JPH0420451A - Processing system for a band-shaped material - Google Patents

Abstract

PURPOSE:To carry out an intermittent processing of parts accurately at all times by arranging a buffer having a guide roller retained resiliently at the center of each curving point of a curving pulling-out path, between a reel and a carrier, thereby preventing deviation in transfer pitches. CONSTITUTION:A belt-shaped material 2 is carried in the direction shown by an arrow (a) by one pitch P by a carrier of a working machine 7, the length of the material 2 on a curving pulling out passages A-B-C-D is shortened by one pitch P. Since a reel 1 has a large inertia moment, it is not rotated spontaneously, and a pair of guider rollers 18a, 18b having a small inertia moment are rotated integratedly with a swing arm 16 in the direction as shown by an arrow (d) against a spring 20. At this time, the rollers 18a, 18b is displaced in the direction as shown by the arrow (d) by about 1/2 of the pitch P to move to the points B2, C2 shown by the solid lines from the centers B1, C1 of the curving points B, C shown by dotted lines, thereby delivering the material on the path A-B-C-D to the carrier 3 by one pitch P.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a belt-shaped material processing system for processing a belt-shaped material, etc. by intermittently drawing out the belt-shaped material from a reel.

[Summary of the invention]

The present invention includes a reel around which a strip material is wound, and a transfer device that intermittently draws out and transfers the strip material from the reel;
and a processing device that intermittently processes the transported strip material, the strip material being elastically held between the reel and the transfer device along a curved drawing path. By arranging a shock absorber '1~.

5 so that slack in the strip material can be easily created between the reel and the transfer device.

[Prior art] Fig. 6 shows a conventional processing system for a belt-shaped material 2, in which a belt-shaped material 2 of synthetic resin or metal wound around a reel 1 is intermittently pulled out from the reel 1 to process a one-piece or the like. It is something that

This processing system involves intermittently pulling out the strip-shaped material 2 from the reel 1 and moving it in the direction of arrow a one step P (for example, about 6 m).
m), and the intermittently transferred strip material 2 is intermittently punched out using a fixed die 4 and a movable die 5 to form small parts such as washers. A W machine tool 7 having a processing device 6 is used. The small parts that have been subjected to intermittent 1'D processing by the processing device 6 are automatically taken out by the small robot 8.

This type of 270 Nidis stem has a large moment of inertia (・When the strip material 2 is pulled out from the reel 1 by the transfer device 6, the impact load generated at that time is added to the transfer device ffi 3 vc). As a result, a shift occurs in the transfer pitch of the strip material 2, and the pitch of punching of small parts by the processing device 7 is likely to be out of order.

Therefore, conventionally, an auto-reel device has been used.

This auto-reel device is designed to constantly create slack in the strip material 2 between the reel 1 and the transfer device 3 in order to prevent an impact load from being applied to the transfer device 3 due to the moment of inertia of the reel 1. .

By the intermittent transfer of the strip material 2 in the direction of the arrow a by the transfer device 6, the strip material 2 is transferred as shown by the dashed line.
When the slack in the reel decreases and the sensor 9a detects it, the control circuit 10 activates the reel drive motor 11 to rotate the reel 1 in the direction τ and move the strip material 2 from the reel 1 into the sun. Automatically feeds the knife in direction a. and,
As shown by the solid line, when the slack of the strip material 2 becomes large and the sensor 9b detects this, the control circuit 10 stops the reel drive motor 11.

[Problems to be Solved by the Invention] However, the conventional auto-reel device has problems in that it is large-scale, requires large-scale installation, and is extremely expensive.

The object of the present invention is to provide a material strip having the length necessary for one transfer by a transfer device, which can be stored at all times between a reel and a transfer device using a very simple mechanism. There is.

[Means to solve the problem]

In order to achieve the above object, the belt-shaped material processing system of the present invention forms a curved pull-out path for the belt-shaped material, and includes a guide roller that is elastically held at the center of the curved point of the curved pull-out path. This is placed between the shock absorber keel and the transfer device.

