JP2019038085A - Thomson blade unit and thomson blade height controlling method - Google Patents

Abstract

To achieve elongation of a life of a thomson blade and further to reduce variation in the life thereof.SOLUTION: A thomson blade unit 100, which is fitted to a thomson cutting device for punching a sheet-like material into a prescribed shape, comprises: a base plate 1 which has a main surface 11; a mold block 2 which has an outer peripheral surface 23 along the prescribed shape, and is so fitted to the main surface 11 of the base plate 1 that the outer peripheral surface 23 becomes perpendicular to the main surface 11 of the base plate 1; a thomson blade 3 which has a belt-like shape having a blade tip edge 31 and a blade base edge 32, and is so fitted to the outer peripheral surface 23 of the mold block 2 that the blade base edge 32 is positioned on the main surface 11 side of the base plate 1; and a fitting mechanism which fits the thomson blade 3 to the mold block 2 so that a height of the blade tip edge 31 of the thomson blade 3 is adjustable with respect to the mold block 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a Thomson blade unit, and more particularly to a Thomson blade unit used by being attached to a Thomson cutting device, and a method for adjusting the height of a Thomson blade of the Thomson blade unit.

  Conventionally, a Thomson cutting device is used to punch a sheet-like material into a predetermined shape. The Thomson blade of the Thomson cutting device is usually attached to the Thomson cutting device as a Thomson blade unit in which a Thomson blade is struck with a hammer or the like into a groove formed by laser processing or the like on a base plate.

  Patent Document 1 describes a Thomson blade unit (punching die) in which a Thomson cut blade is attached along the inner periphery of a through hole of a substrate. In the Thomson blade unit described in Patent Document 1, the Thomson blade is attached to the inner peripheral surface of the through hole formed in the substrate.

Japanese Patent Laying-Open No. 2015-55018

  By the way, in the conventional Thomson blade unit in which the Thomson blade is implanted in the groove of the base plate, the height of the edge of the Thomson blade is uneven because the Thomson blade is struck with a hammer etc. There is. In addition, the laser-processed groove on the base plate may be slightly inclined with respect to the surface of the base plate and may not be perpendicular. When the Thomson blade is implanted in this state, the Thomson blade is slightly in contact with the surface of the base plate. Tilt. As a result, the cutting durability (life) of the Thomson blade is lowered, and there is a problem that defective punching occurs at an early stage. Further, the vertical accuracy of the Thomson blade and the height of the edge of the blade edge vary greatly depending on the Thomson blade unit, so that there is also a problem that variation in the cutting durability of the Thomson blade is large.

  In the Thomson blade unit described in Patent Document 1, as a method of fixing the Thomson blade, a nail-like convex portion provided on the Thomson blade is fixed by driving into the substrate. The blade unit may also have the same problem as the conventional Thomson blade unit.

  The present invention has been made in view of the above circumstances, and provides a Thomson blade unit and a method for adjusting the height of the Thomson blade that can extend the life of the Thomson blade and reduce variations in the life. It is an object.

  To achieve the above object, a Thomson blade unit of the present invention is a Thomson blade unit attached to a Thomson cutting device for punching a sheet-like material into a predetermined shape, and includes a base plate having a main surface, and at least the predetermined shape. A mold block attached to the main surface of the base plate, a cutting edge and a cutting edge, having a peripheral surface along a portion, the peripheral surface being perpendicular to the main surface of the base plate A Thomson blade attached to the peripheral surface of the mold block such that the blade base edge is located on the main surface side of the base plate, and the Thomson with respect to the mold block And an attachment mechanism for attaching the Thomson blade to the mold block so that the height of the blade edge of the blade can be adjusted.

  Moreover, according to the height adjustment method of the Thomson blade of the Thomson blade unit of the present invention, the height of the edge of the Thomson blade of the Thomson blade unit according to any one of claims 1 to 5 is adjusted. A method of attaching a temporarily fixed Thomson blade unit in which the Thomson blade is temporarily fixed to the peripheral surface of the mold block to the Thomson cut device; and the temporarily fixing Thomson blade unit attached to the Thomson cut device. Pressing the Thomson blade unit against the flat surface of the table facing the Thomson blade unit, and shifting the Thomson blade relative to the mold block in the blade base direction so that the entire edge of the Thomson blade is in contact with the flat surface; And fixing the Thomson blade to the mold block in a state where the entire edge of the Thomson blade is in contact with the flat surface. It is characterized in.

