KR20220114245A - Equipment for purifying cutting sludge by using vacuum - Google Patents

Abstract

The present invention relates to a cutting sludge filtering device using a vacuum. According to the present invention, a filtering device (20) installed in a case (10) to filter supplied cutting sludge is connected to a cutting oil tank (40) and a supply pipe (120), and the filtering device (20) and an oil pump (30) are connected through a discharge pipe (130) to drive the oil pump (30) so that the filtering device (20) forms a vacuum and sucks the cutting sludge to filter cutting chips and impurities mixed in the cutting sludge, thereby capable of performing recycling.

Description

Cutting sludge filtering device using vacuum {Equipment for purifying cutting sludge by using vacuum}

The present invention relates to a device for filtering the cutting sludge of a machine tool, and by improving the machine tool coolant recovery device using a vacuum pre-registered by the applicant of the present application, cutting the workpiece in various machine tools including lathes, milling, CNC, etc. It relates to a cutting sludge filtering device using a vacuum that removes chips remaining in the cutting sludge used for processing, recycles it at a high recovery rate, and reuses it, thereby obtaining economic effects such as treatment cost associated with waste oil treatment. .

Cutting oil is used for cutting metal.

Cutting oil is a metal processing fluid used in metal processing such as cutting, grinding, grinding, drawing, pressing, and rolling. , by suppressing build-up edges or discharging chips quickly to improve the dimensional accuracy of the machined part and extend the tool life, and to prevent rust on the machined surface, such as bites or cutters The cutting tool is supplied to the machining area in contact with the cutting target.

Since this coolant is discharged as a mixture of large and small chips and fine cuttings, if reused, the chips and cuttings act on the machining surface, so machining efficiency is reduced, including machining defects. They are thrown away because they cannot be retrieved.

In general, in cutting machining, a large amount of coolant is used as the coolant is continuously supplied to the machining surface in contact with the tool, so the cost of the coolant that cannot be recovered is relatively high. In addition, a large amount of waste cutting oil causes economic losses due to waste oil treatment.

Therefore, there is a need for a means for filtering and recovering the cutting sludge and recycling it.

A device for allowing the used cutting oil to be reused has been proposed.

An example of the proposed device was disclosed in Korean Patent No. 0743899 'a multifunctional vacuum cleaner that removes sediment in a coolant tank and simultaneously separates waste oil such as machine lubricating oil'.

This device collects the sediment by a scraper conveyor and separates the sediment and insoluble fluids contained in the clean water-soluble cutting oil through two-stage filtration process of drum filter and turbo filter. A scrapper-type conveyor that collects deposits such as metal chips is installed on one side, and a drum filter, a turbo filter, and a plurality of specific gravity separators are installed in an inclined manner on the other side, and a clean cutting oil collection room and a waste oil collection room are installed in front of it. It is possible to prevent environmental pollution by separating and collecting waste oils such as non-water-soluble machine lubricating oil, grease, and rust-preventing oil contained in water-soluble cutting oil by specific gravity difference.

Such a device has a complex structure in which a scrapper-type conveyor, drum filter, turbo filter, and a number of specific gravity separators are installed, and since it has to be installed directly inside the machine tool, there is a limitation that it cannot be applied to the existing machine tools.

Another example of the device is disclosed in Korean Patent No. 1327183 'Machine tool cutting oil filtering device using a vortex'.

The device includes a cutting oil supply device that connects the oil supply pipe for supplying the cutting oil to the pump from the coolant tank in which the filtered coolant is supplied to the discharge pipe and a vortex generator is installed with a plurality of vortex generating nozzles installed to generate vortex; A level gauge and a solenoid valve are installed in a filtration tank coupled with a lid for installing a refueling pipe coupled with a filtration supply pipe connected to the pump, and a cutting oil storage space and a filter installed between the perforated plate in the filtration tank. In the cutting oil filtering device for a machine tool using a vortex formed by a cutting oil filtering device separated by a storage space and having a discharge pipe connected to an outlet installed at the lower side of the filtered oil storage space, the cutting oil supply device is a discharge pipe for supplying filtered cutting oil In this dispersion elbow, it is connected to a vortex generator that forms a plurality of vortex generating nozzles to generate a vortex in the coolant tank, the coolant filtering device is equipped with a level gauge and a solenoid valve in the filtration tank, and the solenoid valve has a sliding oil supply pipe It is connected to a sewage separator to separate oil and water. In the sewage separator, a sliding oil discharge pipe and a water supply pipe are connected, and the water supply pipe is connected to a cutting oil tank.

