KR100597683B1 - Cutting chip collecting apparatus system for Oversize machine tool - Google Patents

Abstract

The present invention relates to a processing chip processing system for a large machine tool provided in a large machine tool having a machining head for processing while moving the workpiece placed on the bed in the longitudinal direction of the bed, and removes the machining chip, the bed An air spraying unit having an air spraying angle toward the outside of the air spraying nozzle and installed in the processing head and an air supply unit for supplying compressed air to the air spraying nozzle; It is installed to move together with the processing head on one side of the bed, the inlet end receiving the processing chip is in contact with the outer edge of the width direction of the bed almost, discharge outlet for discharging the received processing chip to the outside of the bed A chip recovery chamber having a front side and / or a rear side of the processing head; It is characterized in that it comprises at least one processing chip collection unit which is provided on the outside of the machine tool and has a chip transfer means for transferring the processing chip discharged to the discharge port of the chip recovery chamber to the external processing chip collection bin.

Thereby, a processing chip processing system for a large machine tool, in which the structure is relatively simple and compact, and the equipment cost is significantly reduced.

 Machine tool, processing chip, processing head, bed, air spray, nozzle, compressed air, chip recovery, chip transfer, chip collection

Description

Cutting chip collecting apparatus for oversized machine tools

1 is a perspective view of a processing chip processing system for a large machine tool according to the present invention;

FIG. 2 is a cross sectional front view of the processing chip collecting unit region of FIG. 1;

3 is a perspective view of a processing chip processing system for a large machine tool according to another embodiment of the present invention;

Figure 4 is a perspective view of a processing chip processing system for a large machine tool according to another embodiment of the present invention, the bell

5 is a cross-sectional front view of the processing chip collection unit region of FIG.

6 is a front view of a conventional chip processing system for large machine tools.

* Explanation of symbols for the main parts of the drawings

10: air spray unit 11: air spray nozzle

13 air supply 15 air supply pipe

20: processing chip collection unit 21: chip recovery chamber

23: chip transfer means 24: processing chip container

25: chip transfer chamber 27: chip transfer screw

The present invention relates to a processing chip processing system for large machine tools.

Large structures such as aircraft and ships are composed of a combination of medium and large structures and machinery parts of various shapes and structures. Due to their size, these structures and machinery parts cannot be processed on general machine tools and are specially suited for the corresponding parts. It is produced in a processing machine (hereinafter referred to as "large machine tool", and the accompanying drawings are described by way of an aircraft body structure processing machine as an example).

On the other hand, when manufacturing large and large structures and machinery parts in large machine tools, a large amount of processing chips are generated. Failure to remove such fasted chips adversely affects the object to be processed and the processing efficiency of the machine tool is drastically lowered. Therefore, a large chip machine is provided with a chip processing system.

In general, the processing chip processing system for a large machine tool is a suction method for sucking and processing the processing chips stacked on the bed of the machine tool.

As shown in FIG. 6, the conventional suction type processing chip processing system 101 for a large machine tool includes an inhaler 110 and a processing chip dust collector 120 installed adjacent to the processing head 220 of the machine tool 201. ), The air suction duct 130 connecting the suction port 110 and the discharge port 123 of the processing chip dust collector 120, and the processing head of the machine tool 201 from the suction port 121 of the processing chip dust collector 120. A plurality of suction posts 150 extending between the processing chip suction duct 140 extending toward 220 and a plurality of processing blades 230 branched from the processing chip suction duct 140 and installed on the processing head 220. Has)

The processing chip processing system 101 is installed to move together when the processing head 220 of the machine tool 201 reciprocates the upper part of the bed 210. In addition, when the processing head 220 of the machine tool 201 processes the workpiece B loaded on the bed 210 by the plurality of processing blades 230, the work is performed by the suction force generated in the inhaler 110. The processing chips A stacked on the object B and the bed 210 are suction-processed by the processing chip dust collector 120 through the suction hood 150 and the processing chip suction duct 140.

By the way, in the conventional processing chip processing system for large machine tools, since the processing method for processing the processing chip is made by the suction method, the configuration of each inhaler, the processing chip dust collector, the duct and the suction hood, and the processing chip processing system are There is a problem that the overall structure of the processing chip processing system, such as the configuration for the transfer that can move with the machining head of the machine tool is very complex and made of a large structure, the equipment cost is also consumed enormously.

Accordingly, it is an object of the present invention to provide a processing chip processing system for a large machine tool in which the structure is relatively simple and compact, and the equipment cost is greatly reduced.

