KR20190105432A - Processed Oil Purifier - Google Patents

Abstract

The present invention provides a machining oil purifier to adsorb and remove metallic foreign substances contained in machining oil by a magnetic force. The machining oil purifier removes metallic foreign substances contained in machining oil to purify the machining oil, and comprises: a tank having a storage space to store machining oil; a housing fixed and installed on an upper plate of the tank, and provide with a space therein and at least one penetration hole formed through a lower end thereof; a pump which is installed on an upper end of the housing, is driven by power applied from the outside, and moves machining oil stored in the tank into the space of the housing through the penetration hole; and a magnetic force adsorption unit including a pair of magnet plates which are installed on a lower end of the housing, have different polarities, and are arranged to face each other while a passage communicating with the penetration hole on a center is arranged therebetween to adsorb metallic foreign substances contained in machining oil passing through the penetration hole by a pumping operation of the pump to an inner surface thereof.

Description

Processed Oil Purifier

The present invention relates to a processing oil purification device, and more particularly, to a processing oil purification device capable of magnetically adsorbing and removing metallic foreign matter contained in the processing oil.

Machine tools used in Korea (especially CNC lathes, machining centers, etc.) supply a large amount of cutting oil (mainly water soluble) to cool the workpieces and tools during cutting, and to prevent wear on the friction / transfer parts of the machine. It is used while supplying sliding oil (oil) (hereinafter referred to as lubricating oil) .Cutting oil and sliding oil are circulated by mixing small chips, cutting powder, and foreign substances generated during machining of workpieces, and most impurities are stored in the bottom of the cutting oil tank. Precipitates, corrodes and rots.

In addition, the sliding oil and the cutting oil are circulated while circulating, the sliding oil (oil) floats on the cutting oil (water-soluble) and blocks oxygen supply to the cutting oil, thereby promoting the corruption of cutting oil and impurities.

This coolant does not cause any problems at first, but when used for a long time, impurities contained in the coolant settle at the bottom of the tank due to its own weight, but some impurities are supplied while circulating in the coolant to reduce the quality of the cutting surface. This can shorten the life of the cutting tool and cause clogging of the cutting oil spray nozzle.

In addition, as described above, impurities contained in the cutting oil are moved together with the cutting oil, resulting in overloading of the equipment, resulting in power loss, and overheating of the cutting and cutting tools due to the supply of the cutting oil during processing. The efficiency of the cutting tool is reduced, and the cutting tool is damaged or severely worn. Thus, there is a problem that the work efficiency is reduced due to the loss of time due to the replacement of the cutting tool and the stop of the equipment.

On the other hand, the prior art for solving the above problems may be exemplified by Korean Patent Application Publication No. 10-2013-0019126 (name: screw type coolant purification device).

The prior art is a cutting oil purifying apparatus for purifying cutting oil containing a cutting chip, the obliquely inclined cylinder, the cylinder is formed with a cutting oil outlet is formed in the lower surface of the lower side, the cylinder is a supply port for cutting oil supplied to the outer surface, the cylinder Drive motor coupled to the lower side of the, is inserted into the cylinder and the lower end is connected to the output shaft of the drive motor to rotate, the screw is formed on the outer surface to reduce the pitch toward the top, in the non-screw section near the upper end It characterized in that it comprises a shaft in which the chip outlet is formed.

On the other hand, the prior art is to use a device such as a bag filter in order to perform a purification function, such a bag filter equipment requires frequent replacement of the filter as the filter efficiency drops rapidly over time. In addition, the supply of cutting oil is interrupted while the filter replacement is in progress, and the maintenance work is periodically required for the replacement, resulting in a problem of lowering workability and productivity.

Document 1: Korean Patent Office Publication No. 10-2013-0110792

Accordingly, an object of the present invention for solving the above problems is a process oil removal apparatus for adsorbing and removing metallic foreign substances contained in the process oil by the magnetic force of the magnetic plate in a state in which the magnet plate is immersed in the process oil stored in the tank. In providing.

The present invention for achieving the above object is a processing oil purification apparatus for removing and purifying the metallic foreign matter contained in the processing oil, a tank having a storage space for storing the processing oil, fixedly installed on the upper plate of the tank and the space therein Is provided and at the bottom of the housing through which at least one through hole is penetrated, is installed on the upper end of the housing and driven by a power applied from the outside and the processing oil stored in the tank flows into the space of the housing through the through hole A pump, which is installed at a lower end of the housing, has a different polarity, and is composed of a pair of magnetic plates arranged to face each other with a passage communicating with the passage hole at the center, so that the passage is in accordance with the pumping operation of the pump. Metallic in the process oil passing through Adsorbing foreign objects on the inner surface of said magnet plate is characterized in that it composed of a self-absorption.

