CN212924654U - Cooling medium filtering device for processing nonmagnetic material - Google Patents

Abstract

The utility model provides a coolant filter equipment of non-magnetic material processing relates to finish machining technical field, has solved that exists among the prior art in non-magnetic material course of working, and coolant filters and has the unsatisfactory technical problem of filter effect. This coolant medium filter equipment of non-magnetic material processing includes the device body, and the device body is provided with inlet and liquid outlet, is provided with at least one-level coarse filtration mechanism and at least one-level fine filtration mechanism between inlet and liquid outlet, and coarse filtration mechanism and fine filtration mechanism filter can handle or the interception size impurity the same or different, and coolant medium follows behind at least one-level coarse filtration mechanism and at least one-level fine filtration mechanism in the inlet entering device body the liquid outlet is discharged. The utility model is used for provide a in non-magnetic material course of working, the more ideal non-magnetic material processing's of cooling medium filter effect cooling medium filter equipment and processing method thereof.

Description

Cooling medium filtering device for processing nonmagnetic material

Technical Field

The utility model belongs to the technical field of the finish machining technique and specifically relates to a coolant filter equipment of non-magnetic material processing is related to.

Background

The two-stage filtering device for filtering the magnetic separator and the paper tape is commonly used for filtering the cooling medium in the magnetic material processing process in the current precision processing field, and the precipitation method is commonly used for filtering in the non-magnetic material processing field, so that the problems of low purity of the cooling medium, high use cost of consumable materials in the filtering process and the like exist. In particular, the purity of the product does not meet the standards, which may adversely affect the surface to be processed and result in unnecessary waste. The filter paper in the paper tape filtration is disposable, which wastes a lot of waste and has high cost.

The applicant has found that the prior art has at least the following technical problems: in the processing process of the non-magnetic material, the technical problems of non-ideal filtering effect and high cost of the cooling medium filtration exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a coolant filter equipment of non-magnetic material processing to solve the technical problem that exists among the prior art in the non-magnetic material course of working, coolant filters to have the unsatisfactory technical problem of filter effect. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a cooling medium filtering device for processing non-magnetic materials, which comprises a device body, wherein the device body is provided with a liquid inlet and a liquid outlet, at least one stage of coarse filtering mechanism and at least one stage of fine filtering mechanism are arranged between the liquid inlet and the liquid outlet, the coarse filtering mechanism and the fine filtering mechanism can process or intercept impurities with the same or different sizes,

the cooling medium enters the device body from the liquid inlet, is filtered or intercepted by the at least one stage of coarse filtering mechanism and is discharged from the liquid outlet after passing through the at least one stage of fine filtering mechanism.

Preferably, be provided with one-level coarse filtration mechanism and second grade fine filtration mechanism between the inlet with the liquid outlet, coarse filtration mechanism is labyrinth sedimentation filtering mechanism, and second grade fine filtration mechanism is filter bag filtering mechanism, flocculation filtering mechanism respectively, labyrinth sedimentation filtering mechanism the filter bag filtering mechanism flocculation filtering mechanism sets gradually the device is originally internal, labyrinth sedimentation filtering mechanism is through the gravity deposit of impurity self to device body bottom, filter bag filtering mechanism leads to the filter bag and intercepts impurity, flocculation filtering mechanism handles impurity through flocculation filter.

Preferably, the labyrinth deposits filter mechanism includes the labyrinth deposit case, the labyrinth deposit case with the inlet is connected, the irrigation canals and ditches that have labyrinth structure in the labyrinth deposit case, the initial position of irrigation canals and ditches with the inlet links to each other, and cooling medium passes through the inlet flows into the irrigation canals and ditches the terminal point position of irrigation canals and ditches is provided with first drain pipe, first drain pipe will the irrigation canals and ditches with filter bag filter mechanism connects be provided with first water pump on the first drain pipe, first water pump is used for with cooling medium pumped to in the labyrinth deposit case in the filter bag filter mechanism.

Preferably, the filter bag filtering mechanism comprises a filter bag filtering box, a filter bag is arranged at the top of the filter bag filtering box, the first liquid outlet pipe conveys a cooling medium into the filter bag, the cooling medium flows into the filter bag filtering box after being filtered by the filter bag, a second liquid outlet pipe is arranged in the filter bag filtering box and connects the filter bag filtering box with the flocculation filtering mechanism, a second water pump is arranged on the second liquid outlet pipe and is used for pumping the cooling medium in the filter bag filtering box into the flocculation filtering mechanism.