According to the present invention, the object is provided in a large-scale machine tool processing chip processing system provided on a large machine tool having a processing head for processing while moving the workpiece placed on the bed in the longitudinal direction of the bed to remove the machining chip An air spray unit comprising: an air spray nozzle installed in the processing head having an air spray angle toward the outside of the bed; and an air spray unit supplying compressed air to the air spray nozzle; It is installed to move together with the processing head on one side of the bed, the inlet end receiving the processing chip is in contact with the outer edge of the width direction of the bed almost, discharge outlet for discharging the received processing chip to the outside of the bed A chip recovery chamber having a front side and / or a rear side of the processing head; A large machine tool installed on an outside of the machine tool and including at least one processing chip collecting unit having a chip transfer means for transferring the processing chip discharged to the discharge port of the chip recovery chamber to an external processing chip container; Is achieved by a processing chip processing system.

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In addition, the chip transfer means is provided in the chip transfer chamber and the chip transfer chamber installed toward the processing chip collection container provided on the outside of the machine tool along the outer longitudinal direction of the bed facing the discharge port of the chip recovery chamber, It is effective to have a chip feed screw that rotates by a motor.

Further, it is more preferable that a cutting oil discharge port is formed at a lower portion of the chip transfer chamber, and a cutting oil container is provided at a lower area of the chip transfer chamber.

In this case, the chip conveying means may be a conveying conveyor installed toward the processing chip collection container provided on the outside of the machine tool along the outer longitudinal direction of the bed facing the discharge port of the chip recovery chamber.

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

1 is a perspective view of a processing chip processing system for a large machine tool according to the present invention, Figure 2 is a front cross-sectional view of the processing chip collection unit region of FIG. As shown in these figures, the machining chip processing system 1 for a large machine tool according to the present invention is directed toward the outside of the bed 210, the machining chip A stacked on the bed 210 of the machine tool 201. The air injection unit 10 to move, and the processing chip collection unit 20 for collecting the processing chip (A) to be moved to the outside of the bed (210).

The air spray unit 10 is composed of a plurality of air spray nozzles 11 installed in the processing head 220 of the machine tool 201 and an air supply 13 for delivering compressed air to the air spray nozzles 11. do.

Each air spray nozzle 11 is installed between the plurality of processing blades 230 provided in the processing head 220, so that the air spray direction is directed to the chip recovery chamber 21 of the processing chip collection unit 20 which will be described later. It has a predetermined air jet angle. As shown in FIG. 2, the air supplier 13 is installed at a predetermined support part 221 provided in one region of the processing head 220 of the machine tool 201 and moves along with the processing head 220. The compressed air is supplied to the air spray nozzle 11 through the supply pipe 15.

Of course, the air supplier 13 may be separately installed and fixed to the outside of the machine tool 201. In this case, the air supply pipe 15 should be provided in the form of a flexible pipe having flexibility to be stretched and stretched freely.

In addition, the air supplier 13 is preferably used in the general industrial field, such as an air compressor, and the injection force of the compressed air discharged to the air spray nozzle 11 is accumulated in the bed 210 of the machine tool 201 It is preferable that the processing chip A can be smoothly moved along the plate surface of the bed 210 toward the chip recovery chamber 21 of the processing chip collection unit 20 which will be described later.

The machining chip collection unit 20 receives the machining chip A pushed out of the bed 210 while moving along the moving direction of the machining head 220 of the machine tool 201 and guides it to the outside of the machine tool 201. The chip transfer chamber 21 and the chip transfer means 23 installed outside the machine tool 201 to transfer the processing chip A transmitted from the chip recovery chamber 21 to an external area of the machine tool 201. And a processing chip collecting container 24 for collecting the processing chips A carried by the chip transferring means 23.

The chip recovery chamber 21 is coupled to one side of the machining head 220 and moves along the longitudinal direction of the bed 210 together with the machining head 220. At this time, the chip recovery chamber 21 has the inlet end portion 21a almost in contact with the outer edge of the bed 210 so that the processing chip A can be smoothly introduced, the discharge port 21b is the chip transfer means ( 23). The chip recovery chamber 21 may be installed at one side in front of the machining head 220 of the machine tool 201, as shown in FIG. 1, and installed at both the rear of the machining head 220 and the front and rear of the machining head 220. May be

The chip transfer means 23 is a predetermined length section outside the machine tool 201 along the longitudinal direction of the bed 210 from the outside of the machine tool 201 to which the discharge port 21b of the chip recovery chamber 21 is directed. The chip transfer chamber 25 provided, and the chip transfer screw 27 installed in the chip transfer chamber 25 and rotated by the motor 27a.

The chip transfer chamber 25 is open at an upper portion of the chip recovery chamber 21 at least by a section corresponding to the movement area of the discharge port 21b of the chip recovery chamber 21, and is open toward the processing chip container 24 at the lower surface of one end region. The chip discharge opening 29 is formed. At this time, a cutting oil discharge port 25a having a size that does not pass the processing chip A is formed in the lower portion of the chip transfer chamber 25, discharged from the cutting oil discharge port 25a in the lower portion of the chip transfer chamber 25 It is preferable that the cutting oil container 26 which receives the cutting oil used is arrange | positioned.

