JP2018126811A - Guillotine type cutter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cut smoothly a sheet material.SOLUTION: A guillotine type cutter includes a stationary knife 21 provided with a knife on one end, a movable blade 22 provided with a blade on one end, and a moving mechanism 23. The moving mechanism 23 has a holding part 23a for holding the movable blade 22, and is a mechanism for facing the blade 22a of the movable blade 22 toward the knife 21a of the stationary knife 21, and drawing/separating the blade 22a of the movable blade 22 close to/from the knife 21a of the stationary knife 21. In this case, the blade 22a of the movable blade 22 has a jagged blade part 22a1 projecting furthermore than the other blade part 22a2 in the blade width direction, on a part in the blade width direction.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a guillotine type cutting machine.

  Japanese Patent Laid-Open No. 2006-007404 proposes a slitter device for cutting a sheet-like electrode. Here, a slitter apparatus such as a so-called shear method or gang method has been proposed. Here, the shear method is a method in which a thin round blade having a blade edge angle of 85 to 90 ° and a thickness of less than 1 mm is used as the upper blade. In the gang method, a round blade having a blade edge angle of 90 ° and a thicker thickness than the shear method upper blade is used as the upper blade. Japanese Patent Application Laid-Open No. 2012-024921 relates to a shearing machine for thick steel plates, and a so-called guillotine type shearing machine has been proposed.

JP 2006007404 A JP2012-024921A

By the way, this inventor is thinking about using the guillotine type | mold cutting machine by which the guillotine system was employ | adopted to cut | disconnect the electrode sheet used for a lithium ion secondary battery.
A thin metal foil having a thickness of about 10 μm to 15 μm is used for an electrode sheet used for a lithium ion secondary battery or the like, and layers of active material particles are formed on both sides thereof. Some of the active material particle layers are further laminated with a resin separator. In particular, in the case where a resin separator is further laminated on the active material particle layer, the edge of the separator protrudes from the active material particle layer in order to completely cover the active material particle layer with the separator. There may be. As described above, the electrode sheets are laminated with materials having different hardnesses as described above. In particular, when an electrode sheet in which a resin separator is laminated on the active material particle layer and the edge of the separator protrudes from the active material particle layer is cut between the blades of the guillotine cutter In some cases, the separator bites in and does not cut well.

The guillotine type cutting machine proposed here includes a fixed blade provided with a blade at one end, a moving blade provided with a blade at one end, and a moving mechanism. The moving mechanism is a mechanism that has a holding portion that holds the moving blade, and moves the moving blade toward and away from the fixed blade by directing the moving blade toward the fixed blade. . Here, the blade of the movable blade has a serrated blade portion that protrudes in a part of the blade width direction from other blade portions in the blade width direction.
According to this guillotine type cutting machine, a sheet material such as an electrode sheet is smoothly cut.

FIG. 1 is a front view of a guillotine cutter 10 proposed here. FIG. 2 is a sectional view taken along line II-II. FIG. 3 is a cross-sectional view of an electrode sheet cut by the guillotine type cutting machine 10. FIG. 4 is a vertical side view of the movable blade and the fixed blade of the guillotine cutter 10. FIG. 5 is an enlarged front view in which the serrated blade portion 22a1 provided on the movable blade 22 of the guillotine cutter 10 is enlarged.

  Hereinafter, an embodiment of the guillotine type cutting machine proposed here will be described. The embodiments described herein are, of course, not intended to limit the present invention in particular. The invention is not limited to the embodiments described herein unless specifically stated.

  FIG. 1 is a front view of a guillotine cutter 10 proposed here. FIG. 2 is a sectional view taken along line II-II. FIG. 2 shows a state in which the electrode sheet 12 cut by the guillotine type cutting machine 10 is placed. FIG. 3 is a cross-sectional view of an electrode sheet cut by the guillotine type cutting machine 10. In the figure, the directions of up, down, left, right, front, and back are represented by arrows U, D, L, R, F, and Rr, respectively.

  Here, the electrode sheet 12 to be cut is a so-called separator-integrated electrode sheet as shown in FIGS. 1 to 3. The electrode sheet 12 includes a current collector foil 12a, an electrode active material layer 12b, and a separator 12c. The current collector foil 12a is a long thin metal foil. The electrode active material layers 12b are formed on both surfaces of the current collector foil 12a, respectively. The separator 12c is a resin porous sheet and is laminated on the electrode active material layer 12b. The separator 12c completely covers the surface of the electrode active material layer 12b, and the separator 12c protrudes from the electrode active material layer 12b at the edge in the width direction of the electrode sheet 12. The electrode sheet 12 is cut along the width direction every predetermined length.

