KR101828860B1 - Apparatus for suction applicable to punching device - Google Patents

Abstract

Disclosed is a suction apparatus for effectively discharging sludge generated during a punching operation in a punching machine having a plurality of needle bars. A suction apparatus applied to the punching machine having the plurality of needle bars alternately operated and a plurality of punchers connected to each of the plurality of needle bars, wherein a through hole for discharging the sludge is formed in each of the plurality of punchers, comprises: a suction block which communicates with each of the plurality of punchers and moves according to a left and right movement of the needle bar, and has a sliding contact surface; a sucking pipe in contact with the sliding contact surface of the suction block and having a fixed position; and a collecting net communicating with the sucking pipe. Moreover, a needle bar for performing the punching operation among the plurality of needle bars selectively communicates with the sucking pipe.

Description

Technical Field [0001] The present invention relates to a suction device applied to a punching machine,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a punching machine, and more particularly, to a punching machine having a plurality of needle bars for effectively discharging sludge generated during a punching operation.

Conventionally, a punching operation using a punching machine has been performed.

Such a punching machine is to insert a puncher in place of a needle in a needle bar to punch a workpiece.

Fig. 1 shows the structure of a conventional punching machine.

1, the punching machine 100 includes a plurality of needle bars 22 (22-1 to 21-n), and a plurality of needle bars 22 (22-1 to 21-n) ; 26-1 to 26-n, n is the number of needle bars). The puncher 26 has a cylindrical shape with a bottom formed in a conical shape, and a through hole (not shown) for discharging a slurry therein is formed therein.

Each of the needle bars 22-1 to 22-n constituting the plurality of needle bars 22 operates alternately.

As the needle bar 22 is lifted and lowered, the puncher 26 also ascends and descends. When the needle bar 22 is lowered, the puncher 26 penetrates the workpiece placed on the bed 30, and thus the workpiece is punctured.

The sludge generated at this time flows into the puncher 26.

Tubes 12 (12-1 to 12-n) connected to the dust collector 10 are coupled to the upper portions of the punchers 26-1 to 26-n, respectively.

The other side of the tube 12 is connected to an air distributor 14. [

The sludge introduced into the puncher 26 is taken out to the dust collector 10 through the air distributor 14 and the spring hose 16 along the tube 12.

As is known, although not shown, there is a discharge valve between the spring hose 16 and the air distributor 14, and the sludge is discharged through the spring hose 16 by the pressure difference generated by the discharge valve.

However, in the conventional punching apparatus 100, when the needle bar 22 is moved up and down during the punching operation, the tube 12 is slung and the joint state between the puncher 28 and the tube 12 becomes unstable .

In addition, since compressed air for sucking the sludge is assigned to each of the tubes 12 (12-1 to 12-n) through the air distributor 14, not only the tubes connected thereto but also all the tubes 12, There is a disadvantage that it is inefficient because the sludge suction operation occurs.

[Patent Literature]

Open Patent Publication 2001-0055195 (July 04, 2001)

Open Patent Publication No. 1997-0010041 (Mar. 27, 1997)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a punching machine having a beautiful appearance by not using a tube applied to a conventional punching machine.

It is still another object of the present invention to provide a punching machine for selectively increasing the sludge suction operation only on a needle bar during a punching operation, thereby increasing the collection efficiency.

In order to accomplish the above object, a sucking device suitable for a punching machine according to the present invention comprises:

And a plurality of punchers connected to each of the plurality of needle bars, wherein each of the plurality of punchers has a through hole for discharging sludge therein, the sucker being suitable for a punching machine,

A suction block communicating with a through hole formed in each of the plurality of punchers and moving along the left and right movement of the needle bar, the suction block having a sliding contact surface;

A suction pipe having a fixed position in contact with the sliding surface of the suction block; And

A collecting net communicating with the suction pipe;

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And a needle bar for performing a punching operation among the plurality of needle bars selectively communicates with the suction pipe.

The suction pipe further includes a suction pad installed at an end of the suction pipe and slidable on a sliding surface of the suction block.

Here, the adsorption pad

When the sludge suction operation is not performed and the needle bar moves left and right, the suction block is maintained at a certain distance from the sliding surface of the suction block,

When the sludge is moved in accordance with a needle to suck the sludge, the suction block is firmly in close contact with the sliding surface.

The punching apparatus according to the present invention has an advantage in that the tube connected to each needle bar is eliminated as compared with the conventional punching apparatus, and the appearance of the tube is improved. In addition, the needle bar during the punching operation selectively performs sludge suction operation, .

Fig. 1 shows the structure of a conventional punching machine.
Figure 2 shows a configuration according to the invention.
Fig. 3 shows a state in which the adsorption pad and the sliding contact surface are engaged with each other.
Figure 4 shows an embodiment of a suction device according to the invention.
Fig. 5 shows the configuration of the discharge valve shown in Fig.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows a configuration according to the invention.

2, the punching machine 200 according to the present invention includes a plurality of needle bars 222-1 to 222-n, and a plurality of needle bars 222 (222-1 to 222-n) 226-1 to 226-n (n is the number of needle bars) is mounted on the puncher 226 (226-1 to 226-n, n is the number of needle bars). The puncher 226 has a cylindrical shape with a bottom formed in a conical shape and has a through hole for discharging sludge therein.

The respective needle bars 222-1 to 222-n constituting the plurality of needle bars 222 operate alternately.

The puncher 226 also ascends and descends as the needle bar 222 moves up and down. When the needle bar 222 is lowered, the puncher 226 penetrates the workpiece placed on the bed 230, and thus the workpiece is punctured.

The sludge generated at this time flows into the puncher 226.

