KR101593085B1 - Cutting Oil Filtering Device - Google Patents

Abstract

The present invention relates to a cutting oil filtering device filtering foreign substances contained in a cutting oil from the cutting oil of a factory machine to resupply the cutting oil. The cutting oil filtering device comprises: a housing (100); a suction pipe (200); a discharge pipe (300); a filter part (400); and a pressure control part (500). The housing (100) has an interior space. The suction pipe (200) functions as a passage sucking the cutting oil containing the foreign substance from a process machine and transferring the cutting oil to an upper part of the housing (100). The discharge pipe (300) functions as a passage supplying the cutting oil, which is discharged to a lower part of the housing (100) after the foreign substance is removed, to the process machine. The filter part (400) is installed in an interior space of the housing (100) and filters the foreign substance contained in the cutting oil sucked by the suction pipe (200). The pressure control part (500) is installed on the upper part of the housing (100) to reduce and increase the pressure of the interior space of the housing (100). The cutting oil filtering device has a simple structure using high pressure plant air in a common factory such that a chip can effectively be removed without using a complicated machine or a power device.

Description

{Cutting Oil Filtering Device}

The present invention relates to a removing device for filtering foreign matter contained in cutting oil and removing foreign substances such as chips efficiently by using only plant air without using a complicated mechanical device or a power device.

Generally, the cutting oil used for the cutting work of the workpiece includes chips or foreign substances generated during the machining. For this reuse, only the pure cutting oil is recovered after removing the foreign substances and the like.

When machining a cutting material using equipment such as a CNC machine or a machining center, which is usually a machine tool, foreign materials such as a large amount of chips and cutting chips are generated. And the cutting tool has a high temperature, so that the service life of the cutting tool is shortened. In addition, the cutting fluid generated in the cutting process is circulated in the cutting oil supplied at the same time as the cutting process. The cutting powder acts as a factor that blocks the injection nozzle and the cutting oil contained in the cutting oil moves together with the cutting oil to cause an overload in the equipment, so that the power loss is excessive and the quality of the workpiece There arises a problem that breakage or premature wear of the cutting tool is caused.

Therefore, cutting oil needs to be collected at regular intervals to remove chips and cuttings contained therein.

[Prior Art Literature]

Patent No. 10-1473303

The present invention relates to a method and apparatus for efficiently removing a chip with a simple structure using only a plant air installed in a general factory without using a complicated mechanical device or a power device for removing chips or cuttings contained in cutting oil It is an object of the present invention to provide a cutting fluid foreign matter removing device of a new concept.

In order to accomplish the above object, the present invention is directed to a cutting apparatus for removing foreign matter contained in cutting oil of a factory machine and re-supplying the same, the apparatus comprising: a housing having an internal space; A suction pipe (200) serving as a passage for sucking a cutting oil containing a foreign material from the machine tool and transferring the cutting oil to an upper portion of the housing (100); A discharge pipe (300) serving as a passage for supplying the cutting oil, which is discharged to the lower portion of the housing (100), to the machine tool by removing foreign matter; A filter unit 400 installed in an inner space of the housing 100 to filter foreign substances contained in the cutting oil sucked through the suction pipe 200; And a pressure regulator 500 installed on the upper portion of the housing 100 to reduce or pressurize the inner space of the housing 100.

The pressure regulating part 500 includes a vortex generating part 510 formed as an empty space therein; A plant air supply pipe 520 connected to the vortex generator 510 for supplying high pressure plant air into the vortex generator 510; A plant air discharge pipe 300 connected to the vortex generating unit 510 to discharge the high pressure plant air supplied to the vortex generating unit 510 to the outside through the plant air supply pipe 520; And the other side is connected to the inner space of the housing 100 so that the high-pressure plant air passing through the vortex generating unit 510 can blow air inside the housing 100 And a housing connecting pipe 540 serving as a sucking passage.

Technical effects of the configuration of the present invention are as follows.

