WO2011058797A1 - Device for forming thomson blade by punching - Google Patents

Abstract

A device for forming a Thomson blade by punching, wherein a die section (38) which comprises several kinds of male dies (1) and female dies (2) is affixed to a base (18), cutouts (11) are formed in the male dies (1), and a lever section for a press section (37), said lever section comprising a lever (6), a pusher (20), and a lever movement base (21), is inserted sideways into the cutouts (11), and the movement of the lever (6) is transmitted to the male dies (1) to form perforating grooves, scribing grooves, or nicking grooves in the Thomson blade. The die section (38) is removably affixed. The dies and the machine structure can be easily mounted and removed by moving the press section (37), use a reduced number of parts, and can be installed in a reduced space. The size of debris created in punching operation is basically small, and the debris is removed by air pressure from an air blow hole (7).

Description

Thomson blade punching device

The present invention relates to a punching device for a Thomson blade.

Conventionally, blade materials used for Thomson die are Thomson blades (purely straight blades), ruled lines (used to make creases in paper, slightly lower than the blades), sewing blades (Thomson blades) There are two types of blades: the tip is punched at a constant pitch and the cutting edge appears in a dotted line. There is also a nick processing at the tip of the blade (making a connecting part of the material to be punched that will not be temporarily cut slightly when the punching die is punched, and then cutting in the later process). There are various kinds of ruled line depth 28, ruled line width 29, sewing machine blade depth 31, sewing machine blade gap width 31 sewing blade, lead ruled, and nick processing, which are necessary for die manufacturing manufacturers Sometimes it is necessary to process only the required amount.

JP-A-6-32813 JP 2001-314932 A JP 2003-326331 A

When necessary, the machine blades and leads with a wide variety of ruled line depths 28, ruled line widths 29, sewing machine blade depths 31 and sewing machine blade gap widths 31 can be instantly manufactured by the Thomson die manufacturing manufacturer. Easy to attach and detach so that it can be processed according to ruled lines and nicks, simple, space-saving, mechanical structure, mold structure, connected to existing automatic bending machine, cutting machine and combined machine, sewing blade, We provide a Thomson blade punching device that can process Thomson blades in various combinations of lead rules and nicks.

A mold comprising a mold part 38 composed of one or several types of detachable male molds 1 and female molds 2, a lever 6, a pusher 20, a lever moving base 21, and a lever pin column 22. Fixed to the punching device, the entire press part 37 of the die punching device is moved to the left and right with respect to the base plate 18 and the die part 38, and the lever 6 is moved to the male notch 11 having the shape to be punched. In this state, the pusher 20 is put in and out, the pusher fitting 15 is moved, and the force is changed to the reciprocating arc motion of the lever 6 with the lever pin 23 as a fulcrum, and the male die is cut through the male notch 11. 1, the Thomson blade 8 is punched out and the male die 1 is returned. Similarly, the press portion 37 is moved to the male cutout portion 11 of a different shape to be punched out next, and the next punching is performed.

The male mold 1 of the mold section 38 includes a sliding surface 36 and a cutting blade section 35. The male cutout section 11 having a power transmission function of the reciprocating motion of the male mold 1 is used for positioning when the male mold is returned. The clearance between the female die 2 of the sliding surface 36 and the guide block 3 is provided with respect to the female die 2 of the cutting blade portion 35 so that the compression spring 4 and the spring guide hole 13 are provided and the cutting blade portion 35 does not contact the female die 2. The female mold 2 and the guide block 3 are paired to form a guide for the sliding surface 36 of the male mold 1, and the male mold 1 is punched and reciprocated, and then the lever 6 is moved by the compression spring 4 The lever 6 is always pushed against the backward positioning plate 10 so that the male cutout 11 is slightly retracted by the passing gap and the male cutout portion 11 is in the middle of the retreat position of the lever 6. It moves between the male cutouts 11 of different shapes, and the female die 2 is removed when punching. Air to remove debris 12 - blow - the provided holes 7, the back plate 5, the female mold 2, the male mold 1, the guide block 3, positioning plates 10, detachable mold portion 38 of the compression spring 4 at the same time, can be stored.

