angle adjusting unit 410 to adjust the position of the secondary battery cell 10 in accordance with the size and size of the secondary battery cell 10, A gap adjusting part 430 provided below the individual distance adjusting part 420 and capable of adjusting the distance between the main frames 300 positioned symmetrically with respect to each other, And an integrated distance adjusting unit 440 that can transfer the upper cutting metal 100 and the lower supporting metal 200, which are provided in pairs, facing each other toward or away from the secondary battery cell 10, .

The angle regulating unit 410 includes a rotating plate 411 fixed and installed in the form of a circular plate at a lower portion of the main frame 300, A support plate 413 provided at a lower portion of the rotation plate 411 to support the rotation plate 411 for rotation and a support plate 413 provided at one side of the support plate 413, And an angle indicating member 414 for indicating the position on the angle display scale 412 side.

The individual distance adjusting unit 420 may be disposed at a lower portion of the angle adjusting unit 410 so that the main frame 300 including the angle adjusting unit 410 may be positioned at an accurate cutting position according to the size or size of the secondary battery cell 10. [ An individual distance adjusting screw 422 disposed below the individual distance adjusting plate 421 to drive the individual distance adjusting plate 421 by a screw structure, And an individual distance adjustment handle 423 provided at an end of the individual distance adjustment screw 422 to rotate the individual distance adjustment screw 422.

At this time, the individual distance adjusting unit 420 may cut the edges formed at both ends of the terrace portion 20 in the terrace portion 20 of the secondary battery cell 10 at the same time, The upper cutting metal mold 100 and the lower support metal mold 200, which are symmetrically arranged in pairs, can be individually adjusted so that the size of both side edges of the secondary battery cell 10 can be cut differently according to the shape of the secondary battery cell 10.

The gap adjusting part 430 is provided symmetrically with the lower part of the individual distance adjusting part 420 and is disposed between the upper cutting mold 100 and the lower supporting mold 200, So that they can be connected to the respective main frames 300 and can be adjusted so as to approach each other or away from each other with a screw structure.

The gap adjusting unit 430 includes a gap adjusting plate 431 provided below the individual distance adjusting unit 420 to support the individual distance adjusting unit 420, A gap adjusting screw 432 for feeding the gap adjusting plate 431 and a gap adjusting handle 433 provided at an end of the gap adjusting screw 432 to rotate the gap adjusting screw 432, .

This makes it possible to freely adjust the interval of the edges to be cut when cutting the corners in the terrace portion 20 of the secondary battery cell 10.

The integrated distance adjustment unit 440 includes an integrated distance adjustment plate 441 provided below the interval adjustment unit 430 to support the interval adjustment unit 430 and a lower end of the integrated distance adjustment plate 441 An integrated distance adjusting screw 442 connected to the integrated distance adjusting plate 442 to rotate the integrated distance adjusting plate 441 in the forward and backward directions by rotation and an integrated distance adjusting screw 442 provided at the end of the integrated distance adjusting screw 442 to rotate the integrated distance adjusting screw 442 And an integrated distance adjustment handle 443.

Therefore, in cutting the both side edges of the terrace portion 20 according to the size of the secondary battery cell 10, it is possible to freely adjust the distance to the side of the secondary battery cell or to be away from the secondary battery cell in a state in which it is set to match the width of both side edges to be cut do.

FIG. 5 is a perspective view illustrating a supporting portion of a secondary cell of an apparatus for automatically cutting a corner of a terrace of a secondary battery cell according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIG. 5, the secondary battery cell support unit 500 is provided at a lower portion of the secondary battery cell 10 where the edge of the terrace unit 20 is cut, and supports the secondary battery cell 10 in a proper position The rear supporting portion 510 supports the opposite side (the rear side) from which the edge portion of the secondary battery cell 10 is cut and the rear supporting portion 510 that supports the rear battery cell 10 in the vicinity of the secondary battery cell 10 A side supporting portion 520 for supporting the side surface of the secondary battery cell 10 while being operated and a supporting portion 520 for supporting the secondary battery cell 10 according to the size of the secondary battery cell 10, And a support position adjusting unit 530 that adjusts the support position.

The rear support unit 510 includes a rear support member 511 which is reciprocally operated from the rear of the secondary battery cell 10 to support or release the secondary battery cell 10 and a rear support member 511 which is provided behind the rear support member 511 And a rear supporting cylinder 512 for reciprocating the rear supporting member 511 to the secondary battery cell chuck.

The side support portions 520 are reciprocally operated from both sides of the secondary battery cell 10 toward the secondary battery cell 10 so that when the edge of the secondary battery cell 10 is cut at the terrace portion 20 of the secondary battery cell 10, And a side support cylinder 522 provided below the side support member 521 for reciprocating the side support member 521 toward the secondary battery cell 10. The side support member 521 supports the side support member 521, .

As a result, when the corners are cut at the terrace portion 20 of the secondary battery cell 10, the secondary battery cell 10 can be supported and precisely cut. When the cutting of the corner is completed, the secondary battery cell 10 is released The secondary battery cell 10 can be recovered or transferred to the next process.

The support position adjusting unit 530 may adjust the position of the rear support unit 510 at the rear of the rear support unit 510 and may be configured to adjust the position of the rear support unit 510 in accordance with the size of the secondary battery cell 10. [ It is possible to support the secondary battery cells 10 of various sizes while adjusting the position.