  In the electrode sheet 12 shown in FIGS. 1 and 2, there is a portion where the electrode active material layer 12b is not formed along the edge on one side in the width direction of the current collector foil 12a. At the opposite edge in the width direction, electrode active material layers 12b are formed on both surfaces of the current collector foil 12a, and a separator 12c is attached to the surface of the electrode active material layer 12b. At the opposite edge in the width direction, the separator 12c protrudes from the electrode active material layer 12b. FIG. 3 shows an electrode sheet 12 having a different form. In the electrode sheet 12 illustrated in FIG. 3, portions where the electrode active material layer 12 b is not formed are formed along the edges on both sides in the width direction of the current collector foil 12 a. A separator 12c is attached to the surface of the electrode active material layer 12b. There are various forms of the electrode sheet 12 to be cut.

  For example, in the negative electrode sheet for a lithium ion secondary battery, a copper foil is used for the current collector foil 12a. The electrode active material layer 12b includes graphite particles as active material particles, carboxymethyl cellulose (CMC) and styrene-butadiene rubber (SBR) as binders. The separator 12c is a polyethylene porous film (20 μm thick). The separator 12c is, for example, coated with polytetrafluoroethylene (PTFE) on the surface to provide adhesion, and is pressed onto the electrode active material layer 12b by being pressed by a press. In this embodiment, the thickness of the current collector foil 12a is 10 μm. The thickness of one surface of the electrode active material layer 12b is about 60 μm. The thickness of one side of the separator 12c is about 20 μm.

  As shown in FIG. 1, the guillotine cutting machine 10 includes a fixed blade 21, a moving blade 22, and a moving mechanism 23. In this embodiment, the fixed blade 21, the moving blade 22, and the moving mechanism 23 are provided in the housing 30.

  The housing 30 is a member having an opening at the bottom and having columns 31 and 32 on both sides and a ceiling 33. Guides 31 a and 32 a for guiding the movable blade 22 are provided on the opposite side surfaces of the columns 31 and 32 on both sides. In this embodiment, grooves are formed as the guides 31a and 32a along the longitudinal direction of the columns 31 and 32 on both sides. Mounting portions 31b and 32b for mounting the fixed blade 21 are provided on the pillars 31 and 32 on both sides. A moving mechanism 23 is attached to the ceiling 33.

  The fixed blade 21 is a member provided with a blade at one end. Here, FIG. 4 is a vertical side view of the movable blade and the fixed blade of the guillotine cutter 10. In this embodiment, the fixed blade 21 is a member having a horizontally long rectangular cross section as shown in FIG. The blade 21 a of the fixed blade 21 is provided along the longitudinal direction on one edge of the upper portion of the fixed blade 21. The angle of the blade edge of the blade 21a of the fixed blade 21 is 90 ° in the illustrated example, but may be an angle of about 80 °, for example. As shown in FIG. 1, the fixed blade 21 is attached to the lower portion of the housing 30 with the blade 21 a facing upward. Thus, the blade 21a of the fixed blade 21 is preferably provided with an appropriate angle.

  The movable blade 22 is a member provided with a blade at one end. In this embodiment, the movable blade 22 is a member having a horizontally long substantially rectangular cross section. The blade 22 a of the movable blade 22 is provided along the longitudinal direction on one edge of the lower portion of the movable blade 22. A shear angle α is attached to the blade 22 a of the movable blade 22. In this embodiment, as shown in FIG. 1, the left side of the movable blade 22 is at a low position, and the right side is gradually increased. The shear angle α in the blade width direction is 2 °. The electrode sheet 12 is first hit and cut from the left side to the right side. Further, the angle β of the blade edge shown in FIG. 2 is 80 °. Thus, the blade 22a of the movable blade 22 is preferably provided with an appropriate angle. The fixed blade 21 and the movable blade 22 are each made of high-speed steel (SKH) in this embodiment.

  The blade 22a of the movable blade 22 has a serrated blade portion 22a1 at a part in the blade width direction. It protrudes from the other blade portion 22a2 in the blade width direction. In this embodiment, the serrated blade portion 22a1 is provided at the left end that first contacts the electrode sheet 12. FIG. 5 is an enlarged front view in which the serrated blade portion 22a1 provided on the movable blade 22 of the guillotine cutter 10 is enlarged. The serrated blade portion 22a1 is provided with a continuous chevron-shaped blade (gagged blade). The other blade portion 22a2 of the movable blade 22 does not have such a chevron blade. In the other blade portion 22a2 of the movable blade 22, a blade is formed at an edge along the shear angle α. The tip of the chevron blade of the serrated blade portion 22a1 protrudes from the other blade portion 22a2 in the blade width direction.