Preferably, the flocculation filter mechanism comprises a flocculation filter tank, a flocculation filter is arranged at the top of the flocculation filter tank, the second water pump conveys cooling media from the filter bag filter tank into the flocculation filter through the second liquid outlet pipe, the cooling media pass through the flocculation filter, impurities are treated by the flocculation filter, a third liquid outlet pipe is arranged in the flocculation filter tank and connected with the liquid outlet, a third water pump is arranged on the third liquid outlet pipe and arranged on the third liquid outlet pipe, and the cooling media of the flocculation filter tank are output from the liquid outlet.

Preferably, a filter cylinder is arranged at the top of the filter bag filter box, and the filter bag is arranged on the filter cylinder.

Preferably, the heights of the liquid levels in the labyrinth sedimentation tank, the filter bag filter tank and the flocculation filter tank are in an increasing trend, a first overflow port is arranged between the labyrinth sedimentation tank and the filter bag filter tank, and a second overflow port is arranged between the filter bag filter tank and the flocculation filter tank.

Preferably, the heights of the labyrinth sedimentation tank, the filter bag filter tank, the filter cartridge and the flocculation filter tank are the same.

Preferably, the filter bag density is 0.02 mm.

Preferably, an industrial caster is provided at the bottom of the apparatus body.

A method of treating a cooling medium filter device for non-magnetic material processing, comprising the steps of:

A. cooling medium enters the labyrinth sedimentation box from the liquid inlet, slowly flows in the ditch of the labyrinth structure, larger impurities are gradually deposited at the bottom of the labyrinth sedimentation box, and cleaner cooling medium is arranged at the upper part of the labyrinth sedimentation box; at this point, coarse filtration is completed;

B. the first water pump pumps the cooling medium at the upper part in the labyrinth sedimentation tank into the filter bag through the first liquid outlet pipe, the filter medium flows out of the filter bag, impurities are intercepted inside the filter bag by the filter bag, and the relatively clean cooling medium flows into the filter tank of the filter bag; if the cooling medium flowing into the filter bag filter box exceeds the liquid level, the cooling medium can flow back into the labyrinth sedimentation box from the first overflow port;

C. the second water pump pumps the cooling medium in the filter bag filter box into the flocculation filter through the second liquid outlet pipe, impurities are intercepted by the flocculation filter, and the clean cooling medium flows into the flocculation filter box; if the cooling medium flowing into the flocculation filter tank exceeds the liquid level, the cooling medium can flow back into the filter bag filter tank from the second overflow port;

D. the third water pump outputs the cooling medium of the flocculation filter tank from the liquid outlet through the third liquid outlet pipe; the purification of the cooling medium is completed.

The utility model has the advantages that: the device comprises a liquid inlet, a liquid outlet, a coarse filtering mechanism, a fine filtering mechanism and a fine filtering mechanism, wherein the liquid inlet is provided with at least one coarse filtering mechanism and at least one fine filtering mechanism, the coarse filtering mechanism and the fine filtering mechanism can process or intercept impurities with the same or different sizes, a cooling medium firstly processes or intercepts larger impurities through the coarse filtering mechanism, and then finely filters the cooling medium after coarse filtering through the fine filtering mechanism, so that the cooling medium flows into the liquid inlet and is filtered through the at least one coarse filtering mechanism and then is filtered through the at least one fine filtering mechanism, the problem that the filtering effect is not ideal due to precipitation filtering in the prior art is solved, and the filtering effect of the cooling medium is remarkably improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a top view of the present invention;

fig. 2 is a front view of the present invention.

In fig. 1, the apparatus body; 2. a labyrinth sedimentation and filtration mechanism; 3. a filter bag filtering mechanism; 4. a flocculation filtration mechanism; 11. a liquid inlet; 12. a liquid outlet; 21. a labyrinth settling tank; 22. a trench; 23. a first liquid outlet pipe; 24. a first water pump; 31. a filter bag filter box; 32. a filter bag; 33. a second liquid outlet pipe; 34. a second water pump; 35. a first overflow port; 36. a filter cartridge; 41. a flocculation filter tank; 42. a flocculation filter; 43. A third liquid outlet pipe; 44. a third water pump; 45. a second overflow port.