[Function] When the transfer device transfers one pitch of the strip material to the side transition stem of the strip material configured as described above, the instantaneous VC is not rotated because the reel has a large moment of inertia, and the guide roller is rotated. Displaced from the center of the bending point against elasticity, the strip material on the curved drawing path is drawn out by the above-mentioned one pinch. After that, the guide roller cuts back to the center of the curved point by the elastic repulsion force, and the reel is rotated by the tightening force of the guide roller, and the strip material for one pinch is pulled out from the reel along the curved drawing path. pulled upwards. Therefore, the buffer device can always store the length of the strip material required for one transfer (one pitch) of the transfer device between the reel and the transfer device.

〔Example〕

Hereinafter, an embodiment of a belt-shaped material diaphragm to which the present invention is applied will be described with reference to FIGS. 1A to 2. Incidentally, the same structural parts as those of the conventional example shown in FIG. 6 are designated by the reference numeral ``Low'', and the explanation thereof will be omitted.

First, as shown in FIGS. 1A and 1B, the reel 1 is mounted on a buffer device 13 arranged between the reel 1 and the transfer device 6 of the processing machine 7, so that the reel 1 can be rotated freely by the reel shaft 14. The swinger 7-16 is attached to the attached reel stand 15 on the fulcrum shaft 1.
71/l: Therefore, freely swingable in the directions of arrows d and e 1/i: Mounted, a pair of guide rollers 18a = 18by < roller shafts 19a, 19b VC, swing arm 16 is attached. It is constructed so that it is rotated and biased in the solar e direction by a spring 20, which is a biasing means, and brought into contact with a stopper 21 for positioning.

Then, the strip material 2 is passed between the reel 1 and the transfer device 6 in a zigzag manner between the pair of guide rollers 18a and 18bK, and the strip material 2 is drawn out along a curved path A-B-C-D.
-4 form. The pair of guide rollers 18a are rotated by the rotation biasing force of the swing arm 16 in the direction of the arrow e by the spring 19.

18b is elastically held at the centers B1 and C1 of a pair of curved points B and C shown in FIG. 1B of the curved drawing path A-H-C-D.

According to the shock absorber 16 configured as described above.

As shown in FIG. 1A, when the strip material 2 is intermittently transferred by one pitch P in the direction of the arrow EfJa by the transfer device 6VC of the processing machine 7, the strip material 2 on the curved drawing path A-B-C-D is The length of 2 is shortened by the above-mentioned 1 pitch P. At this time, the reel 1 has a large moment of inertia (), so it is not rotated instantaneously, and the pair of guide rollers 18a and 18b, which have a small moment of inertia, move together with the swing arm 16 against the spring 20 in the direction of arrow d. At this time, the pair of guide rollers 18a, 18b move from the centers B, C, of curved points B, C, indicated by dashed lines in FIG. By displacing about 1/2 of P (for example, about 3 mmJ) in the direction of arrow d, the strip material 2 on the curved pull-out path A-B-C-D is fed out to the transfer device 6 side by one pitch P.

At this time, the load resistance of the buffer device 13 against the transfer device 3 is the rotational moment of the pair of guide rollers 18a, 18b + friction loss + moment of inertia ll1 of the strip-shaped material 2
It is easy to design the clamping force to about 1710 for transferring the strip material 2 by the load resistance and the transfer device 3.
No deviation in the transfer pitch occurs at all.

Therefore, the length of 1 pitch P of the strip material 2 stored in advance on the curved draw-out path A-B-C-D is
It can be smoothly fed out to the side, and no impact load is applied to the transfer device 6 from the girdle 1, which has a large moment of inertia.

- As shown in FIG. 1B, immediately after the intermittent transfer of one pitch P of the strip material 2 by the transfer device 6 to the processing machine 7, the fixed mold 4 and the movable mold of the processing device 6 are 5, the strip material 2 is intermittently punched to form small parts such as washers.

Then, the band-shaped material 2 is formed by the fixed mold 4 and the movable mold 5.
is clamped from above and below (), as shown in FIG. 1B, the pair of guide rollers 18a and 18b are slowly rotated together with the swing arm 16 in the direction of the arrow e by the elastic repulsive force of the spring 20, causing the swing τ. The arm 16 is brought into contact with the stopper 21Vc.At this time, the pair of guide rollers 18a and 18b move to the movable point B2 shown by the one-dot chain line in FIG. 1B.
, C2, the reel 1 slowly returns to the center B, .