  According to the Thomson blade unit and the height adjustment method of the Thomson blade of the present invention, it is possible to extend the life of the Thomson blade and reduce the variation in the life.

It is a perspective view of the Thomson blade unit concerning the embodiment of the present invention. It is principal part sectional drawing of the Thomson blade unit shown in FIG. It is principal part sectional drawing of the Thomson blade unit which concerns on the modification of this invention. It is a side view of the Thomson blade unit attached to the Thomson cutting device, (a) shows a state where the mounting base is raised, (b) shows a state where the mounting base is lowered. It is principal part sectional drawing of the Thomson blade unit attached to the Thomson cutting apparatus, (a) shows the state before height adjustment of a Thomson blade, (b) shows the state after height adjustment of a Thomson blade. .

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Thomson blade unit)
First, a Thomson blade unit 100 according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. The Thomson blade unit 100 is used by being attached to a Thomson cutting device (not shown) that punches a sheet-like material into a predetermined shape.
The Thomson blade unit 100 has a base plate 1 having a main surface 11 and an outer peripheral surface 23 (see FIG. 2) along a predetermined shape, and the outer peripheral surface 23 is perpendicular to the main surface 11 of the base plate 1. As described above, the mold block 2 attached to the main surface 11 has a belt-like shape having a blade edge 31 and a blade base edge 32 so that the blade base edge 32 is located on the main surface 11 side of the base plate 1. And a Thomson blade 3 attached to the outer peripheral surface 23 of the mold block 2 and an attachment mechanism for attaching the Thomson blade 3 to the mold block 2 so that the height of the edge 31 of the Thomson blade 3 relative to the mold block 2 can be adjusted. ing.

The base plate 1 of the present embodiment has a flat main surface 11 and is formed of an SKD11 material having a thickness of 8 mm. The base plate 1 is not limited to a metal plate, and may be a veneer plate or a resin plate, for example.
In the present embodiment, the main surface 11 of the base plate 1 is a flat surface, but the main surface 11 is not limited to a flat surface. For example, the main surface 11 may be provided with an uneven portion for positioning the mold block 2.

  The mold block 2 includes a first main surface 21 facing the main surface 11 of the base plate 1, a second main surface 22 opposite to the first main surface 21, a first main surface 21, and a second main surface 22. And an outer peripheral surface 23 therebetween. The mold block 2 is also formed with an opening 2 a penetrating from the first main surface 21 to the second main surface 22, and the opening 2 a constitutes an inner peripheral surface 24.

  The mold block 2 of the present embodiment is formed of an aluminum material having a thickness of 18 mm. The first main surface 21 and the second main surface 22 of the mold block 2 are parallel to each other, and the outer peripheral surface 23 and the inner peripheral surface 24 are formed perpendicular to the first main surface 21. Therefore, the outer peripheral surface 23 and the inner peripheral surface 24 of the mold block 2 type block 2 attached to the main surface 11 of the base plate 1 are perpendicular to the main surface 11 of the base plate 1.

The planar shape of the mold block 2 corresponds to a predetermined shape for punching a sheet-like material.
As shown in FIG. 1, the mold block 2 of the present embodiment has a rounded rectangle with one corner portion cut out in plan view. Note that the planar shape of the mold block 2 is not limited to the shape shown in FIG. 1, and may have a peripheral surface along only a part of a predetermined shape for punching a sheet-like material. For example, when a sheet-like material is punched into a rounded rectangle, the peripheral surface of the corner of the mold block may be a recess, and the mold block and the Thomson blade may be spaced apart at the corner. Moreover, the type | mold block 2 may be comprised by a single block, and may be comprised combining two or more blocks.