Such a device mixes coolant and cutting chips mixed with coolant in the supply tank and supplies it to a filtering device that can filter, receives and circulates the filtered coolant again to supply high-quality coolant. Since a pump is installed between the coolant and the coolant filter, and the coolant from the cutting oil tank is supplied to the coolant filter by the suction negative pressure of the pump, foreign substances mixed with the coolant flow directly into the pump, which is highly likely to cause pump failure.

In addition, the filtration efficiency of the cutting oil flowing into the cutting oil filtering device was relatively low because it was introduced by the discharge pressure of the pump and the free fall method of the cutting oil.

In addition, the state of the cutting oil filtering device could only check the internal pressure by the pressure gauge installed in the cutting oil storage device, and no means for visually checking the internal condition of the cutting oil filtering device was provided.

Another example of a jigchi that recovers and filters the cutting sludge discharged from the machine tool so that it can be reused is the Republic of Korea Utility Model Registration No. 20-0489987, 'Machine tool cutting oil purification and recovery device using vacuum', previously registered by the applicant of the present application. is known

In this device, as shown in FIG. 1, the screen 220 for accommodating the filtering net 210 is fixed to the main body 200 by a detachable fixing means, and the lid 230 on the upper part of the main body 200 is the primary filtering net. It is rotatably opened and closed in the main body 200 while having an observation part in which a see-through window 234 is formed so that the 210 can be visually confirmed, and the fixing means is formed with a step portion in which the screen 220 is formed vertically and downwardly. At least two fixing protrusions 225 are formed in the vertical downward direction on the step portion, and the fixing protrusions 225 are inserted into the annular protrusion rim 203 protruding inwardly from the inner circumferential surface of the main body 200 . A fixing means in which the fixing groove 204 is formed is provided.

This device removes the chips remaining in the cutting oil used for processing parts in various machine tools, and by recycling them at a high recovery rate and reusing them, it is intended to obtain an economic effect that can reduce the treatment costs associated with the treatment of waste oil. .

)보다 작게 형성되어 패킹(233)이 뚜껑(230)의 상부면에 밀착되게 되는 구조로, 그 구조가 복잡하여 생산성이 저하되는 것이었다, 또한, 투시창(234)이 형성되는 관찰부(231)가 뚜껑의 중앙에 일부분으로 형성되어 여과망을 관찰하기에 불편하였고, 본체(200)에 회전 가능하게 개폐되는 뚜껑은 본체(200)에 매달려 있는 상태에서 여과망을 교환하거나 본체(200) 내부를 청소할 경우 거추장스러운 요소가 된다.However, the observation part formed so that the primary filter network 210 can be visually confirmed is formed with a see-through hole 232 in which the center of the lid 230 is opened, and an outer peripheral surface formed to be larger than the inner peripheral surface of the see-through hole 232 . A packing groove 238 in which the packing 233 is accommodated is formed with a see-through window 234 that is closely fixed to the upper surface of the lid 230, and the depth (d) of the packing groove 238 is the Diameter of packing (233) (

) is formed smaller than the packing 233 is in close contact with the upper surface of the lid 230, the structure is complicated and the productivity is reduced, In addition, the observation part 231 in which the see-through window 234 is formed is the lid It is inconvenient to observe the filter net as it is formed in the center of the body 200, and the lid rotatably opened and closed on the main body 200 is cumbersome when exchanging the filter net or cleaning the inside of the main body 200 while hanging from the main body 200 become an element

In addition, in the fixing means for fixing the screen 220, at least two fixing protrusions 225 are formed in the vertical direction in the step portion while a step portion is formed at which the screen 220 is formed vertically, and the main body 200 is formed. It has a structure in which a fixing groove 204 into which the fixing protrusion 225 is inserted is formed in the annular protruding frame 203 protruding from the inner circumferential surface of the There was a problem of inconvenient use.

In addition, as shown in FIG. 2 , as the connection pipe 72 connecting the main body 200 in which the filtering network 210 is installed and the oil pump 30 is coupled to the lower end of the main body 200, the direction of the cutting oil recovery pipe is changed. As this is necessary, as the elbow 300 is used more than the straight pipe type recovery pipe, it takes a lot of pipe parts, and there is a problem that the pipe structure is complicated.