The press part 37 moves to the left and right with respect to the base plate 18 and the mold part 38 and passes between the male notch parts 11 having a width slightly wider than the lever 6. Therefore, the mold can be easily exchanged by moving it away from the mold portion 38 when exchanging the mold.

In this way, a punching device using the die 38 with the male notch 11 that can be exchanged by one touch, the movable press 37 and its lever 6 can be used for a die set of a general press die and a die press machine. Simpler and more compact than the combination, it becomes a Thomson blade punching device.

When necessary, the machine blades with a wide variety of ruled line depths 28, ruled line widths 29, sewing machine blade depths 31 and sewing machine blade gap widths 31 can be immediately manufactured by the Thomson die manufacturing manufacturer. It becomes possible to do ruled lines and nick processing. In addition, by NC driving, various combinations of sewing blades, lead rules, and nicks can be processed into Thomson blades.

Overall configuration of mold part and press part of the present invention Configuration diagram of mold part of the present invention Processing target diagram of the present invention

FIG. 3 is a machining target diagram. As shown in FIG. 3, a wide variety of ruled line depths 28, ruled line widths 29, sewing machine blade depths 31, sewing machine blade gap widths 31, sewing blades, lead rules, and nicking can be performed.
FIG. 1 shows the overall configuration of a Thomson blade punching device comprising a die portion 38 and a press portion 37 according to the present invention.
(a) shows when the lever 6 is at the position of the male cutout 11 of the first male mold 1.
(b) shows when the lever 6 is away from the mold part 38 and is in a position where the mold part 38 can be attached and detached.
The overall configuration includes a press part 37 and a mold part 38. The mold portion 38 is fixed to the base plate 18, and the press portion 37 of the die punching device includes a lever moving base 21, a pusher 20, a pusher bracket 15, a lever 6, a lever pin column 22, The lever pin 23 is movable to the left and right as a whole with respect to the base plate 18 and the mold part 38.

A lever moving base 21 is attached to the base plate 18 so as to slide to the left and right with respect to the base plate 18. A pusher 20 and a lever pin column 22 are fixed to the lever moving base 21. The pusher fitting 15 is moved in and out by the pusher 20, and the lever 6 reciprocates in a circular arc with the lever pin 23 attached to the lever pin column 22 as a fulcrum. The movement of the lever 6 is transmitted to the male mold 1 through the male notch 11, and the Thomson blade 8 is punched out. Similarly, the lever 6 is moved to the male cutout portion 11 of the next shape to perform punching.

FIG. 2 shows a detailed view of the mold part 38 of the present invention.
(A) shows the whole figure of the metal mold | die part 38 which can be attached or detached integrally.
(B) shows the female mold 2.
(C) shows male mold 1.
(D) shows a cross-sectional view of the entire mold part 38 and the lever 6.
(E) shows when the mold part 38 is cut by a Thomson blade.
(F) shows a cross-sectional view of the male mold 1.

The male mold 1 is composed of a sliding surface 36 and a cutting blade section 35. The male cutout section 11 has a power transmission function of reciprocating movement of the male mold 1. A compression spring 4 and a spring for positioning when the male mold returns. A guide hole 13 is provided. When the compression spring 4 enters the spring guide hole 13, the attachment length can be shortened. Further, the gap between the sliding face 36 and the female mold 2 and the guide block 3 is narrower than the gap between the cutting edge 35 and the female mold 2 so that the cutting edge 35 does not contact the female mold 2. The guide block 3 is prevented from jumping up when the Thomson blade 8 is punched, and the guide block 3 and the female die 2 are combined to ensure a long length corresponding to the sliding surface 36 at the time of punching. We reduce twist.

The male mold 1 is moved by the reciprocating arc motion of the lever 6 during both pressing and returning. The male mold 1 is always pressed against the retraction positioning plate 10 by the compression spring 4 after the punching reciprocating operation, and the male cutout 11 can be brought to the middle of the retreat position of the lever 6 at the time of retreat standby. The lever 6 can go back and forth smoothly between the male notches 11. The back plate 5, the female mold 2, the male mold 1, the guide block 3, the positioning plate 10, and the mold portion 38 of the compression spring 4 have an integral structure and can be detached and stored at the same time.