Detailed Description

The contents of the present invention and the differences between the present invention and the prior art can be understood with reference to fig. 1 to 2 and the text. The invention will be described in further detail below (including the preferred embodiments) with reference to the drawings and illustrative examples of some alternative embodiments of the invention. It should be noted that: any technical features and any technical solutions in this embodiment are one or more of various optional technical features or optional technical solutions, and for the sake of brevity, this document cannot exhaust all the alternative technical features and alternative technical solutions of the present invention, and it is not convenient for each embodiment of the technical features to emphasize that it is one of various optional embodiments, so those skilled in the art should know that: can replace any technical means or combine two or more technical means or technical characteristics of the utility model provides an arbitrary or more technical means or technical characteristics mutually and obtain new technical scheme. Any technical features and any technical solutions in the present embodiment do not limit the scope of the present invention, and the scope of the present invention should include any alternative technical solutions that can be conceived by those skilled in the art without creative efforts and new technical solutions that can be obtained by combining any two or more technical means or technical features provided by the present invention with each other by those skilled in the art.

The utility model provides a better non-magnetic material processing's of non-magnetic material filter effect's of non-magnetic material processing coolant media filter equipment.

The technical solution provided by the present invention is explained in more detail with reference to fig. 1 to 2.

The utility model provides a cooling medium filtering device processed by non-magnetic materials, which comprises a device body, wherein the device body is provided with a liquid inlet and a liquid outlet, at least one stage of coarse filtering mechanism and at least one stage of fine filtering mechanism are arranged between the liquid inlet and the liquid outlet, the coarse filtering mechanism and the fine filtering mechanism can process or intercept impurities with the same or different sizes,

the cooling medium enters the device body from the liquid inlet, is filtered or intercepted by the at least one stage of coarse filtering mechanism and is discharged from the liquid outlet after passing through the at least one stage of fine filtering mechanism.

The utility model provides a cooling medium filter equipment of non-magnetic material processing is provided with at least one-level coarse filtration mechanism and the fine filtering mechanism of at least one-level between inlet and liquid outlet, coarse filtration mechanism with fine filtering mechanism filters the impurity that can handle or intercept the size is the same or different, and the cooling medium is handled or is intercepted great impurity through coarse filtration mechanism earlier, then carries out the meticulous filtration to the cooling medium after coarse filtration by fine filtering mechanism for the cooling medium follows the inlet flows into and filters after the coarse filtering mechanism of at least one-level, filters through the fine filtering mechanism of at least one-level again, has avoided only leading to the unsatisfactory problem of filter effect to appear through depositing among the prior art, makes the filter effect of cooling medium show and improves.

As an optional implementation mode, a primary coarse filtering mechanism and a secondary fine filtering mechanism are arranged between the liquid inlet and the liquid outlet, the coarse filtering mechanism is a labyrinth sedimentation filtering mechanism, the secondary fine filtering mechanism is a filter bag filtering mechanism and a flocculation filtering mechanism respectively, the labyrinth sedimentation filtering mechanism, the filter bag filtering mechanism and the flocculation filtering mechanism are sequentially arranged in the device body, the labyrinth sedimentation filtering mechanism deposits the bottom of the device body through the gravity of impurities, the filter bag filtering mechanism intercepts the impurities through a filter bag, and the flocculation filtering mechanism treats the impurities through a flocculation filter.

According to the structure, the rough filtration is carried out through the labyrinth sedimentation and filtration mechanism, the filter bag filtration mechanism and the flocculation filtration mechanism respectively carry out the fine filtration twice, larger impurities in the cooling medium are deposited to the bottom in the labyrinth sedimentation and filtration mechanism, and the cooling medium above the bottom is conveyed to the filter bag filtration mechanism and the flocculation filtration mechanism for the secondary filtration, so that the filtration effect of the cooling medium is improved; in addition, avoided adopting the unable problem of adsorbing non-magnetic material of magnetic separator among the prior art, the filter paper in the container bag filters is disposable moreover, and the cost is very high, and the utility model discloses in, filter bag and flocculation filter can used repeatedly, can effectual saving cost when improving the filter effect.

As an optional implementation mode, the labyrinth sedimentation and filtration mechanism comprises a labyrinth sedimentation tank, the labyrinth sedimentation tank is connected with the liquid inlet, a ditch with a labyrinth structure is arranged in the labyrinth sedimentation tank, the initial position of the ditch is connected with the liquid inlet, a cooling medium flows into the ditch through the liquid inlet, a first liquid outlet pipe is arranged at the end position of the ditch, the ditch is connected with the filter bag filtration mechanism through the first liquid outlet pipe, and a first water pump is arranged on the first liquid outlet pipe and used for pumping the cooling medium in the labyrinth sedimentation tank into the filter bag filtration mechanism.

The labyrinth setting case sets to the labyrinth structure, and impurity can be along cooling medium flow direction sediment to labyrinth setting case bottom in the irrigation canals and ditches, along with the flow deposit gradually, has improved the filter effect, can also reduce area simultaneously for the sedimentation rate.