Therefore, there is a need for a cutting sludge filtering device capable of solving the above problems by a more improved structure.

KR 10-0743899 B1 (2007. 08. 01.) KR 10-1327183 B1 (2013. 11. 20.) KR 20-0489987 Y1 (2019. 09. 05.)

The present invention removes chips and fine chips remaining in the cutting sludge used for processing parts in various machine tools, and recycles them at a high recovery rate and reuses them. An object of the present invention is to provide a sludge filtering device.

Another object of the present invention is to prevent chips or fine cuttings from flowing into the oil pump by a system in which a filtration device is disposed between the storage tank and the oil pump, thereby preventing damage to the oil pump, multiple screens and An object of the present invention is to provide a cutting sludge filtering device using a vacuum that can easily install the multi-screen by simplifying the installation structure of the multi-screen.

Another object of the present invention is to form a vacuum chamber in the filtering device by the suction negative pressure of the oil pump by a system in which a filtering device is disposed between the storage tank and the oil pump, so that the cutting oil is forcibly sucked from the storage tank and flows from the top to the bottom. An object of the present invention is to provide a cutting sludge filtering device using a vacuum that can increase processing capacity while effectively removing chips and fine cutting particles mixed in cutting sludge through a moving filtration path.

Another object of the present invention is to make it possible to visually confirm the process of filtering the cutting sludge from the outside, so that it is possible to check whether there is an abnormality during operation, and it is possible to estimate the replacement time of the filtering device, thereby improving the reliability of the machine tool. To provide a cutting oil filtration and recovery device of

In particular, the present invention is a cutting sludge using a vacuum of an improved structure that solves the above problems found in the Republic of Korea Registered Utility Model No. 20-0489987 'a machine tool cutting oil purification and recovery device using a vacuum' pre-registered by the applicant of the present application It is intended to provide a filtration device.

A technical feature for achieving the intended object of the present invention is a cutting sludge filtering device that can be reused by having a filtering device that pumps and filters the cutting sludge from a cutting oil tank in which the cutting sludge discharged from the machine tool is stored. , a case, and a filtration device installed in the case to filter the supplied cutting sludge, wherein the cutting oil tank is connected to the filtration device and the supply pipe, and the filtration device and the oil pump are connected to the discharge pipe to drive the oil pump It is characterized in that a vacuum chamber is formed in the filtering device, and the cutting chips, impurities, and lubricants mixed in the cutting sludge can be filtered and recycled.

According to the characteristic configuration of the present invention, while the case is manufactured by injection molding, the supply pipe and the discharge pipe are formed horizontally from the outer circumferential surface of the case.

According to the characteristic configuration of the present invention, the case is injection-molded in a cylindrical shape, the lower end is formed in a curved surface to reduce the molding stress, and the upper end is opened, characterized in that the lid is fixed.

According to a characteristic configuration of the present invention, the lid is formed so that the entire upper surface is transparently formed so that the inside of the case can be seen through, it is characterized in that it is detachably fixed with a V-clamp in a state separated from the case.

According to a characteristic configuration of the present invention, the filtering device includes: a first filter accommodated in the main body, the upper portion of which is opened so that the cutting sludge is introduced from the supply pipe; a second filter having an open top to accommodate the first filter; The third filter accommodating the second filter by opening the upper part is characterized in that the third filter is sequentially formed.

According to the characteristic configuration of the present invention, the first filter is formed as a conical perforated plate having an inverted triangular shape that gradually becomes narrower toward the bottom of the first filter, so that the fine chips and impurities of the cutting sludge are collected as they go down the conical inclined surface, and the second filter is collected. It is characterized in that the clogging of the filter mesh is reduced by being piled up from the central part of the filter .

According to the characteristic configuration of the present invention, the second filter has a small mesh having a filtration rate lower than that of the first filter, and the third filter is formed to have a small mesh having a filtration rate lower than that of the second filter. It is characterized in that it is filtered.

According to the present invention, as the case is injection molded and manufactured, the supply pipe and the discharge pipe are formed horizontally from the outer circumferential surface of the case, so that the pipe connecting the supply pipe and the discharge pipe is formed as a straight pipe to form a pipe connection part such as an elbow. By minimizing it, the structure of the pipe can be simplified.