The chip transfer screw 27 rotates by the motor 27a to transfer the processed chip A to the chip discharge opening 29 of the chip transfer chamber 25. 4 and 5, the chip transfer screw 27 may be replaced by a transfer conveyor 27 '. In the case of the transfer conveyor 27', as shown in the figure, the processing chip ( It is preferable to provide a conveyor cover 25 'for preventing the separation of A). In the case of the conveying conveyor 27 ', it is preferable to provide the conveyor mat with a metal mesh mat. This is to prevent the damage of the conveyor mat by the processing chip (A), and at the same time to consider the smooth discharge of cutting oil.

Here, the processing chip collection unit 20 may be provided as a single unit on one side in the width direction of the machine tool 201, as shown in Figures 1 and 2, 4 and 5, as shown in Figure 3, It goes without saying that it may be provided as a pair of units on both sides in the width direction of 201). In addition, depending on the structure and installation conditions of the machine tool 201, the processing chip collection unit 20 may be provided on both sides in the longitudinal direction of the machine tool 201, or may be provided in at least one region in the longitudinal direction. Of course, the processing chip collection unit 20 may be provided on all sides of the machine tool 201.

With this configuration, the processing chip processing procedure of the processing chip processing system 1 for a large machine tool according to the present invention will be described.

Machining a Large Structure or Large Machinery Parts, such as an Aircraft When it is placed on the bed 210 of the target machine tool 201 and the machine tool 201 is operated, the machining head 220 of the machine tool 201 is preliminary. The workpiece (B) is to be machined while moving to the programmed position.

When the machining of the workpiece (B) starts, a significant amount of the processing chip (A) is stacked on the bed 210 of the machine tool 201 including the workpiece (B).

Then, the processing chip processing system 1 is operated so that the compressed air from the air supply 13 is injected through the plurality of air spray nozzles 11 installed in the processing head 220, and the processing chip A is transferred to the chip recovery chamber. Move to the (21) side. At this time, the chip recovery chamber 21 also moves along with the processing head 220, so that the processing chips A stacked on the bed 210 are in accordance with the movement of the processing head 220 and the air injection direction. ) Move smoothly.

In addition, the processing chip A introduced into the chip recovery chamber 21 is supplied to the chip transfer means 23 through the discharge port 21b of the chip recovery chamber 21 and then processed by the chip transfer means 23. Collected in the chip container 24 and disposed of.

In this way, the processing chips stacked on the bed of the machine tool are moved to the outside of the bed in response to the movement of the processing head by using compressed air, and the processing chips provided on the outside of the machine tool by collecting the processed chips moved to the outside of the bed By allowing the waste to be collected and disposed of in the container, the structure of the processing chip processing system can be configured relatively simply. Accordingly, the installation of large machine tools, including the processing chip processing system, is simple, and the overall equipment cost can be significantly reduced.

As described above, according to the present invention, there is provided a processing chip processing system for a large machine tool in which the structure is relatively simple and compact, and the equipment cost is greatly reduced.

Claims (5)

In the processing chip processing system for a large machine tool, which is provided in a large machine tool having a machining head for processing while moving the workpiece placed on the bed in the longitudinal direction of the bed, An air jet unit having an air jet angle toward the outside of the bed and an air jet nozzle installed in the processing head, and an air supplier for supplying compressed air to the air jet nozzle; It is installed to move together with the processing head on one side of the bed, the inlet end receiving the processing chip is in contact with the outer edge of the width direction of the bed almost, discharge outlet for discharging the received processing chip to the outside of the bed A chip recovery chamber having a front side and / or a rear side of the processing head; A large machine tool installed on an outside of the machine tool and including at least one processing chip collecting unit having a chip transfer means for transferring the processing chip discharged to the discharge port of the chip recovery chamber to an external processing chip container; Chip processing system delete The method of claim 1, The chip transfer means A chip transfer chamber installed toward the processing chip container provided on the outside of the machine tool along an outer longitudinal direction of the bed to which the discharge port of the chip recovery chamber faces; And a chip feed screw installed in the chip feed chamber and rotating by a motor. The method of claim 3, Cutting oil discharge port is formed in the lower portion of the chip transfer chamber, cutting oil container is provided in the lower region of the chip transfer chamber, the chip processing system for a large machine tool. The method of claim 1, The chip transfer means And a conveying conveyor installed toward the processing chip container provided on the outside of the machine tool along an outer longitudinal direction of the bed facing the discharge port of the chip recovery chamber.

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