The magnetic adsorption part is preferably configured to include a scraper that moves up and down by the power of the cylinder and includes a scraper to scrape and remove metallic foreign substances adsorbed on the inner surface of the magnetic plate.

According to the present invention, the magnet plate is immersed in the processing oil stored in the tank, and the magnetic force of the magnetic plate is used to adsorb and remove metallic foreign matter contained in the processing oil, thereby eliminating the need for periodic maintenance such as filter paper replacement. Purification function can be continuously implemented while the magnetic force is acting, thus improving the workability and practicality.

1 is a view showing the overall configuration of a coolant purification apparatus according to a preferred embodiment of the present invention.
2 is a view showing an extract of the filtering means constituting the main configuration of FIG.
3 is a cleaner operating state of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. DETAILED DESCRIPTION In the following detailed description, one exemplary embodiment of the present invention will be presented to accomplish the above technical problem. And other embodiments that can be presented with the present invention are replaced by the description in the configuration of the present invention.

1 is a view showing the overall configuration of the processing oil purification apparatus according to a preferred embodiment of the present invention, Figure 2 is a view showing an extract of the main configuration of Figure 1, Figure 3 is an operating state of Figure 1 Figure is shown.

As shown in Figures 1 to 3, the process oil purification apparatus of the present invention comprises a tank 10 and a filtering means 20.

The tank 10 is a place for storing the processing oil used for cooling the workpiece and the tool, such as cutting of a machine tool, and a storage space 12 is provided therein.

The filtering means 20 is installed in the storage space 12 of the tank 10 and means for filtering metallic foreign matter contained in the processing oil stored in the storage space 12 of the tank 10, The housing 30 includes a pump 40, an adsorption unit 50, and a cleaner 60.

The housing 30 is a member fixedly installed on the upper plate of the tank 10 to support the pump 40, the suction unit 50, and the cleaner 60, and a space 32 is provided therein, and at least at the bottom thereof. One or more through holes 34 are formed through. The through hole 34 allows the processing oil stored in the storage space 12 of the tank 10 to pass into the internal space 32 of the housing 30 according to the pumping operation of the pump 40. Euro. The through hole 34 is connected to the passage 56 of the adsorption part 50 and introduces the processing oil passing through the passage 56 between the internal holes 32 of the housing 30.

The pump 40 is installed at the upper end of the housing 30 and is driven by a power applied from the outside and forcedly pumps (inflows) the processing oil stored in the tank 10 into the space 23 of the housing 30. do.

One end of the discharge pipe 42 is connected to the pump 40, and the discharge pipe 42 uses the processing oil stored in the housing 30 by the pumping operation of the pump 40 to an external place of use, preferably a machine tool. Or it will be discharged to a clean tank. In the processing oil stored in the housing, metallic foreign matters are removed by the magnetic suction unit.

The magnetic suction unit 50 is a means for adsorbing and removing metallic foreign matter contained in the processing oil stored in the tank 10, the lower end of the housing 30.

The magnetic suction unit 50 includes a pair of magnetic plates 52 and 54 having different polarities and disposed to face each other with the passage 56 interposed therebetween. Assuming that one magnetic plate 54 of the magnetic plates 52 and 54 is "N" pole, the other magnet plate 52 opposite to the "S" pole so that two magnets The magnetic force is arranged between the plates 52 and 54.

The magnetic adsorption unit 50 is a process of pumping the pump 40 before the processing oil stored in the tank 10 is introduced into the inner space 32 of the housing 30, the magnetic adsorption unit 50 of the In the process of passing through the passage 56, foreign matter contained in the processing oil is adsorbed on the inner surfaces of the magnetic plates 52 and 54 by the magnetic force of the magnetic plates 52 and 54 to remove foreign substances contained in the processing oil. It will perform the function. The processing oil passing through the passage 56 of the magnetic suction part 50 passes through a through hole 34 which connects with the passage 56 in a state where metallic foreign matter is filtered. It is introduced into).

That is, the present invention does not filter out foreign substances contained in the processing oil in the same manner as the bag filter, which is a conventional general filtering equipment, and removes the foreign substances mixed in the processing oil by magnetic force in a state in which the magnetic plates 52 and 54 are immersed in the processing flow rate. Adsorption and removal allow permanent filtering while magnetism occurs without the need for additional maintenance, such as replacement of filters.