First, the chip can be efficiently removed with a simple structure using only high-pressure plant air installed in a general factory without using a complicated mechanical device or a power device.

Second, it is possible to pursue economical efficiency by minimizing manufacturing unit cost and maintenance cost of products.

Thirdly, a chip or a foreign substance which is not filtered by the filter unit 400 is collected by the magnet 115 attached to the upper surface of the drain door 110, and the drain door 110 is periodically opened to open the inside of the housing 100 Chips or foreign matter remaining on the floor can be easily removed.

Fourth, in the state where high-pressure plant air is connected, only the operation of opening and closing the pressure control valve 535 and the discharge pipe valve 310 is sucked in the cutting oil used in the machine tool, and the filtered cutting oil is supplied to the machine tool again Do.

Fig. 1 schematically shows the overall configuration of a specific embodiment of the present invention.
Fig. 2 shows the structure of the pressure regulating part 500. Fig.
3 shows the case where the pressure control valve 535 and the suction pipe valve 210 are opened and the discharge pipe valve 310 is closed so that air inside the housing 100 is escaped, A process of supplying a cutting oil containing a foreign substance from the machine to the inside of the housing 100 is shown.
4 shows the case where the pressure control valve 535 and the suction pipe valve 210 are closed and the discharge pipe valve 310 is opened. The high pressure plant air is filled in the housing 100 and pressurized. And a process of supplying the cutting oil, which is filtered in the inside of the housing 100, to the machine tool through the discharge pipe 300.

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

The present invention relates to a cutting oil foreign matter removing apparatus for removing foreign matter contained in cutting oil of a factory machine and re-supplying the same, wherein the entire structure is shown in FIG.

The housing 100 maintains a shape of a storage container provided with an internal space. In the specific embodiment of the present invention, the housing 100 is made of a metal material, but may be made of various synthetic resins if the shape and strength can be maintained.

The suction pipe 200 serves as a passage for sucking the cutting oil containing the foreign substance from the machine tool and transferring the cutting oil to the upper portion of the housing 100. The suction pipe 200 is connected to a sump tank of a machine tool.

The discharge pipe 300 serves as a passage for supplying the cutting oil discharged to the lower portion of the housing 100 to the machine tool after the foreign substance is removed. The discharge pipe 300 may also be connected to a sump tank of the machine tool .

The filter unit 400 is installed in the inner space of the housing 100 to filter foreign substances contained in the cutting oil sucked through the suction pipe 200.

The filter unit 400 is structured such that it is mounted at an intermediate portion of the housing 100 with a mesh-type box for filtering foreign substances contained in the cutting oil.

The filter unit 400 may be periodically cleaned or replaced. The filter unit 400 may be constructed so that the upper end or one side of the housing 100 is opened. If necessary, the filter unit 400 may be opened . 1, the housing 100 may have a structure in which the upper end of the housing 100 is separated from the upper end of the housing 100. Although not shown in FIG. 1, the housing 100 may have a retractable door May be provided.

The pressure regulating part 500 is provided on the upper part of the housing 100 to reduce or pressurize the internal space of the housing 100. [

The pressure regulating unit 500 includes a vortex generating unit 510, a plant air supply pipe 520, a plant air discharge pipe 300, and a housing connection pipe 540.

The vortex generating part 510 is formed as an empty space in the center of the pressure adjusting part 500.

The plant air supply pipe 520 is connected to the vortex generating unit 510 and serves as a passage for supplying high pressure plant air into the vortex generating unit 510.

The plant air discharge pipe 300 is connected to the vortex generating unit 510 and serves as a passage for discharging the high pressure plant air supplied to the vortex generating unit 510 through the plant air supply pipe 520 to the outside.

One side of the housing connection pipe 540 is connected to the vortex generating part 510 and the other side is connected to the internal space of the housing 100 so that the high pressure plant air passing through the vortex generating part 510 passes through the inside of the housing 100 It becomes a passage to suck air.