As a result, the curved withdrawal path A-B-C-
The strip-shaped material 2 is pulled out and stored in soil D by a length corresponding to one pitch P, in preparation for the next intermittent transfer of the strip-shaped material 2.

Like the crucible, the buffer device 13 can constantly store the required length of the strip material 2 between the reel 1 and the transfer device 6 for one transfer (one pitch P) of the transfer device 6. .

Next, FIG. 2 shows a modification of the shock absorber 13, in which the swing arm 16 is omitted.

A pair of roller shafts 19a, 19b'7 are directly rotatably attached to the reel stand 15, and a pair of hollow guide rollers 18a, 18b are mounted on the outer periphery of the pair of roller shafts 19a, 19b, respectively. Spring 23a-23
These guide rollers 18a are suspended by bVC.
, 18bk curved point B, C center Hr, (,: , c/
It is designed to be held elastically by c springs 23a and 23bK.

In this case, as described above, when the strip material 2 is transferred by one pinch P in the direction of the arrow a by the transfer device 3, the pair of guide rollers 18a and 18b move to the jM curve point Jul, C shown by the solid line. It is displaced against the springs 23a and 23b from the centers B1 and C1 to the movable point shown by the one-dot chain line τ, and the strip material 2 on the curved pull-out path A-B-C-D is pulled into the above-mentioned one pinch P.
3 to the transfer device 3 side. Thereafter, the pair of guide rollers 18a, 18b slowly return to the centers B, C1 of the curved points B, C by the springs 23a, 23bVC, and the strip material is transferred from the reel 2 onto the curved drawing path A-B-C-D. 2
is pulled out by the length corresponding to the above-mentioned 1 pinch P.

Although the embodiments of the present invention have been described above, the seven technical ideas of the present invention are not limited to the above-mentioned embodiments.
Based on this, various valid modifications are possible.

〔Effect of the invention〕

Since the present invention is configured as described above.

This produces the following effects.

By the buffer device placed between the reel and the transfer device,
Since the length of the strip material required for one transfer by the transfer device can be stored at all times on the curved pull-out path between the reel and the transfer device, the strip material can be intermittently pulled out from the reel by the transfer device. This prevents the occurrence of deviations in the transfer pitch of the strip material due to shock loads from reels with a large moment of inertia being applied to the transfer device during transfer, and allows intermittent processing of parts by the processing device. Can be performed accurately at all times.

Compared to conventional auto-reel devices, this device simply forms a curved pull-out path for the strip of material between the reel and the transfer device, and elastically holds a guide roller at the center of the curved point. Since the mechanism is extremely simple, it can be manufactured at low cost.

It is possible to reduce the number of bases.

[Brief explanation of drawings]

An embodiment of the present invention is shown in FIGS. 1A to 2, in which FIG. 1A is a diagram illustrating the feeding operation of the strip material from the curved drawing path to the transfer device side, and FIG. 1B is a drawing showing the reel. The second drawing is a drawing illustrating a drawing operation of a strip-shaped material from the first embodiment onto a curved drawing path, and the second drawing is a drawing showing a modified example. FIG. 6 is a drawing showing a conventional example. In addition, in the symbol g used in the drawings, 1...
......Reel 2...Band material 6...Transfer device 6...Processing device 16... ...Buffer devices 18a, 18b...Guide roller 20...Spring (biasing means) 23a,
23 b ・-bat; l (energizing + stage) A-H-C-D
・Mountain curve comparison path B,,C,...This is the center of the curved point. Agent Tsuchiya Katsu Diamond Example Diagram 2

Claims (1)

[Claims] The present invention includes a reel around which a strip material is wound, a transfer device that intermittently pulls out and transfers the strip material from the reel, and a processing device that intermittently processes the transferred strip material. A processing system for a strip-like material, which forms a curved pull-out path for the strip-shaped material, and a buffer device equipped with a guide roller that is elastically held at the center of the curved point of the curved pull-out path is connected to the reel and the transfer device. A belt-shaped material processing system characterized by being placed between.