A suction block 228 communicating with the punchers 226-1 through 226-n is provided at the upper portion of each of the punchers 226-1 through 226-n. A main hose connecting block 232 are installed.

A suction pipe 234 protrudes from one side of the main hose connecting block 232 and a spring hose 216 is connected to the other side of the main hose connecting block 232.

The spring hose 216 is in communication with the trapping net 210.

As is known, although not shown, there is a discharge valve between the spring hose 216 and the air distributor 214, and the sludge is discharged through the spring hose 216 due to the pressure difference generated by the discharge valve.

2, the punching machine 200 is provided with a plurality of needle bars 222 (222-1 to 222-n), and each of the plurality of needle bars 222 (222-1 to 222-n) Punchers 226 (226-1 to 226-n) are connected.

The operation of selecting one of the plurality of needle bars 222 (222-1 to 222-n) is performed by the plurality of needle bars 222 (222 - 222 - n) -1 to 222-n are moved to the left and right so that one needle bar is positioned at the working position.

A suction block 228 communicating with the punchers 226-1 through 226-n is provided at the upper portion of each of the punchers 226-1 through 226-n.

The suction block 228 is moved together with the left and right movement of the needle bar 222.

A suction sliding surface 228a is provided at one side of the suction block 228. Suction grooves communicating with the respective punchers 226-1 to 226-n are formed on the sliding sliding surface 228a.

A suction pipe 234 is provided adjacent to the sliding contact surface 228a of the suction block 228. [ When the suction pipe 234 is aligned with one of the suction grooves formed in the sliding contact surface 228a, the sludge suction operation is performed in the puncher communicated with the suction groove.

Since the suction block 228 moves left and right according to the needle bar selecting operation, the suction groove or puncher aligned with the suction pipe 234 is connected to the needle bar performing the punching operation.

The suction block 228 moves together with the movement of the needle bar 222 in the left and right directions and is fixed to the needle bar 222, thus replacing the tube in the conventional punching machine.

In addition, depending on the alignment state of the suction groove of the suction block 228 and the suction pipe 234, the sludge suction operation is performed only on the needle bar during the punching operation, so that the sludge suction operation is performed on all the needle bar as in the conventional punching machine The dust collecting efficiency becomes higher.

On the other hand, a suction pad 234a is provided at the end of the suction pipe 234 so that the sliding contact surface 228a of the suction block 228 and the suction pipe 234 are securely coupled. The suction pad 234a firmly adheres to the sliding contact surface 228a of the suction block 228.

Fig. 3 shows a state in which the adsorption pad and the sliding contact surface are engaged with each other.

3, when the sludge suction operation is not performed and the needle bar moves left and right, the suction pad 234a is kept at a certain distance from the sliding contact surface 228a to smoothly move left and right.

In contrast, when the sludge is moved by a needle to suction the sludge during operation of the compressor, the suction block 228 is tightly adhered to the sliding surface 228a.

This is because the sliding contact surface 228a of the suction block 228 and the suction pipe 234 attached with the suction pad 234a are brought into close contact with each other only by the suction pressure when the compressor is in operation and when the operation of the compressor is stopped, The suction pipe 234 having the sliding contact surface 228a of the suction block 228 and the suction pad 234a is automatically and minutely detached.

Although the adsorption pad 234a is made of POM (polyacetal), other rubber or plastic materials may be used.

The suction pipe 234 must have a fixed position relative to the suction block 228 so that the main hose connecting block 232 is mounted to a fixed such as the head 240, for example.

Figure 4 shows an embodiment of a suction device according to the invention.

Referring to FIG. 4, it can be seen that a compressor 402, a solenoid valve 404, a discharge valve 406, and an operation box 408 are provided.

The discharge valve 406 is installed in the sludge discharge passage between the main hose connecting block 232 and the collecting net 210.

The air solenoid 404 swiches the compressed air generated in the compressor 402 to be supplied to the discharge valve 402.

The operation box 408 controls the operation of the air solenoid 404.

Fig. 5 shows the configuration of the discharge valve shown in Fig.

5, when a compressed air is supplied through the air solenoid 404 through the hole 406a in the diagonal direction within the discharge valve 406, the compressed air flows in the diagonal direction and sucks the sludge in the opposite direction .

100, 200 ... punching machine
10, 210 ... collecting net 22, 222 ... needle bar
26, 226 ... Puncher 228 ... Suction block
234 ... suction pipe 232 ... main hose connection block
240 ... head

Claims (3)

And a plurality of punchers connected to each of the plurality of needle bars, wherein each of the plurality of punchers has a through hole for discharging sludge therein,
A suction block communicating with each of the plurality of punchers and moving in accordance with the left and right movement of the needle bar;
A sliding contact surface formed on one side of the suction block;
A suction groove formed on the sliding contact surface and communicating with each puncher;
A suction pipe having a fixed position in contact with the sliding contact surface of the suction block; And
Wherein when the suction pipe is aligned with one of the suction grooves formed on the sliding surface, the sludge is sucked from a puncher communicated with the suction groove,
And a collection net communicating with the suction pipe,
Wherein only a needle bar that performs a punching operation among the plurality of needle bars selectively communicates with the suction pipe.
The suction device according to claim 1, further comprising a suction pad provided at an end of the suction pipe and slidable on a sliding surface of the suction block.
The absorbent article as claimed in claim 2,
When the sludge suction operation is not performed and when the needle bar moves left and right, the suction block is maintained at a certain distance from the sliding surface of the suction block to smoothly move left and right,
So that a tight contact state with the sliding contact surface of the suction block is secured when the sludge is moved in accordance with a needle for sucking the sludge.

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