In addition, while the case is injection-molded in a cylindrical shape, the lower end is formed with a curved surface to reduce molding stress, so that structural durability can be improved.

In addition, the lid is completely separated from the case and is detachable, and the entire lid is formed to be transparent, so that it is possible to sufficiently check the filtration state of the sludge inside the case.

In addition, as the filtration device is composed of a first filter, a second filter, and a third filter, these filters are gradually formed to have a small mesh with a low filtration rate to improve the sequential filtration effect of the sludge, In the filter, fine chips and impurities are concentrated in the central portion and filtered to prevent clogging in the second filter.

According to the present invention, by removing chips and fine cutting particles remaining in the cutting sludge used for processing parts in various machine tools, recycling them at a high recovery rate and reusing them, an economic effect that can reduce the treatment costs associated with waste oil treatment can enjoy

In addition, by the system in which the filtration device is disposed between the storage tank and the oil pump, it is possible to prevent chips or fine cuttings from flowing into the oil pump, thereby preventing damage to the oil pump, and the multi-screen and the multi-screen By simplifying the installation structure, there is an effect that multiple screens can be installed easily.

In addition, a filtration device is disposed between the storage tank and the oil pump so that a vacuum chamber is formed in the filtration device, so that the cutting sludge is forcibly sucked into the storage tank, moves from the top to the bottom, and is mixed with the cutting sludge through the filtration path. As the fine cutting particles are effectively removed, there is an effect of increasing the processing capacity.

In addition, by making it possible to visually check the process in which the cutting sludge is filtered, it is possible to check whether there is an abnormality during operation, and it is possible to estimate the replacement time of the filter filter, thereby improving the reliability of the device.

1 is a cross-sectional view showing a conventional cutting oil filtering device
Figure 2 is a system getonggo of the conventional cutting oil filtering device
3 is a system schematic diagram of the present invention;
4 is an exploded perspective view showing an embodiment of the present invention;
5 is a cross-sectional view of the present invention;

The features and advantages of the present invention will be more clearly understood by the embodiments described by the accompanying drawings.

The terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and in order for the inventor to explain the terms and concepts of the invention in the best way, it should be consistent with the technical idea of the present invention. It should be interpreted as written based on the meaning and concept.

In addition, the descriptions and drawings described in this specification relate to one most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so they can be substituted at the time of the present application It should be understood that there may be various equivalents and modifications.

Therefore, the present invention is not limited to the presented embodiments, and by those of ordinary skill in the art to which the present invention belongs, the technical spirit of the present invention and equivalent scope of the technical idea described in the claims to be described below Various modifications and changes are possible within.

Next, an embodiment of the present invention will be described.

Figure 3 is a system schematic diagram of the present invention, Figure 4 is an exploded perspective view showing an embodiment of the present invention, Figure 5 shows a cross-sectional view of the present invention.

3 to 5 , the cutting sludge filtering device using vacuum according to an embodiment of the present invention includes a case 10 , a filtering device 20 , an oil pump 30 , and a recovery tank 40 .

The case 10 is formed into a cylindrical shape elongated vertically while being injection-molded with plastic, and the lower end is formed in a curved surface curved to reduce molding stress, and the upper end is opened so that the filtering device 20 can be installed, and the lid 110 is fixed to form an enclosed space.

The lid 110 is injection-molded with plastic to form a curved upwardly curved surface, and the entire upper surface is made of a transparent material so that the inside of the case 10 can be looked inside, and the V-clamp 160 makes the case It becomes detachable in (10).

Since the V-clamp 160 has a well-known structure, a detailed description thereof will be omitted.

The lid 110 can observe the state in which sludge is accumulated in the filtering device 20 to check whether there is an abnormality during operation, and it is possible to estimate the replacement time of the filtering device 20 or the cleaning time of the inside of the case 10 . , This structure provides a simple lid structure and wide visibility, unlike the complex installation structure and narrow-sized see-through window in the conventional structure shown in FIG. make it observable.

An inlet port 101 through which the cutting sludge is introduced is formed on the outer peripheral surface of the case 10 , and an outlet port 102 through which the filtered cutting sludge is discharged is formed on the lower surface of the case 10 .

A supply pipe 120 through which the cutting sludge is supplied from the industrial machine is formed in the inlet port 101 , and a discharge pipe 130 through which the cutting sludge filtered by the filtering device 20 is discharged is formed in the discharge port 102 . .

