KR100785124B1 - Purification device and controlling method thereof and purification system - Google Patents

Abstract

A purifier, a controlling method thereof, and a purification system are provided to separate and purify the contaminated oil through a plurality of back filters, to minimize a reduction phenomenon of the oil flow rate, and to maximize the replacement period of the back filters by self-cleaning the back filters consecutively. A purifier(100) comprises a housing(110), a boundary film(130), a plurality of back filters(120,121), a pollutant discharging device(140), and a position determining driving device(150). The housing is formed with an inlet(111) and an outlet(112) of the contaminated oil. The boundary film has a plurality of through holes(131). Suction holes(120a) of the back filters are connected with the through holes of the boundary film. The back filters separate the pollutants in the contaminated oil and discharges the filtered oil separated from the pollutants to the outside. One side of the pollutant discharging device is communicated with the suction holes of the back filters, and the other side of the pollutant discharging device is communicated with the outside. The position determining driving device moves the pollutant discharging device selectively. The pollutant discharging device includes a pollutant discharging pipe(141), and a valve(142).

Description

Purifier and its control method and purification system

1 is a configuration diagram schematically showing a purifier according to the prior art.

Figure 2 is a schematic diagram showing a purification system according to the present invention.

3 is a configuration diagram schematically showing a purifier according to the present invention.

Explanation of symbols on the main parts of the drawings

100: purifier 110: housing

111: inlet 112: outlet

120: bag filter 120a: suction port

121: bag filter for margin 130: membrane

131: through hole 140: pollutant discharge device

141: contaminant discharge pipe 142: valve

150: positioning drive 160: pressure gauge

200: contaminated oil storage tank 300: filtered oil storage tank

400: contaminated oil supply pump 500: filtered oil supply pump

The present invention relates to a purifier, and more particularly, to improve the structure of the purifier, to minimize clogging of the bag filter and to increase the replacement period of the bag filter to the maximum, thereby improving workability and improving the operation rate of the equipment connected to the purifier. And a control method thereof.

In metal processing processes such as rolling / drawing / cutting / grinding, a very high frictional force is applied between the metal to be worked on and the machine tool, thereby improving the lubricity between the metal to be worked on and the high friction heat generated during the friction process. For this purpose, processed oils of oil emulsion type (oil emulsion type) having excellent lubricity and cooling properties such as rolling oil / drawing oil / cutting oil / grinding oil are used.

Once used, the processing oil is recycled and reused. After a few recycling, the processing oil adds contaminants (impurities) such as oxide scale, metal chips, dust, and dirt to the processing oil. These contaminants change the physicochemical properties of the processed milk and eventually adversely affect the quality.

Therefore, there is a need for a system for removing contaminants in order to use the processed oil for a longer time.

Hereinafter, a refiner according to the related art will be described with reference to the accompanying drawings.

1 is a configuration diagram schematically showing a purifier according to the prior art.

As shown in FIG. 1, the refiner according to the related art includes a housing 1 having an inlet port 1a through which contaminated oil is introduced and an outlet port 1b through which filter oil from which contaminants are separated is discharged, and the inlet port 1a and A bag filter (2) having a communication suction inlet (2a), a discharge pipe (3) installed in communication with a lower portion of the housing (1) to discharge contaminants attached to the inside of the bag filter (2) to the outside, and It consists of a pressure gauge 5 for measuring the internal pressure of the housing 1.

Here, the discharge pipe (3) is provided with a valve (4) for opening and closing the flow path of the discharge pipe (3).

The bag filter 2 is formed in a cylindrical shape having a mesh structure.

The purification process of the refiner configured as described above is as follows.

The contaminated oil discharged from the production facility is introduced into the housing 1 through the inlet 1a and also into the bag filter 2.

The contaminants introduced into the bag filter 2 pass through the inside of the bag filter 2 to the outside, and contaminants are separated, and the filter oil from which the contaminants are separated is discharged to the outside of the bag filter 2. The outlet 1b of the housing 1 is fed back to the production facility.