The support position adjusting unit 530 includes a position adjusting plate 531 provided at a lower portion of the rear supporting unit 510 to move back and forth while supporting the rear supporting unit 510, A position adjusting screw 532 provided at a lower portion of the position adjusting plate 532 for reciprocally moving the position adjusting plate 531 by a screw structure and a position adjusting screw 532 provided at an end of the position adjusting screw 532 for rotating the position adjusting screw 532 And an adjustment handle 533.

Accordingly, when cutting the corner of the secondary battery cell 10 at the edge of the terrace 20, it is possible to precisely set and cut the corner of the desired position corresponding to the secondary battery cell 10 of various sizes.

According to the present invention as described above, in cutting a corner of a terrace portion of a secondary battery cell, it is possible to cut and remove an edge at an accurate position while the secondary battery cell is fixedly supported so as not to flow, The cutting position can be cut and removed while not supporting the cutting part, and the support position and the corner cutting position of the secondary battery cell can be changed so as to correspond to the secondary battery cell manufactured in various sizes and sizes, So that it can be removed.

10: Secondary battery cell 20:
100: upper cutting die 110: upper cutting portion
111: upper cutter 112: cutter adjustment part
112a: Cutter adjustment bolt 113:
113a: Induction slope 120: Cutting support
121: Stripper 122: Stripper pressure spring
130: cutting part driving part 131: cutting part driving cylinder
200: lower support mold 210: bottom die
211: terrace supporting portion 212: cutting portion recovery pipe
220: Bottom die drive unit 221: Bottom die drive cylinder
222: bottom die drive cam 300: main frame
400: cutting position adjusting unit 410: angle adjusting unit
411: Spindle 412: Angle indication scale
413: Support plate 414: Angle indicating member
420: Individual distance adjusting part 421: Individual distance adjusting plate
422: Individual distance adjusting screw 423: Individual distance adjusting handle
430: Spacing adjuster 431: Spacing adjuster
432: Spacing adjusting screw 433: Spacing adjusting handle
440: Integrated distance adjustment unit 441: Integrated distance adjustment plate
442: Integrated distance adjustment screw 443: Integrated distance adjustment handle
500: Secondary battery cell support part 510:
511: rear support member 512: rear support cylinder
520: side support portion 521: side support member
522: side support cylinder 530: support position adjusting section
531: Positioning plate 532: Positioning screw
533: Positioning handle

Claims (5)

An upper cutting mold 100 for vertically and vertically lifting the upper portion of the terrace portion 20 of the secondary battery cell 10 while the secondary battery cell 10 is fixedly supported and cutting the edge of the terrace portion 20;
A lower support mold 200 provided at a lower portion of the upper cutting metal mold 100 to support a lower portion of the terrace portion 20;
A main frame 300 supporting the upper cutting die 100 and the lower support die 200;
The main frame 300 is provided at a lower portion of the main frame 300 and adjusts the angle and position of the main frame 300 to adjust the angle and position of the upper and lower support dies 100, (400); And
The secondary battery cell supporting part 500 for supporting the secondary battery cell 10 such that the secondary battery cell 10 does not flow at an accurate position,
The upper cutting mold 100 is sloped and symmetrically provided on both sides of the edge of the terrace portion 20 of the secondary battery cell 10 in the main frame 300 above the terrace portion 20, An upper cutting portion 110 for cutting and removing only a corner portion from the terrace portion 20 while being vertically lifted and lowered from an upper portion of the upper cutting portion 110; A cutting support part 120 for pressing and supporting the upper part of the terrace part 20 when the cutting part 110 cuts a corner part in the terrace part 20 and a cutting supporting part 120 for supporting the upper cutting part 110 and the cutting supporting part 120 together And a cutting part driving part (130) for moving up and down the main body of the secondary battery cell.
delete The method according to claim 1,
The lower support die 200 includes a bottom die 210 facing the upper cutting unit 110 and supporting a lower portion of the terrace 20 when corner cutting is performed, A bottom die driver 220 provided at the rear of the bottom die 210 to operate the bottom die 210 in a cam driving manner and a second die driver 220 disposed at the rear of the bottom die 210 to reduce the size of the secondary battery cell 10 And a cutting position adjusting unit (400) capable of adjusting a position and an angle of cutting according to a shape of the cutter.
The method according to claim 1,
The secondary battery cell support unit 500 is spaced apart from the upper cutting mold 100 and the lower support mold 200 and is provided at a lower portion of the secondary battery cell 10 to be driven by a cylinder, A rear support portion 510 for supporting the other end of the secondary battery cell 10 to be cut by the upper portion of the secondary battery cell 10 when the edge of the second portion of the secondary battery cell 10 is cut, And a support position adjusting unit for adjusting a position of the secondary battery cell 10 to be supported according to the size and size of the secondary battery cell 10, which is provided at a rear side of the rear support unit 510, (530). ≪ RTI ID = 0.0 > [0002] < / RTI >
The method according to claim 1,
The cutting position adjusting unit 400 includes an angle adjusting unit 410 that is rotated and overlapped with the main frame 300 to adjust the angle of the main frame 300, The position of the angle regulating part 410 is moved in the longitudinal direction of the secondary battery cell 10 so that the distance between the main frame 300 and the secondary battery cell 10 The distance between the main frame 300 and the main frame 300 which are provided below the individual distance adjuster 420 and symmetrically provided on both sides of the secondary battery cell 10, And an adjuster (430) for automatically cutting the edges of the terrace corners of the secondary battery cell.

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