  In this embodiment, as shown in FIG. 2, the fixed blade 21 and the movable blade 22 are slightly shifted back and forth at a position sandwiching a member to be cut, and a clearance C <b> 1 is provided. The clearance C1 may be set according to the sheet to be cut. In this embodiment, the clearance C1 is set to approximately 10 μm. The clearance C1 is appropriately determined in consideration of the sheet material to be cut, the cutting edges of the fixed blade 21 and the movable blade 22, and the like.

  The moving mechanism 23 has a holding portion 23 a that holds the moving blade 22. The moving mechanism 23 is a mechanism that directs the blade 22 a of the moving blade 22 toward the blade 21 a of the fixed blade 21 and moves the blade 22 a of the moving blade 22 closer to or away from the blade 21 a of the fixed blade 21. In this embodiment, the moving mechanism 23 is a piston cylinder mechanism attached to the ceiling 33 of the housing 30. A cylinder 23 b is attached to the lower part of the ceiling 33. The piston 23c protrudes downward from the lower end of the cylinder 23b. The movable blade 22 is held by a holding portion 23a provided at the lower end of the piston 23c with the blade 22a facing downward.

  In this embodiment, the electrode sheet 12 is a long member, and is supplied between the fixed blade 21 and the movable blade 22 as shown in FIGS. 1 and 2. And it cut | disconnects in the width direction for every predetermined length. At this time, the chevron blade of the serrated blade portion 22 a 1 bites into the electrode sheet 12 and holds the electrode sheet 12. Then, the electrode sheet is sandwiched and cut between the movable blade 22 and the fixed blade 21 in a state where the chevron blade of the serrated blade portion 22a1 bites into the electrode sheet 12. At this time, since the chevron blade of the serrated blade portion 22a1 bites into the electrode sheet 12, the electrode sheet 12 hardly enters the clearance between the other blade portion 22a2 of the movable blade 22 and the blade 22a of the fixed blade 21, and the electrode The sheet 12 is cut smoothly.

  In this embodiment, the electrode sheet 12 has a portion where the electrode active material layer 12b is not formed along the edge on one side in the width direction of the current collector foil 12a. At the opposite edge in the width direction, electrode active material layers 12b are formed on both surfaces of the current collector foil 12a, and a separator 12c is attached to the surface of the electrode active material layer 12b. At the opposite edge in the width direction, the separator 12c protrudes from the electrode active material layer 12b. In this case, the position where the separator 12c protrudes from the electrode active material layer 12b may be aligned with the boundary between the serrated blade portion 22a1 of the movable blade 22 and the other blade portion 22a2. And it is good to adjust the position of the electrode sheet 12 with respect to the moving blade 22 so that the separator 12c may be cut | disconnected by the serrated blade part 22a1 from the electrode active material layer 12b. For this reason, the conveying device that conveys the electrode sheet 12 to the guillotine cutting machine 10 is preferably provided with an edge adjusting mechanism 50 (see FIG. 2) for positioning the electrode sheet 12. Various edge adjustment mechanisms 50 for the electrode sheet 12 have been proposed, and those having an appropriate function may be appropriately employed.

  As described above, the blade 22a of the movable blade 22 of the guillotine type cutting machine 10 has the serrated blade portion 22a1 protruding from the other blade portion 22a2 in the blade width direction at a part of the blade width direction. The serrated blade portion 22a1 hits a sheet material that is cut prior to the other blade portions 22a2. The serrated blade portion 22a1 is provided with a continuous chevron blade that bites into the sheet material to be cut. For this reason, the sheet material to be cut is held by the serrated blade portion 22a1. Thereafter, the sheet material is sandwiched between the other blade portion 22a2 and the blade 21a of the fixed blade 21. Since a part of the sheet material is held by the serrated blade portion 22a1, it is difficult to bite between the movable blade 22 and the fixed blade 21, and is cut smoothly.

  The inventor has tested the movable blade 22 even without the serrated blade portion 22a1, but the separator 12c protruding from the electrode active material layer 12b flows into the clearance C1 between the movable blade 22 and the fixed blade 21, and the cutting is performed. Some defects were found. On the other hand, when the movable blade 22 is provided with the serrated blade portion 22a1, the separator 12c protruding from the electrode active material layer 12b is unlikely to flow into the clearance C1 between the movable blade 22 and the fixed blade 21, and the cutting is performed. Defects are greatly reduced.