The magnetic adsorption unit 50 has the same structure so that a plurality of the magnetic adsorption unit 50 may be disposed at the lower end of the housing 30 to increase its adsorption efficiency.

The cleaner 60 is a means for scraping off and removing a predetermined amount of metallic foreign matter on the inner surfaces of the magnetic plates 52 and 54 constituting the magnetic attraction unit 50.

The cleaner 60 is coupled to the cylinder 62 installed on the upper end of the tank 10, the rod 64 of the cylinder 62, and a passage between the magnetic plates 52 and 54 of the magnetic suction unit 50. Both sides are in contact with the inner surfaces of the magnetic plates 52 and 54 in the state of being positioned at 56, and are moved up and down by the power of the cylinder 62 and adsorbed to the inner surfaces of the magnetic plates 52 and 54. It consists of the scraper 66 which scrapes and removes the metallic foreign material which is made.

The metallic foreign matter dropped from the magnetic plates 52 and 54 by the cleaner 60 is mixed with the processing oil stored in the tank 10 again. At this time, the metallic foreign matter mixed with the processing oil floats the processing flow rate without being agglomerated. In the pumping operation of the pump 40, the magnetic plates 52 and 54 are again adsorbed and separated from the processing oil.

The cleaner 60 is preferably installed separately for each adsorption unit 50, and the scraper 66 constituting the cleaner 60 has a passage hole 32 and the magnetic force of the housing 30. It is preferable to configure so that the connection hole 68 which connects the passage 56 of the adsorption | suction part 50 is formed.

In the process oil purification apparatus of the present invention configured as described above, after the process oil is stored in the storage space 12 of the tank 10, the pump 40 is driven and pumps the process oil into the internal space 32 of the housing 30. In this case, the processing oil is purged in a state in which the metallic foreign matter contained in the processing oil is filtered in the course of passing through the magnetic adsorption portion 50 of the housing 30, and then flows into the space 32 of the housing 30. .

That is, when the pumping operation of the pump 40 starts, the processing oil stored in the tank 10 is included in the processing oil in the process of passing through the passage 56 between the magnetic plates 52 and 54 of the magnetic suction unit 50. The metallic foreign matter is adsorbed on the inner surfaces of the magnetic plates 52 and 54, and then the processing oil from which the foreign matter is removed is transferred to the internal space 32 of the housing 30 through the through hole 34 of the housing 30. Inflow. The processing oil introduced into the space 32 of the housing 30 is discharged to the place of use (machine tool or clean tank) through the discharge pipe 42 according to the pumping operation of the pump 40.

On the other hand, when a predetermined amount or more of metallic foreign matter is adsorbed and accumulated on the inner surfaces of the magnetic plates 52, 54 during the process of purifying the process oil as described above, the cylinder 62 constituting the cleaner 60 is driven and the scraper 66 As a result, the metallic foreign matter adsorbed on the inner surfaces of the magnet plates 52 and 54 is separated from the magnet plates 52 and 54, and then the processing oil stored in the storage space 12 of the tank 10 is stored. The foreign matter mixed in the processing oil and the inside of the magnetic plates 52 and 54 while the processing oil flows into the inner space 32 of the housing 30 by the pumping operation of the pump 40 again in the process of floating the processing flow rate. It is adsorbed again to and separated from the process oil.

10 tank 20 filtering means
30: housing 40: pump
50: magnetic attraction portion 52, 54: magnetic plate
56: passage 60: cleaner
66: scraper

Claims (2)

In the processing oil purification device for removing and purifying the metallic foreign matter contained in the processing oil,
A tank having a storage space for storing the processed oil;
A housing fixedly installed on an upper plate of the tank and having a space provided therein and at least one through hole formed at a lower end thereof;
A pump installed at an upper end of the housing and driven by a power applied from the outside and flowing processing oil stored in the tank into the space of the housing through the through hole;
It is installed at the lower end of the housing and has a different polarity and is composed of a pair of magnetic plates arranged to face each other with a passage communicating with the passage hole in the center to pass through the passage according to the pumping operation of the pump And a magnetic adsorption portion for adsorbing metallic foreign matter contained in the processing oil on the inner surface of the magnetic plate. The method of claim 1,
And a scraper is installed in the passage of the magnetic suction part and includes a scraper that moves up and down by the power of a cylinder and scrapes and removes metallic foreign substances adsorbed on the inner surface of the magnetic plate.

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