By repeating the above process, the contaminated oil is purified to produce filtered oil, and the produced filtered oil is continuously supplied to the production equipment.

At this time, the foreign matter is attached to the mesh of the bag filter 2 as the refining process is repeated, the pressure inside the housing 1, that is, the bag filter 2 is increased by the clogging phenomenon.

Thus, when the pressure difference between the pressure inside the bag filter 2 and the external atmosphere reaches approximately 1.5 to 2 bar, the pressure gauge 5 senses this and the valve 4 installed in the discharge pipe 3. Will open.

Then, a cutting oil flow is generated from the inside of the bag filter 2 toward the outside atmosphere by a pressure difference between the pressure inside the bag filter 2 and the outside atmosphere, and the cutting oil flow is generated inside the bag filter 2 by the cutting oil flow. The remaining contaminants are discharged to the outside through the discharge pipe (3).

At this time, the valve 4 is opened for a predetermined time and then closed again to block the flow path of the discharge pipe (3).

However, the conventional refiner configured as described above has the following problems.

As the purification process is repeated, contaminants are continuously accumulated in the bag filter, and it is difficult to discharge all of the contaminants to the outside even in the process of discharging contaminants through the discharge pipe.

In such a case, the bag filter needs to be replaced, and since the replacement cycle of the bag filter is usually 7 to 20 days, the operation of the purifier is expensive due to frequent replacement of the bag filter, and the operation is inconvenient.

In the process of discharging contaminants through the discharge pipe as described above, as the filtered oil which has been purified together with the contaminant is excessively discharged at the same time, the flow rate is greatly reduced, and clean operation oil must be newly supplied by the reduced flow rate. There was a problem that the operation rate of the facility is lowered because the operating equipment is stopped.

The present invention is to solve the above problems, by improving the structure of the purifier to minimize the clogging of the bag filter and to increase the replacement cycle of the bag filter to the maximum to improve the workability and improve the operation rate of the equipment connected to the purifier It is an object of the present invention to provide a purifier and a control method thereof.

According to one embodiment of the present invention for achieving the above object, a housing formed with an inlet for the contaminated oil is introduced and an outlet for the filtered oil is discharged; A boundary membrane disposed to partition the inner space of the housing up and down and having a plurality of through holes formed therein; A plurality of bag filters, each of which is connected to a through hole of the boundary membrane and separates contaminants contained in contaminated oil introduced therein through the inlet and discharges the filtered oil from which contaminants are separated; A contaminant discharge device in which the suction port of the plurality of bag filters and one side thereof are selectively communicated, and the other side thereof is in communication with the outside; And a positioning driving device for selectively moving the contaminant discharge device such that one side of the contaminant discharge device selectively communicates with at least one suction port of the suction ports of the plurality of bag filters.

Here, the inlet is formed in the lower portion of the housing, the outlet is characterized in that formed in the upper portion of the housing.

The bag filter may be formed in a circular rod shape having a mesh structure.

In addition, the bag filter is characterized in that formed of stainless steel.

The purifier may further include a pressure gauge for detecting a pressure inside the housing.

The pollutant discharge device may further include a pollutant discharge pipe configured to selectively communicate with a suction port of the plurality of bag filters and one side thereof, and the other side thereof to communicate with the outside; And a valve installed on the pollutant discharge pipe to open and close a flow path of the pollutant discharge pipe.

In addition, the positioning drive device, one side of the pollutant discharge device is characterized in that it is selectively communicated with at least one inlet of the inlet of the plurality of bag filters, it characterized in that it is operated to communicate sequentially.

On the other hand, according to another aspect of the present invention for achieving the above object, a housing formed with an inlet and an outlet, a boundary membrane provided to partition the inner space of the housing up and down and formed with a plurality of through holes, and the boundary A plurality of bag filters each having a suction port connected to the through hole of the membrane, a suction device of the suction port of the plurality of bag filters and one side of which are selectively connected, and the other side of which is connected to the outside, and the contamination discharge device selectively A control method of a purifier comprising a positioning drive device for moving and a pressure gauge for sensing a pressure in the housing, the method comprising: filtering contaminated oil with the plurality of bag filters; Sensing the internal pressure of the housing with the pressure gauge; And discharging contaminants of the plurality of bag filters to the outside through the contaminant discharge device according to the sensed pressure.