The Thomson blade 3 is formed of a strip-shaped steel plate having a width between the blade edge 31 and the blade base edge 32 of 23.6 mm. The blade edge 31 is provided with double-edged blades and is substantially 0.7 mm thick. Have a uniform thickness. The Thomson blade 3 is attached to the outer peripheral surface 23 of the mold block 2 with a blade edge 31 protruding from the second main surface 22 of the mold block 2 by a predetermined amount (for example, 5.6 mm). Arranged perpendicular to the surface 11.
In the present embodiment, the Thomson blade 3 has at least a part of the blade base edge 32 of the Thomson blade 3 separated from the main surface 11 of the base plate 1 so that the height of the Thomson blade 3 can be adjusted by an attachment mechanism described later. Thus, it is attached to the outer peripheral surface 23 of the mold block 2.

The peripheral surface to which the Thomson blade 3 is attached is not limited to the outer peripheral surface. For example, the Thomson blade 3 may be attached to the vertical inner peripheral surface 24 of the mold block 2. Further, the blade edge 31 of the Thomson blade 3 may be a double blade or a single blade.
The punching of the sheet-like material includes not only the case where the punching area is completely cut and separated from the sheet-like material, but also includes a state where the punching area and the sheet-like material are partially connected. Therefore, the Thomson cut blade 3 is not limited to the one in which the blade edge 31 forms a closed loop, and includes one in which a part of the closed loop is interrupted.

As shown in FIG. 2, the attachment mechanism is perforated by the Thomson blade 3, a long hole 30 that is long in the width direction of the belt-like shape of the Thomson blade 3, a pressing member 4 that presses the Thomson blade 3 from the outside, A fixing tool (for example, a screw) 5 that passes through the long hole 30 of the Thomson blade 3 and fixes the Thomson blade to the mold block is formed.
The position of the screw hole formed in the outer peripheral surface 23 of the mold block 2 and the screw 5 screwed with the screw hole does not move, but the Thomson blade 3 extends in the extending direction of the long hole 30, that is, the height of the Thomson blade. It is movable in the direction relative to the mold block 2 within the range of the long hole 30. For this reason, the height of the blade edge 31 of the Thomson blade 3 relative to the main surface 11 of the base plate 1 can be adjusted by loosening the screw 5. Further, the Thomson blade 3 can be fixed to the mold block 2 by tightening the screw 5.

(Modification)
The attachment mechanism is not limited to the configuration shown in FIG. FIG. 3 shows a modification of the Thomson blade unit of the present invention.
As shown in FIG. 3, the modified Thomson blade unit mounting mechanism has an inclined surface 61 and is fixed to the base plate 1 with the inclined surface 61 facing the outer peripheral surface 23 of the mold block 2. 6, a wedge-shaped member 7 that slides along the inclined surface 61 of the fixing member 6 and clamps the Thomson blade 3 in cooperation with the outer peripheral surface 23 of the mold block 2, and the wedge-shaped member 7 is fixed to the base plate 1. The fixing tool (for example, screw) 8 is comprised.

  Also in the modification, the blade base edge 32 of the Thomson blade 3 is separated at least partially from the main surface 11 of the base plate 1. For this reason, in the modification, by loosening the screw 8, the wedge member 7 can be moved upward, and the height of the edge 31 of the Thomson blade 3 can be adjusted. Further, by tightening the screw 8, the wedge member 7 can be moved downward and the Thomson blade 3 can be fixed in cooperation with the mold block 2.

Next, with reference to FIG.4 and FIG.5, the adjustment method of the height of the blade edge 31 of the Thomson blade 3 of the Thomson blade unit 100 of embodiment is demonstrated.
First, the Thomson blade unit 100 in which the Thomson blade 3 is temporarily fixed to the outer peripheral surface 23 of the die block 2 is attached to the mounting base 200 of the Thomson cutting device as shown in FIG.

Next, as shown in FIG. 4B, the Thomson blade 3 of the Thomson blade unit 100 attached to the mount 200 of the Thomson cutting device is pressed against the flat surface 211 of the table 210 parallel to the main surface 201 of the mount 200. . Since the base plate 1 has a uniform thickness, the main surface 11 of the base plate 1 attached to the mounting base 200 is also parallel to the flat surface 211 of the table 210.
In the example shown in FIG. 5A, in a state where a portion 3a of the Thomson blade 3 is in contact with the flat surface 211 of the table 210, the other portion 3b of the Thomson blade 3 is separated from the flat surface 211 of the table 210, and the gap 3b Has occurred.