2 showing a specific embodiment of such a pressure regulating part 500, the vortex generating part 510 has a cylindrical hollow space, and a plant air supply pipe 520 is connected to the upper surface of the vortex generating part 510 A structure in which the plant air discharge pipe 300 is connected to the center portion of the upper surface of the vortex generating unit 510 and the housing connecting pipe 540 is connected to the center portion of the lower surface of the vortex generating unit 510 The center portion of the upper surface of the vortex generating unit 510 is formed with a countersink whose diameter decreases toward the upper part, and is connected to the plant air discharge pipe 300.

Accordingly, when the high-pressure plant air flows into the edge of one side of the upper surface of the vortex generating unit 510 through the plant air supply pipe 520, the vortex generating unit 510 hits the lower surface of the vortex generating unit 510, And this vortex is discharged to the plant air discharge pipe 300 connected to the center of the upper surface of the vortex generating portion 510. [

The pressure control valve 535 is provided in the plant air discharge pipe 300 to open or close the opening of the plant air discharge pipe 300.

When the pressure control valve 535 is opened and high-pressure plant air is supplied into the vortex generating unit 510 through the plant air supply pipe 520, a vortex is generated in the vortex generating unit 510, The inner space of the housing 100 is evacuated and the air in the housing 100 is discharged through the housing connecting pipe 540. This induces a vacuum state in which the inner space of the housing 100 is depressurized, Thereby providing a suction force.

When the high pressure plant air is supplied into the vortex generating unit 510 through the plant air supply pipe 520 by closing the pressure control valve 535 and the high pressure plant air is supplied into the housing 100 through the housing connecting pipe 540, The pressure inside the housing 100 is increased. As a result, the cutting oil stored in the housing 100 is supplied to the machine tool through the discharge pipe 300 by the pressure increase.

It is preferable that the suction pipe valve 210 and the discharge pipe valve 310 are additionally provided in order to smoothly perform such an operation.

The suction pipe valve 210 is installed in the suction pipe 200 to open or close the opening of the suction pipe 200 and the discharge pipe valve 310 is installed in the discharge pipe 300 to open or close the opening of the discharge pipe 300 It plays a role.

3, when the pressure control valve 535 is opened and the high-pressure plant air is supplied, the suction pipe valve 210 is opened and the discharge pipe valve 310 is closed, Is supplied into the housing (100).

That is, when the pressure control valve 535 and the suction pipe valve 210 are opened and the discharge pipe valve 310 is closed, the air inside the housing 100 is exhausted, A cutting fluid containing foreign matter is supplied into the housing 100.

4, when the pressure control valve 535 is closed and the high-pressure plant air is supplied, the suction pipe valve 210 is closed and the discharge pipe valve 310 is opened, The filtered coolant is fed back to the machine tool.

That is, when the pressure control valve 535 and the suction pipe valve 210 are closed and the discharge pipe valve 310 is opened, the high pressure plant air is filled in the housing 100 and is pressurized. The cutting oil, which has been filtered by the foreign material, is supplied back to the machine tool through the discharge pipe 300.

The drain door 110 is openably and closably provided on the lower surface of the housing 100.

The magnet 115 is attached to the upper surface of the drain door 110 and serves to collect foreign substances of metal components contained in the cutting oil passed through the filter unit 400.

When the drain door 110 is opened, it is possible to easily remove foreign matter such as chips that are collected on the upper surface of the drain door 110 or stacked on the inner bottom surface of the housing 100.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Addition or deletion of a technique, and limitation of a numerical value are included in the protection scope of the present invention.