As an optional implementation manner, the filter bag filtering mechanism includes a filter bag filtering box, a filter bag is disposed on the top of the filter bag filtering box, the first liquid outlet pipe conveys the cooling medium into the filter bag, the cooling medium flows into the filter bag filtering box after being filtered by the filter bag, a second liquid outlet pipe is disposed in the filter bag filtering box, the filter bag filtering box is connected to the flocculation filtering mechanism through the second liquid outlet pipe, a second water pump is disposed on the second liquid outlet pipe, and the second water pump is used for pumping the cooling medium in the filter bag filtering box into the flocculation filtering mechanism.

As an optional implementation manner, the flocculation filter mechanism includes a flocculation filter tank, a flocculation filter is disposed on the top of the flocculation filter tank, the second water pump conveys the cooling medium from the filter bag filter tank into the flocculation filter through the second liquid outlet pipe, the cooling medium passes through the flocculation filter, impurities are treated by the flocculation filter, a third liquid outlet pipe is disposed in the flocculation filter tank, the third liquid outlet pipe is connected with the liquid outlet, a third water pump is disposed on the third liquid outlet pipe, and the third water pump is disposed on the third liquid outlet pipe and outputs the cooling medium of the flocculation filter tank from the liquid outlet.

The cooling medium purified by the labyrinth sedimentation box is conveyed to a filter bag filtering mechanism by a first water pump for filtering. The cooling medium after the filter of filter bag filtering mechanism is carried to flocculation filtering mechanism by the second water pump and is filtered, and the cooling medium after flocculation filtering mechanism filters is exported to the liquid outlet by the third water pump, and the successive layer purifies to obtain the higher cooling medium of purity, moreover, filter bag and flocculation filter core can be changed, great ground saving cost.

In an alternative embodiment, a filter cartridge is arranged on the top of the filter bag filter box, and the filter bag is arranged on the filter cartridge.

The filter cartridge is arranged at the top of the filter box of the filter bag, the cooling medium is conveyed to the filter cartridge through the first water pump and is filtered by the filter bag, and the filter holes can be blocked by impurities in the use process of the filter bag; the efficiency of the cooling medium passing through the flocculation filter can be obviously improved under the pushing of the pressure of the second water pump.

As an optional implementation mode, the heights of liquid levels in the labyrinth sedimentation tank, the filter bag filter tank and the flocculation filter tank are in an increasing trend, a first overflow port is arranged between the labyrinth sedimentation tank and the filter bag filter tank, and a second overflow port is arranged between the filter bag filter tank and the flocculation filter tank, when the liquid level in the filter bag filter tank exceeds the liquid level height, the liquid flows back to the labyrinth sedimentation tank from the first overflow port, and when the liquid level in the flocculation filter tank exceeds the liquid level height, the liquid flows back to the filter bag filter tank from the second overflow port.

Through setting up first overflow mouth, second overflow mouth, and first overflow mouth, second overflow mouth all can only be by the backward one-level backward flow forward of back one-level, avoid coolant to remove the cleanliness and be polluted, guarantee the filter effect.

As an alternative embodiment, the heights of the labyrinth settling tank, the filter bag filtering tank, the filter cartridge and the flocculation filtering tank are the same. Labyrinth setting case filter bag rose box, flocculation rose box height-alike can be directly kept apart through increasing the baffle at this internal device, reduce cost can make moreover the utility model discloses a coolant filter volume of non-magnetic material processing is showing and is reducing, and convenient the removal is convenient for maintain and wash.

As an alternative embodiment, the filter bag density is 0.02 mm.

As an alternative embodiment, the density of the flocculating filter is 0.005 mm.

As an alternative embodiment, an industrial caster is provided at the bottom of the apparatus body.

A method of treating a cooling medium filter device for non-magnetic material processing, comprising the steps of:

A. cooling medium enters the labyrinth sedimentation box from the liquid inlet, slowly flows in the ditch of the labyrinth structure, larger impurities are gradually deposited at the bottom of the labyrinth sedimentation box, and cleaner cooling medium is arranged at the upper part of the labyrinth sedimentation box; at this point, coarse filtration is completed;

B. the first water pump pumps the cooling medium at the upper part in the labyrinth sedimentation tank into the filter bag through the first liquid outlet pipe, the filter medium flows out of the filter bag, impurities are intercepted inside the filter bag by the filter bag, and the relatively clean cooling medium flows into the filter tank of the filter bag; if the cooling medium flowing into the filter bag filter box exceeds the liquid level, the cooling medium can flow back into the labyrinth sedimentation box from the first overflow port;

C. the second water pump pumps the cooling medium in the filter bag filter box into the flocculation filter through the second liquid outlet pipe, impurities are intercepted by the flocculation filter, and the clean cooling medium flows into the flocculation filter box; if the cooling medium flowing into the flocculation filter tank exceeds the liquid level, the cooling medium can flow back into the filter bag filter tank from the second overflow port;

D. the third water pump outputs the cooling medium of the flocculation filter tank from the liquid outlet through the third liquid outlet pipe; the purification of the cooling medium is completed.