  Here, the protrusion amount H1 (see FIG. 5) of the serrated blade portion 22a1 may be adjusted to an appropriate amount for the sheet material to be cut. For example, as described above, when the electrode active material layer 12b is formed on both surfaces of the current collector foil 12a and the separator 12c is attached to the surface of the electrode active material layer 12b, the serrated blade portion 22a1. It is preferable that the protruding amount of is greater than the thickness of the electrode active material layer 12b × 2 + the thickness of the current collector foil. Here, the protrusion amount of the serrated blade portion 22a1 is the amount that the angled blade of the serrated blade portion 22a1 protrudes at the boundary between the serrated blade portion 22a1 and the other blade portion 22a2 with reference to the tip of the other blade portion 22a2. It is. For example, when the thickness of the electrode active material layer 12b is 60 μm and the thickness of the current collector foil is 10 μm, the protruding amount of the serrated blade portion 22a1 is preferably about 130 μm. In this case, as shown in FIG. 5, the tip of the serrated blade portion 22a1 hits the separator 12c, and the separator 12c protruding from the electrode active material layer 12b is pressed by the serrated blade portion 22a1. And the electrode sheet 12 is cut | disconnected by being pinched | interposed into the other blade part 22a2 and the blade edge | tip of the fixed blade 21. FIG. Here, the width H2 (see FIG. 5) of the chevron blade of the serrated blade portion 22a1 is preferably about 1 mm, for example.

  According to the knowledge of the present inventor, in the blade width of the movable blade 22, the serrated blade portion 22a1 is preferably longer than the length of the separator 12c protruding from the electrode active material layer 12b. As a result, at the portion where the separator 12c protrudes from the electrode active material layer 12b by the serrated blade portion 22a1, the serrated blade portion 22a1 comes into contact with the separator 12c ahead of the others, and the separator 12c is more reliably held by the serrated blade portion 22a1. The

  Here, the case where the resin-made separator 12c is laminated | stacked on the electrode active material layer 12b, and the edge of the separator 12c cut | judged the electrode sheet 12 protruded from the electrode active material layer 12b was illustrated. The sheet material cut by the guillotine cutter 10 is not limited to such a form. In the guillotine cutting machine 10, the serrated blade portion 22a1 hits the sheet material in advance, and the sheet material is cut by the other blade portion 22a2 while holding the sheet material. For this reason, it is widely applicable to the use which cut | disconnects the electrode sheet on which the material from which hardness differs is laminated | stacked.

  Moreover, the guillotine type cutting machine 10 proposed here can be used to cut not only an electrode sheet but also various sheets. For example, the electrode active material layer 12b may be formed on both surfaces of the current collector foil 12a or may be used to cut a separator that is a soft sheet. The movable blade 22 may be one having an appropriate protruding amount of the serrated blade portion 22a1 so that the sheet material to be cut can be cut smoothly. Moreover, the position where the serrated blade portion 22a1 is provided on the blade 22a of the movable blade 22 can be changed as appropriate according to the sheet material to be cut. In this guillotine type cutting machine 10, the serrated blade portion 22a1 hits the sheet material in advance, and the sheet material is cut by the other blade portion 22a2 while holding the sheet material. The position where the serrated blade portion 22a1 is provided with respect to the movable blade 22 may be determined according to the sheet material to be cut so as to exhibit such a function. That is, the position where the serrated blade portion 22 a 1 is provided does not necessarily have to be one end of the movable blade 22.

  The various guillotine type cutting machines proposed here have been described above. Unless otherwise stated, the embodiments of the guillotine type cutting machine mentioned here do not limit the present invention.

DESCRIPTION OF SYMBOLS 10 Guillotine type cutting machine 12 Electrode sheet | seat 12a Current collecting foil 12b Electrode active material layer 12c Separator 21 Fixed blade 21a Blade 22 Moving blade 22a Blade 22a1 Giza blade portion 22a2 Other blade portion 23 Moving mechanism 23a Holding portion 23b Cylinder 23c Piston 30 Housing Body 31, 32 Column 31a, 32a Guide 31b, 32b Mounting part 33 Ceiling 50 Edge adjustment mechanism C1 Clearance α Shear angle

Claims (1)

A fixed blade provided with a blade at one end;
A moving blade provided with a blade at one end;
A moving mechanism that has a holding portion that holds the moving blade, and moves the blade of the moving blade toward or away from the blade of the fixed blade by directing the blade of the moving blade toward the blade of the fixed blade And
The blade of the movable blade has a serrated blade portion that protrudes in a part of the blade width direction from other blade portions in the blade width direction.
Guillotine type cutting machine.

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