Here, when the internal pressure of the housing is higher than the set pressure, the pollutant discharge device is characterized in that the operation.

The pollutant discharging device is operated to open the flow path when the internal pressure of the housing is equal to or greater than a set pressure, thereby discharging the pollutant to the outside by a difference between the internal pressure of the housing and the external pressure of the housing. It is done.

In addition, the pollutant discharge device is characterized in that by the positioning drive device is sequentially communicated with the plurality of bag filters.

On the other hand, according to another aspect of the present invention for achieving the above object, a contaminated oil storage tank that is contaminated oil is received through the installation; A housing having an inlet through which contaminated oil is introduced from the contaminated oil storage tank and an outlet through which filter oil separated from contaminants is discharged; A boundary membrane disposed to partition the inner space of the housing up and down and having a plurality of through holes formed therein; A plurality of bag filters, each of which is connected to a through hole of the boundary membrane and separates contaminants contained in contaminated oil introduced therein through the inlet and discharges the filtered oil from which contaminants are separated; A contaminant discharge device in which the suction port of the plurality of bag filters and one side thereof are selectively communicated, and the other side thereof is in communication with the outside; A positioning driving device for selectively moving the pollutant discharge device such that one side of the pollutant discharge device selectively communicates with at least one suction port of the plurality of bag filters; And a filtration oil storage tank in which the filtration oil discharged through the outlet of the housing is accommodated.

The refining system further includes a contaminated oil supply pump for supplying contaminated oil from the contaminated oil storage tank to the interior of the housing, and a filtration oil supply pump for supplying filtered oil from the filtration oil storage tank to the facility. It is done.

In addition, the positioning driving device is characterized in that one side of the pollutant discharge device is selectively communicated with at least one inlet of the inlets of the plurality of bag filters, it is operated to communicate sequentially.

Hereinafter, a refiner and a control method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to Figure 2 will be described in detail with respect to the purification system to which the purifier according to the present invention is applied.

Figure 2 is a schematic diagram showing a purification system according to the present invention.

As shown in FIG. 2, the refining system to which the refiner according to the present invention is applied includes a contaminated oil storage tank 200 in which contaminated oil is introduced and received through a production facility, and contaminants introduced from the contaminated oil storage tank 200. A refiner 100 for separating contaminants contained in the oil and discharging the filtered oil from which the contaminants are separated to the outside, a filtered oil storage tank 300 in which the filtered oil discharged from the refiner 100 is accommodated, and storing the contaminated oil A contaminated oil supply pump 400 for supplying contaminated oil from the tank 200 to the refiner 100, and a filtered oil supply pump 500 for supplying filtered oil from the filtered oil storage tank 300 to the production facility. It is configured to include).

Next, the refiner will be described in more detail with reference to FIG. 3.

3 is a configuration diagram schematically showing a purifier according to the present invention.

As shown in FIG. 3, the refiner 100 according to the present invention includes a housing 110 having an inlet 111 through which contaminated oil is introduced and an outlet 112 through which filtered oil is discharged, and the interior of the housing 110. The suction port 120a is connected to the boundary membrane 130 provided to partition the space up and down and the plurality of through holes 131 and the through hole 131 of the boundary membrane 130, respectively. A plurality of bag filters 120 separating the contaminants contained in the contaminated oil introduced into the through and discharging the filtered oil from which the contaminants are separated, and the suction ports 120a of the plurality of bag filters 120. ) And one side of the pollutant discharge device 140 and the other side thereof in communication with the outside, and one side of the pollutant discharge device 140 is at least one of the suction port 120a of the plurality of bag filters 120 The pollutant discharge device 140 to selectively communicate with the inlet of the It is configured to include a positioning drive for moving the optional device 150.