The supply pipe 120 is formed as a flexible pipe and is freely connected to the machine tool 50 , and its end is guided to the central portion inside the case 10 and is located above the filtering device 20 .

The inlet port 101 and the outlet port 102 are formed in a direction crossing the axial direction of the cylindrical case 10, that is, horizontally from the outer circumferential surface so that the supply pipe 120 and the discharge pipe 130 are connected in a straight pipe. , it is possible to minimize a pipe connection structure such as an elbow in the pipe connecting the supply pipe 120 and the discharge pipe 130 .

This structure has a simpler piping structure than a structure in which the discharge pipe is formed in a vertical direction from the bottom of the case in the conventional device, so that the filtered cutting oil is discharged in the vertical direction, and the pipe connector such as an elbow changes the direction of the flow path. will be able to provide.

On the other hand, at least three supports 140 are formed on the lower portion of the outer circumferential surface of the case 10 so that the case 10 is erected in a vertical direction.

The filtering device 20 is formed by sequentially forming a first filter 210 , a second filter 220 , and a third filter 230 .

These filtering devices 20 are installed inside the case 10 through the upper space in which the lid 110 is opened in the case 10. First, the third filter 230 is installed, and then the second filter ( 220) and the first filter 110 are installed.

A protrusion 150 protruding in an annular shape is formed on the inner circumferential surface of the case 10 so that the third filter 230 can be installed.

The third filter 230 is formed in a cylindrical shape with an open top to accommodate the second filter 220, and a flange ( ) that is seated on the protrusion 150 of the case 10 is formed.

The second filter 220 is formed in a cylindrical shape with an open upper part, and a flange 222 is formed on the upper part, the filter part is inserted into the first filter 210 , and the flange 222 is a flange of the first filter 210 . (232) is placed on top.

The first filter 210 is formed as a conical perforated plate having an inverted triangular shape that gradually narrows toward the bottom of the inner space, and is placed on the second filter 220 to receive the cutting sludge from the supply pipe 120 .

The first filter 210 prevents the clogging of the filter mesh since the chips or impurities passing through the hole are accumulated from the central portion of the second filter 220 as the impurities go down the conical inclined surface.

The characteristics of the filtering device 20 are combined by a structure in which the first filter 210, the second filter 220, and the third filter 230 are simply placed on the flanges 222 and 232 without a coupling structure. As a result, the convenience of use that can be easily assembled and disassembled is provided.

This is to provide a simpler structure than a structure in which a through hole is formed in the screen in the conventional structure referred to in FIG. 1 and a supply pipe is installed through the through hole of the screen to supply cutting oil.

The first filter 210 primarily filters the cutting sludge supplied from the supply pipe 120 to the inside of the case 10 , and the second filter 220 filters the sludge that has passed through the first filter 210 secondarily. treatment, the third filter 230 repeatedly filters the cutting sludge that has passed through the second filter 220 .

This sequential filtration process is for an effective filtration process so that cutting sludge with small particles can be filtered from cutting sludge with relatively large particles. For this purpose, the second filter 220 has a lower filtration rate than the first filter 210 It has a small mesh, and the third filter 230 is formed to have a small mesh having a lower filtration rate than that of the second filter 220, so that it is possible to sequentially filter sludge from large particles to fine sludge.

The oil pump 30 is preferably a mono-flex pump.

The monoflex pump is a positive displacement pump using centrifugal force. It rotates while holding the fluid between the synthetic rubber impeller blades, and the impeller blades are folded to push the fluid. Thus, it is possible to adjust the suction amount or adjust the RPM to control the discharge flow rate.

Such a monoflex pump is capable of transferring a high-viscosity liquid by using a deceleration motor, and has a flexible impeller, so it is suitable for transporting various sludge and wastewater and waste oil containing sludge.

A process in which the cutting sludge is recycled according to the present invention configured as described above will be described.

The cutting sludge used in the machine tool 50 such as lathes, mills, machining centers, CNCs, etc. includes large and small cutting chips and fine cutting chips.

Referring to FIG. 3 , the case 10 having the filtration device 20 is connected to the machine tool 50 and the supply pipe 120 to receive the cutting sludge used in the machine tool 50 , the case The cutting oil filtered by the filtration device 20 of (10) is stored in the recovery tank 40, and an oil pump 30 is disposed between the case 10 and the recovery tank 40 and is discharged to the discharge pipe 130. connected.

