JPS61203246A - Device for recovering discontinuous chips - Google Patents

Abstract

PURPOSE:To improve machining accuracy, tool life and workability by providing a portion for suckingly recovering discontinuous chips and the like in the vicinity of a machining point of a workpiece in tapping so that they can be simply recovered without scattering. CONSTITUTION:A hole 16 is provided through a machining table 2 on which a workpiece 1 is secured and a suction unit 15 is disposed below the table 2. When a magnetic valve 11 is opened by detecting that a tap 3 is lowered, a pump 9 pumps up cutting oil from a tank 7 for supplying the same to a machining point 4 through a cutting oil supplying port 6. On the other hand, chips 14 produced and the cutting oil drop through the hole 16 and are supplied to a suction port 17 to be introduced into the inner tube 19 of a double walled tube 18. Since the outer tube 20 of the double walled tube 18 has its one end connected to a pressurized air source 21, the chips 14 and the cutting oil are introduced through a recovery tube 23 into a filter 22 by the ejector effect made by the flow of pressurized air so that the chips can be separated from the cutting oil. As a result, the chips are prevented from adhering to a cutting tool and a workpiece thereby to improve machining accuracy, workability and tool life.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention provides a method for easily processing discontinuous chips (hereinafter simply referred to as chips) that occur when processing a workpiece without scattering them. Relating to a device that can be recovered.

[Prior art] When the cutting tool returns to its pre-processing position after cutting, some of the discontinuous chips generated by cutting or machining, etc., stick to the workpiece or become stuck to the tool. It may stick. Therefore, there is a problem in that the finishing accuracy of the machined surface of the workpiece is not uniform, which reduces the processing accuracy.

To deal with this problem, it is necessary to remove chips adhering to the cutter and workpiece during machining, and to minimize the amount of adhesion.

Conventional methods for removing cutting chips remove a relatively large amount of cutting oil.
There are methods such as supplying the fluid to the 01 point or the vicinity of the machining point and forcing it away, and methods such as spraying a compressible fluid such as air toward the machining point or the vicinity of the machining point.

[Problems to be solved by the invention] However, these methods require cutting oil, air, etc. to be used between the strips to remove chips, and the recovery rate is not good. This has caused problems such as the scattering and spreading of particles to other machining points, resulting in poor machining finish and accuracy, and rapid wear of the cutter. In addition, in the method of blowing off chips, for example, when processing resin or the like, the chips fly up, resulting in problems in that workability deteriorates and the working environment deteriorates.

In view of the above-mentioned situation, the present invention has been developed to easily and efficiently collect chips without affecting other parts, and to recover discontinuous chips that can solve all the problems that have conventionally occurred. The purpose is to obtain equipment.

[Means for solving the problem] In order to achieve this object, the discontinuous chips collection device of the present invention collects discontinuities generated from the machining point in the vicinity of the machining point of the workpiece. A suction part is provided to suck up and collect the chips.

For example, in machining that does not use cutting oil, this suction unit is composed of a device that sucks only chips, and when cutting oil is supplied near the machining point, it simultaneously sucks chips and cutting oil. It is configured as a device for suction and collection. and,
The suction is performed using, for example, an ejector or a vacuum pump, and it is also desirable to provide a separation device for separating the suctioned collected material into chips and other materials.

[Operation] In such a device for collecting discontinuous chips, discontinuous chips generated from a processing point are forcibly sucked and collected by the suction force of the suction section. As soon as chips are generated, they are immediately sucked in and removed from the machining point.
As a result, it is prevented from adhering to the workpiece or the cutting tool used in processing, unlike in the past, and is efficiently recovered from the processing section. Therefore, it is easy to prevent chips from spreading to other parts, which lowers machining accuracy, and scattering, which deteriorates work efficiency and working environment.

Preferred embodiments of the apparatus for collecting discontinuous chips of the present invention will be described below with reference to the drawings.

The figure shows an apparatus for collecting discontinuous chips according to an embodiment of the present invention, and shows a case where the present invention is applied to an apparatus for performing tapping on a metal plate.

In the figure, 1 indicates a metal plate as a workpiece, and the metal plate 1 is fixed or placed on a processing table 2 during processing.

3 indicates tapping for tapping the metal plate 1, and is lowered during processing.

Although not shown, this tapping device is provided with an operation detection means, which detects the lowering of the tapping 3 and issues a signal accordingly.

A cutting oil supply section 5 that pumps and supplies cutting oil is provided near the processing point 4 of the metal plate 1, and the cutting oil is supplied to the processing point 4 from a cutting oil supply port 6. This cutting oil is supplied from a tank 7, and a pump 9 pumps the cutting oil 8 from inside the tank 7.
, via a solenoid valve 11 which opens the pressure passage 10 by means of a suitable signal, for example from the actuation detection means for detecting the lowering of the tapping 3 mentioned above. An oil receiver 12 is provided directly below the cutting oil supply port 6, and the remaining cutting oil that has not been supplied to the machining point 4 is returned to the tank 7 through a passage 13.