100: Housing
110: drain door
115: magnet
200: suction pipe
210: suction pipe valve
300: discharge pipe
310: discharge pipe valve
400:
500: Pressure regulator
510: vortex generator
520: Plant air supply pipe
530: Plant air outlet pipe
535: Pressure control valve
540: Housing connector

Claims (7)

The present invention relates to a cutting apparatus for removing foreign matter contained in cutting oil of a factory machine and re-
A housing (100) having an internal space;
A suction pipe (200) serving as a passage for sucking a cutting oil containing a foreign material from the machine tool and transferring the cutting oil to an upper portion of the housing (100);
A discharge pipe (300) serving as a passage for supplying the cutting oil, which is discharged to the lower portion of the housing (100), to the machine tool by removing foreign matter;
A filter unit 400 installed in an inner space of the housing 100 to filter foreign substances contained in the cutting oil sucked through the suction pipe 200; And
A pressure regulator 500 installed on the upper portion of the housing 100 to reduce or pressurize the internal space of the housing 100;
Lt; / RTI >
The pressure regulator (500)
A vortex generating part 510 formed as an empty space inside;
A plant air supply pipe 520 connected to the vortex generator 510 for supplying high pressure plant air into the vortex generator 510;
A plant air discharge pipe 300 connected to the vortex generating unit 510 to discharge the high pressure plant air supplied to the vortex generating unit 510 to the outside through the plant air supply pipe 520;
And the other side is connected to the inner space of the housing 100 to allow the high-pressure plant air passing through the vortex generating unit 510 to suck up the internal air of the housing 100 A housing connection pipe 540 as a passage; And
A pressure control valve (535) provided in the plant air discharge pipe (300) to open or close the opening of the plant air discharge pipe (300);
Lt; / RTI >
When the pressure control valve 535 is opened and high-pressure plant air is supplied into the vortex generating unit 510 through the plant air supply pipe 520, a vortex is generated in the vortex generating unit 510, Air is exhausted to the air discharge pipe 300 and the air in the housing 100 is discharged together to induce a vacuum state to provide a suction force to the suction pipe 200,
When the pressure control valve 535 is closed and high-pressure plant air is supplied into the vortex generating unit 510 through the plant air supply pipe 520, the pressure control valve 535 is connected to the inside of the housing 100 through the housing connecting pipe 540. And pressurizes the coolant stored in the housing (100) in a state where the high-pressure plant air is introduced into the housing (100) and the foreign material is removed, thereby supplying the coolant to the machine tool through the discharge pipe (300). The method of claim 1,
A suction pipe (210) installed in the suction pipe (200) to open or close the opening of the suction pipe (200); And
A discharge pipe valve (310) installed in the discharge pipe (300) to open or close the opening of the discharge pipe (300);
Lt; / RTI >
When the pressure control valve 535 is opened and the high pressure plant air is supplied, the suction pipe valve 210 is opened and the discharge pipe valve 310 is closed, so that the cutting oil containing the foreign substance through the suction pipe 200 And is supplied into the housing 100,
When the pressure control valve 535 is closed, the suction pipe valve 210 closes and the discharge pipe valve 310 is opened. Thus, the cutting oil, which is filtered through the discharge pipe 300, Wherein the cutter is provided as a machine. 3. The method according to claim 1 or 2,
The pressure regulator (500)
The vortex generating unit 510 is formed as a cylindrical void space,
The plant air supply pipe 520 is connected to one edge of the upper surface of the vortex generator 510,
The plant air discharge pipe 300 is connected to the center portion of the upper surface of the vortex generating unit 510,
Wherein the housing connection pipe (540) is connected to the center of the lower surface of the vortex generating part (510). 4. The method of claim 3,
Wherein the vortex generators (510) have a countersink formed in a shape of decreasing in diameter toward the upper part, and connected to the plant air discharge pipe (300). 3. The method according to claim 1 or 2,
The filter unit (400)
A mesh net box for filtering foreign matter contained in the cutting oil is mounted on an intermediate portion of the housing 100,
The housing (100)
Wherein the filter unit (400) is structured such that an upper end or one side thereof is opened to periodically clean or replace the filter unit (400). 3. The method according to claim 1 or 2,
A drain door 110 which is openable and closable on the lower surface of the housing 100; And
A magnet 115 attached to the upper surface of the drain door 110 to collect foreign matter of a metal component included in the cutting oil passed through the filter unit 400;
Wherein the cutting tool is further provided with a cutting tool. delete

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