When the filter device 20 and the oil pump 30 are connected to the discharge pipe 130 and the oil pump 30 is driven, the inside of the filter device 20 is in a vacuum state by the suction negative pressure.

Accordingly, the cutting sludge of the cutting oil tank 40 flows into the filter device 20 through the supply pipe 120 by the suction force of the oil pump 30 .

The cutting sludge flowing into the filtering device 20 contains impurities including cutting chips. The filter device 20 filters impurities including chips before it flows into the oil pump 30 , so that the chips or impurities are filtered out. damage to the oil pump 30 is prevented.

The cutting sludge introduced into the filtration device 20 is filtered through the first filter 210 to filter out relatively large chips and impurities, and then passes through the second filter 220 and the third filter 230 to gradually smaller and finer chips and impurities. will be filtered.

At this time, since the fine chips and impurities of the cutting sludge passing through the first filter 210 are collected while going down the conical inclined surface and are accumulated from the central part of the second filter 220, the clogging of the filter mesh is prevented.

And, the oil discharged from the oil pump 30 is stored in the recovery tank 40 through the discharge pipe 73 to be reused.

So far, the present invention has been focused on preferred embodiments.

The embodiments described in this specification and the configurations shown in the drawings relate to one most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can be substituted for them are It should be understood that there may be examples.

Accordingly, the present invention is not limited to the presented embodiment, and various modifications and changes are possible within the equivalent scope of the technical idea described in the claims to be described below by those of ordinary skill in the art to which the present invention belongs. There may be embodiments.

10: case
101: inlet port
102: discharge port
110: lid
120: supply pipe
130: discharge pipe
140: support
150: protrusion
160: V-clamp
20: filter
210: first filter
220: second filter
222: flange
230: third filter
232: flange
30: oil pump
40: recovery tank
50: machine tool

Claims (6)

A cutting sludge filtering device that can be reused by pumping and filtering the cutting sludge from the cutting oil tank 40 in which the cutting sludge discharged from the machine tool is stored, comprising:
case 10 and
and a filtering device 20 installed in the case 10 to filter the supplied cutting sludge,
The coolant tank 40 is connected to the filtering device 20 and the supply pipe 120,
The filtering device 20 and the oil pump 30 are connected to the discharge pipe 130 to form a vacuum chamber in the filtering device 20 as the oil pump 30 is driven, and cutting chips and impurities mixed in the cutting sludge And characterized in that it can be recycled by filtering the sliding oil,
Cutting sludge filtering device using vacuum.

The method according to claim 1,
The supply pipe 120 and the discharge pipe 130 are,
Characterized in that it is formed horizontally from the outer peripheral surface of the case (10),
Cutting sludge filtering device using vacuum.
The method according to claim 1,
The case 10,
While injection molding into a cylindrical shape, the lower end is formed as a curved surface curved to reduce the molding stress, the upper end is open, characterized in that the lid 110 is fixed,
Cutting sludge filtering device using vacuum.
4. The method of claim 3,
The lid 110 is
The entire upper surface is formed to be transparent so that the inside of the case 10 can be seen through, characterized in that it is detachably fixed with a V-clamp 160 in a state separated from the case 10
Cutting sludge filtering device using vacuum.
The method according to claim 1,
The filtering device 20,
a first filter 210 accommodated in the case 10 and having an open top so that cutting sludge is introduced from the supply pipe 71;
a second filter 220 having an open top to accommodate the first filter 210;
Characterized in that the third filter 230 accommodating the second filter 220 is sequentially formed by opening the upper part,
Cutting sludge filtering device using vacuum.
6. The method of claim 5,
The first filter 210,
The inner space is formed as a conical perforated plate having an inverted triangular shape that gradually becomes narrower as it goes down, so that the fine chips and impurities of the cutting sludge are collected as they go down the conical inclined surface, and are accumulated from the central part of the second filter 220. blockage is reduced,
The second filter 220,
It has a small mesh with a lower filtration rate than the first filter 210,
The third filter 230 is
It is formed to have a small mesh having a lower filtration rate than the second filter 220, characterized in that it is sequentially filtered from sludge with large particles to fine sludge.
Cutting sludge filtering device using vacuum.

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