Here, the inlet 111 is formed in the lower portion of the housing 110, the oil outlet 112 is formed in the upper portion of the housing 110.

In addition, the bag filter 120 is formed in a circular rod shape of a mesh structure, it is preferably formed of a stainless steel material to prevent corrosion.

The purifier 100 may further include a pressure gauge 160 for detecting a pressure in the housing 110.

In addition, the pollutant discharge device 140, the inlet port (120a) of the plurality of bag filters 120 and the one side of the pollutant discharge pipe 141 and the other side is in communication with the external atmosphere and the pollutant discharge pipe It is provided on the 141 and comprises a valve 142 for opening and closing the flow path of the pollutant discharge pipe 141.

In addition, the positioning driving device 150 may include one side of the pollutant discharge device 140, that is, the pollutant discharge pipe 141 may be selectively provided to at least one suction port of the suction ports 120a of the plurality of bag filters 120. While communicating, the pollutant discharge pipe 141 is moved so as to communicate sequentially.

Referring to the purification process of the refiner configured as described above in more detail as follows.

When the contaminated oil flows into the housing 110 from the contaminated oil storage tank 200 through the contaminated oil supply pump 400, the plurality of bag filters through the plurality of through holes 131 of the boundary membrane 130. The contaminated oil flows into each of the 120.

At this time, the plurality of bag filters 120 may be provided with approximately six as shown in Figure 3, in this case, one bag filter 121 is set as a spare bag filter of the dirt discharge pipe 141 and To communicate.

Then, the contaminated oil is supplied to the remaining bag filter except for the bag filter 121 of the excess of the plurality of bag filters 120, and the contaminated oil supplied to the bag filter 120 is external from the inside of the bag filter 120. Contaminants are separated while passing through the clean filter oil is supplied to the filter oil storage tank 300 through the outlet 112 of the housing 110 and stored.

As the above purification process is repeated, a clogging phenomenon occurs in which contaminants adhere to the meshes of the plurality of bag filters 120, thereby increasing the internal pressure of the housing 110.

At this time, the pressure gauge 160 provided in the housing 110 detects this and performs a self-cleaning process of the refiner 100.

That is, when the pressure measured by the pressure gauge 160 is greater than or equal to the set pressure, the pollutant discharge device 140 is operated to perform a self-cleaning process.

In the self-cleaning process, first, the valve 142 provided in the pollutant discharge pipe 141 connected to the spare bag filter 121 of the plurality of bag filters 120 is opened to discharge the pollutants to the outside by the pressure difference.

Then, the contaminant discharge pipe 141 is sequentially moved to another bag filter 120 through the positioning driving device 150 to repeat the self cleaning process.

As such, the flow rate of the contaminated oil flowing into the refiner 100 is separated and purified by the plurality of bag filters 120, and the plurality of bag filters 120 are sequentially subjected to a self-cleaning process during self-cleaning. By minimizing this reduction and maximizing the replacement cycle of the bag filter 120, it is possible to reduce the operating cost of the purifier 100, improve the workability, and minimize the downtime of the production equipment to improve the equipment operation rate.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and various substitutions, modifications, and changes within the scope of the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It will be possible, but such substitutions, changes and the like should be regarded as belonging to the following claims.

The effects of the present invention configured as described above are as follows.

According to the purifier according to the present invention, the flow rate of the contaminant oil flowing into the purifier is separated and purified by a plurality of bag filters, and when the self cleaning is performed, the flow rate decreases as the plurality of bag filters are sequentially self-cleaned. By minimizing and maximizing the replacement cycle of the bag filter, it is possible to reduce the operation cost of the refiner, improve the workability, and minimize the downtime of the equipment, thereby improving the equipment operation rate.