  Therefore, the Thomson blade 3 is pressed against the flat surface 211 of the table 210, and the Thomson blade 31 is entirely in contact with the flat surface 211 of the table 210 as shown in FIG. A portion 3a of the blade 3 is shifted with respect to the mold block 2 in the direction of the blade base.

Next, the Thomson blade 3 is fixed to the mold block 2 in a state where the entire blade edge 31 of the Thomson blade 3 is in contact with the flat surface 211 of the table 210. Thereby, the height of the blade edge 31 of the Thomson blade 3 with respect to the main surface 11 of the base plate 1 can be made uniform. Further, since the Thomson blade 3 is attached to the outer peripheral surface 23 perpendicular to the main surface 11 of the base plate 1, the Thomson blade 3 is kept vertical.
Thereby, while extending the lifetime of the Thomson blade 3, the variation in lifetime can be reduced.

  As mentioned above, although embodiment of this invention was described, this invention can perform a various change and deformation | transformation.

  The present invention can be applied to various Thomson cut devices, and is suitable for application to, for example, a bag making machine equipped with a Thomson cut device.

DESCRIPTION OF SYMBOLS 1 Base plate 2 Type | mold block 2a Opening 3, 3a, 3b Thomson blade 4 Pressing member 5 Fixing tool 6 Fixing member 7 Wedge member 8 Fixing tool 11 Main surface 21 First main surface 22 Second main surface 23 Outer peripheral surface 24 Inner peripheral surface 30 Long hole 31 Cutting edge 32 Cutting edge 100 Thomson blade unit 200 Mounting base 201 Main surface 210 Table 211 Flat surface S Gap

Claims (6)

A Thomson blade unit attached to a Thomson cutting device that punches a sheet-like material into a predetermined shape,
A base plate having a main surface;
A mold block attached to the main surface of the base plate so as to have a peripheral surface along at least a portion of the predetermined shape, the peripheral surface being perpendicular to the main surface of the base plate;
A Thomson blade attached to the peripheral surface of the mold block so as to have a strip shape having a blade edge and a blade base edge, and the blade base edge is located on the main surface side of the base plate;
A Thomson blade unit comprising an attachment mechanism for attaching the Thomson blade to the mold block so that the height of the edge of the Thomson blade relative to the mold block can be adjusted. The Thomson blade unit according to claim 1, wherein the peripheral surface of the mold block is an outer peripheral surface of the mold block. The Thomson blade is attached to the peripheral surface of the mold block so that at least a part of the blade base edge of the Thomson blade is separated from the main surface of the base plate. Item 3. The Thomson blade unit according to item 1 or 2. The attachment mechanism is
Perforated in the Thomson blade, a long hole long in the width direction of the strip shape of the Thomson blade,
The Thomson according to any one of claims 1 to 3, wherein the Thomson blade is configured by a fixture that passes through the long hole of the Thomson blade and fixes the Thomson blade to the mold block. Blade unit. The attachment mechanism is
A fixing member having an inclined surface, the inclined surface facing the peripheral surface of the mold block, and fixed to the base plate;
A wedge-shaped member that slides along the inclined surface of the fixing member and clamps the Thomson blade in cooperation with the peripheral surface of the mold block;
The Thomson blade unit according to any one of claims 1 to 3, wherein the Thomson blade unit comprises a fixture that fixes the wedge-shaped member to the base plate. A method for adjusting the height of the edge of the Thomson blade of the Thomson blade unit according to any one of claims 1 to 5,
Attaching the temporarily fixed Thomson blade unit, which is temporarily fixed to the peripheral surface of the mold block, to the Thomson cutting device;
The temporarily fixed Thomson blade unit attached to the Thomson cutting device is pressed against the flat surface of the table facing the temporarily fixed Thomson blade unit, so that the entire cutting edge of the Thomson blade is in contact with the flat surface. Shifting the Thomson blade in the direction of the blade base with respect to the mold block;
Fixing the Thomson blade to the mold block in a state where the entire edge of the Thomson blade is in contact with the flat surface;
A method for adjusting the height of a Thomson blade, comprising:

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