A suction section 15 is provided below the machining point 4 to suck and collect discontinuous chips 14 generated from the machining point 4 together with cutting oil. In this embodiment, the processing table 2
Machining chips 1 from machining point 4 are placed below machining point 4.
A hole 16 is provided through which 4 can fall downward,
The suction port 17 of the suction part 15 is opened with a sufficiently wide area so as to face the hole 16 located above.

The suction part 15 is connected to the inner tube 19 of the double tube 18. The outer tube 20 of the double tube 18 is connected to a pressurized air source 21, and pressurized air from the pressurized air source 21 is blown between the inner tube 19 and the outer tube 20. Therefore, the double pipe 18 constitutes an ejector that applies a suction force within the inner pipe 19 by the flow of pressurized air from the pressurized air 'a21.

The outer tube 20 of the double tube 18 constituting this ejector is connected into the tank 7 after being reduced in diameter.

A filter 22 made of, for example, gold steel is provided in the tank 7, and a recovery passage 23 from the double pipe 18 and the passage 13 are inserted into the filter 22. The filter 22 is set as a mesh capable of leaving only the chips 14 inside the filter 22 by filtration out of the cutting oil and chips 14 sent from the recovery passage 23. Therefore, the filter 22 constitutes a device for separating the chips 14 and cutting oil.

The operation of the discontinuous chips recovery device configured as described above will be explained below.

First, the cutting oil that has been sucked up from the tank 7 by the pump 9 and pressurized is caused to open the electromagnetic valve 11 by an appropriate signal (for example, the descending signal of the tapping 3).
Immediately after machining starts, cutting oil is supplied from the supply port 6 toward the vicinity of the machining point 4.

Then, when the tapping 3 starts processing the workpiece 1 set on the processing table 2, a mixture of cutting oil and chips 14 is generated from the processing point 4. Pressurized air is blown into the ejector (double pipe) 18 from the pressurized air source 21 at a timing synchronized with this processing signal. By blowing pressurized air, a suction force acts on the inner tube 19 side, and a suction force is generated in the suction part 15 connected to the inner tube 19. Due to this suction force, a mixture of chips 14 and cutting oil is sucked from the machining point 4 and the vicinity of the machining point 4 through the suction port 17 and sent into the filter 22 of the tank 7 via the ejector 18 . Further, the cutting oil dripped from the cutting oil supply port 6 is collected by an oil receiver 12 provided below and returned to the filter 22 of the tank 7.

The cutting oil and chips 14 collected in the filter 22 are separated by the filtering action of the filter 22, and the cutting oil is circulated through the pressure passage 10 again for use.

In this way, the chips 14 generated from the machining point 4 are forcibly sucked into the suction section 15 and collected at the same time as the cutting oil. Therefore, the chips 14 are prevented from scattering, adhering to the tapping 3 or the workpiece 1, or adversely affecting other parts of the workpiece 1.

In the description of the embodiments above, an example was shown in which suction is performed using pressurized air in the suction section, but it goes without saying that suction may also be performed using a vacuum pump or the like.

In addition, the above example shows an example of tapping processing of the metal plate 1, so cutting oil is required, but if the material does not require cutting oil, such as wood or resin, only a suction part may be provided. It is something.

[Effects of the Invention] As explained above, according to the present invention, a suction part is provided near the machining point to forcibly suck and collect discontinuous chips generated from the machining point. The following various effects can be obtained.

(b) Machining accuracy is improved because chips do not adhere to the cutter or workpiece.

(b) Since the chips do not adhere to the workpiece, there is no need to remove the chips before performing the next process, improving machining efficiency.

(c) Since chips do not adhere to the cutter, the life of the cutter is extended.

(d) The working environment is improved because chips are not scattered.

[Brief explanation of drawings]

The figure is an overall configuration diagram of an apparatus for collecting discontinuous chips according to an embodiment of the present invention. 1...Metal plate 3 as a workpiece...
Tapping 4... Machining point 5... Cutting oil supply section 7... Tank 8... Cutting oil 9... Pump 11... ... Solenoid valve 12 ... Oil pan 14 ... Discontinuous chips 15 ... Suction part 16 ... Hole 18 ...・Double pipe 21 that constitutes the ejector...
...pressurized air source

Claims (4)

[Claims] (1) A device for collecting discontinuous chips, characterized in that a suction unit is provided near a processing point of a workpiece to suck and collect discontinuous chips generated from the processing point. (2) A cutting oil supply section that pumps cutting oil is provided near the machining point, and the suction section is configured to simultaneously suck up the cutting oil supplied from the cutting oil supply section and discontinuous chips. Claim 1, further comprising: a tank for storing collected material collected from the suction part; and a separation device for separating collected chips and cutting oil. A device for collecting discontinuous chips. (3) The apparatus for collecting discontinuous chips according to claim 1, wherein the suction section is operated only when processing a workpiece. (4) Claim 2, wherein the suction section and the cutting oil supply section are operated only when machining a workpiece.
A device for collecting discontinuous chips as described in Section 1.