Claims (14)

A housing having an inlet through which contaminated oil is introduced and an outlet through which filtered oil is discharged; A boundary membrane disposed to partition the inner space of the housing up and down and having a plurality of through holes formed therein; A plurality of bag filters, each of which is connected to a through hole of the boundary membrane and separates contaminants contained in contaminated oil introduced therein through the inlet and discharges the filtered oil from which contaminants are separated; A contaminant discharge device in which the suction port of the plurality of bag filters and one side thereof are selectively communicated, and the other side thereof is in communication with the outside; And A positioning driving device for selectively moving the pollutant discharge device such that one side of the pollutant discharge device selectively communicates with at least one suction port of the plurality of bag filters; Purifier comprising a. The method of claim 1, The inlet is formed in the lower portion of the housing, the outlet is a purifier, characterized in that formed in the upper portion of the housing. The method of claim 1, The bag filter is a refiner, characterized in that formed in the shape of a circular rod of a mesh structure. The method according to claim 1 or 3, The bag filter is characterized in that the purifier is formed of a stainless material. The method of claim 1, And a pressure gauge for sensing the pressure inside the housing. The method of claim 1, The pollutant discharge device, A contaminant discharge pipe selectively connected to one of the suction ports of the plurality of bag filters, and the other side thereof to communicate with the outside; And And a valve installed on the pollutant discharge pipe to open and close a flow path of the pollutant discharge pipe. The method of claim 1, The positioning drive device, One side of the pollutant discharge device is selectively in communication with at least one inlet of the inlet of the plurality of bag filters, characterized in that the purifier is operated so as to communicate sequentially. A housing having an inlet and an outlet formed therein, a boundary membrane provided to partition the inner space of the housing up and down, and a plurality of through holes formed therein; a plurality of bag filters each having a suction port connected to the through hole of the boundary membrane; The intake port of the two bag filters and one side thereof selectively communicate with each other and the other side thereof with the outside, a positioning drive device for selectively moving the pollutant discharge device, and a pressure gauge for sensing the pressure inside the housing In the control method of a refiner comprising: Filtering the contaminated oil with the plurality of bag filters; Sensing the internal pressure of the housing with the pressure gauge; And Discharging contaminants of the plurality of bag filters to the outside through the contaminant discharge device according to the sensed pressure; Control method of a purifier comprising a. The method of claim 8, And the contaminant discharge device is operated when the internal pressure of the housing is equal to or higher than a set pressure. The method according to claim 8 or 9, The pollutant discharge device is operated so that the flow path is opened when the internal pressure of the housing is equal to or greater than a set pressure, thereby discharging the pollutant to the outside by a difference between the internal pressure of the housing and the external pressure of the housing. Control method of the purifier. The method of claim 8, And the pollutant discharge device is sequentially communicated with the plurality of bag filters by the positioning drive device. Polluted oil storage tank in which polluted oil is introduced through the facility; A housing having an inlet through which contaminated oil is introduced from the contaminated oil storage tank and an outlet through which filter oil separated from contaminants is discharged; A boundary membrane disposed to partition the inner space of the housing up and down and having a plurality of through holes formed therein; A plurality of bag filters, each of which is connected to a through hole of the boundary membrane and separates contaminants contained in contaminated oil introduced therein through the inlet and discharges the filtered oil from which contaminants are separated; A contaminant discharge device in which the suction port of the plurality of bag filters is selectively communicated with one side thereof, and the other side thereof communicates with the outside; A positioning driving device for selectively moving the pollutant discharge device such that one side of the pollutant discharge device selectively communicates with at least one suction port of the plurality of bag filters; And A filter oil storage tank in which the filter oil discharged through the outlet of the housing is accommodated; Purification system comprising a. The method of claim 12, Refining system further comprises a contaminated oil supply pump for supplying contaminated oil from the contaminated oil storage tank into the housing, and a filtration oil supply pump for supplying filtered oil from the filtration oil storage tank to the facility. . The method of claim 12, The positioning drive device, One side of the pollutant discharge device is selectively communicated with at least one inlet of the inlet of the plurality of bag filters, characterized in that the sequential communication is operated.

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