When the mold part 38 is attached to the base plate 18 through the through hole 26 by the fixing bolt 24 to the base plate, and the lever 6 is moved to a position sufficiently separated from the mold part 38 as shown in FIG. The mold part 38 can be easily attached and detached.

A large number of mold portions 38 are prepared, and each is attached to and detached from the base 18 and attached to an existing automatic bending machine or cutting machine. A wide variety of crease depth 28, crease width 29, sewing machine blade depth 31, sewing machine blade Thomson cutting edge processing of the gap width 31 and the nick portion 34 can be performed. The mold 38 has an integral structure, and there is no need to adjust the mold even if it is detached. Further, when punching, the trouble-removing residue 12 is basically small and is eliminated by the air pressure from the air-blow hole 7 provided in the female die 2. Since the apparatus often processes only a small part of the blade tip of the Thomson blade, a general press die is formed by moving the press portion 37 and fixing the die portion 38 side to form a punching structure with the lever 6. It is simpler and more compact than the combination of a die set and a die press machine.

1 Male 2 Female 3 Guide block 4 Compression spring 5 Back plate 6 Lever
7 Air-Blow Hole 8 Thomson Blade 9 Male Cutting Blade 10 Retracting Positioning Plate 11 Male Mold Notch 12 Pullout 13 Spring Guide Hole 14 Air-Blow Pipe Fitting 15 Pusher Fitting 16 Air-Blow Pipe 17 Air blow exhaust pipe 18 Base plate 19 Thomson blade feeder 20 Pusher
21 Lever moving base 22 Lever pin support
23 Lever pin 24 Fixing bolt to base plate 25 Fixing bolt to female die 26 Through hole 27 Fixing screw 28 Ruled line depth 29 Ruled line width 30 Lead ruled part 31 Sewing machine blade depth
32 Sewing clearance width 33 Sewing machine blade 34 Nick
35 Cutting edge part 36 Sliding surface 37 Press part 38 Mold part 39 Macla part

Claims (3)

1. It is composed of one or several types of detachable male molds 1 and female molds 2. The male mold 1 has a sliding surface 36 that slides within the female mold 2 and the guide block 3, and the cutting edge 35 is replaced with the female mold 2. A Thomson blade punching device comprising a die portion 38 for guiding, a press portion 37 of a die punching device comprising a lever 6, a pusher 20, a lever moving base 21, and a lever pin column 22, wherein the die portion 38 is connected to the base plate 18. The press part 37 of the die punching device is moved to the left and right with respect to the base plate 18 and the die part 38, and the lever 6 is punched into the male die 1 through the male notch 11 having the shape to be punched. The Thomson blade punching device is characterized in that the Thomson blade 8 is punched, the male die 1 is returned, and similarly, the next punching is performed by moving the press portion 37 to the male cutout portion 11 of a different shape to be punched next. .
2. The male mold 1 of the mold section 38 includes a sliding surface 36 and a cutting blade section 35. The male cutout section 11 has a power transmission function for reciprocating movement of the male mold 1, and is used for positioning when the male mold is returned. Are provided with a compression spring 4 and a spring guide hole 13 so that the gap between the sliding face 36 and the female block 2 with respect to the guide block 3 is such that the cutting edge 35 does not come into contact with the female die 2. The female mold 2 and the guide block 3 are paired to form a guide for the sliding surface 36 of the male mold 1, and the male mold 1 is punched and reciprocated, and then the lever 6 is compressed by the compression spring 4. The male notch 11 is always pushed against the retraction positioning plate 10 so that the male notch 11 is in the middle of the retracted position of the lever 6, and the gap is smaller than the male notch 11. Moves between the male cutouts 11 of different shapes, and the female mold 2 is punched Air blow hole 7 is provided to remove punching residue 12, and back plate 5, female mold 2, male mold 1, guide block 3, positioning plate 10, and mold part 38 of compression spring 4 can be detached and stored simultaneously. The Thomson blade punching device according to claim 1, wherein:
3. The press part 37 moves to the left and right with respect to the base plate 18 and the mold part 38 and passes between the male notch parts 11 having a slightly wider width than the lever 6. 3. The Thomson blade punching device according to claim 1, wherein punching of different types of side-by-side shapes can be performed, and the die is moved away from the mold portion 38 when the die is exchanged to facilitate die exchange.

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