Example 1:

the utility model provides a pair of cooling medium filter equipment of non-magnetic material processing, including device body 1 and controller, 1 bottoms of device body are provided with the industry truckle, are provided with inlet 11 and liquid outlet 12 on the device body 1, have set gradually labyrinth sediment filter mechanism 2, filter bag filter mechanism 3, flocculation filter mechanism 4 between inlet 11 and liquid outlet 12, the controller is connected with labyrinth sediment filter mechanism 2, filter bag filter mechanism 3, the equal electricity of flocculation filter mechanism 4.

Labyrinth deposits filter mechanism 2 includes labyrinth deposit case 21, labyrinth deposit case 21 with inlet 11 is connected, labyrinth deposit incasement 21 has labyrinth structure's irrigation canals and ditches 22, the initial position of irrigation canals and ditches 22 with inlet 11 links to each other, and cooling medium warp inlet 11 flows in irrigation canals and ditches 22 the terminal point position of irrigation canals and ditches 22 is provided with first drain pipe 23, first drain pipe 23 will irrigation canals and ditches 22 with filter bag filter mechanism 3 is connected be provided with first water pump 24 on the first drain pipe 23, first water pump 24 be used for with cooling medium takes out to deliver to in the labyrinth deposit case 21 in the filter bag filter mechanism 3.

The filter bag filtering mechanism 3 comprises a filter bag filtering box 31, a filter barrel 36 is arranged at the top of the filter bag filtering box 31, the filter bag 32 is arranged on the filter barrel 36, the first liquid outlet pipe 23 conveys a cooling medium into the filter bag 32, the cooling medium flows into the filter bag filtering box 31 after being filtered by the filter bag 32, a second liquid outlet pipe 33 is arranged in the filter bag filtering box 31, the filter bag filtering box 31 is connected with the flocculation filtering mechanism 4 through the second liquid outlet pipe 33, a second water pump 34 is arranged on the second liquid outlet pipe 33, and the second water pump 34 is used for pumping the cooling medium in the filter bag filtering box 31 into the flocculation filtering mechanism 4.

The flocculation filter mechanism 4 comprises a flocculation filter tank 41, a flocculation filter 42 is arranged on the top of the flocculation filter tank 41, the second water pump 34 conveys the cooling medium from the filter bag filter tank 31 to the flocculation filter 42 through the second liquid outlet pipe 33, the cooling medium passes through the flocculation filter 42, and the impurities are treated by the flocculation filter 42.

A third liquid outlet pipe 43 is arranged in the flocculation filter tank 41, the third liquid outlet pipe 43 is connected with the liquid outlet 12, a third water pump 44 is arranged on the third liquid outlet pipe 43, and the third water pump 44 is arranged on the third liquid outlet pipe 43 and outputs the cooling medium of the flocculation filter tank 41 from the liquid outlet 12.

The liquid level heights in the labyrinth sedimentation tank 21, the filter bag filter tank 31 and the flocculation filter tank 41 are in an increasing trend, overflow ports are respectively arranged between the labyrinth sedimentation tank 21 and the filter bag filter tank 31 and between the filter bag filter tank 31 and the flocculation filter tank 41 and are respectively a first overflow port 35 and a second overflow port 45, when the liquid level in the filter bag filter tank 31 exceeds the liquid level height, the liquid flows back to the labyrinth sedimentation tank 21 from the first overflow port 35, and when the liquid level in the flocculation filter tank 41 exceeds the liquid level height, the liquid flows back to the filter bag filter tank 31 from the second overflow port 45. The overflow port is set to be capable of only reflowing from the next stage to the previous stage, so that the cleanliness of the cooling medium is prevented from being polluted.

A filtering method of a cooling medium filtering device for processing nonmagnetic materials comprises the steps of firstly carrying out at least one time of rough and fine cleaning on a filtering medium, and then carrying out at least one time of fine cleaning on the filtering medium; the rough and fine cleaning is completed by a labyrinth precipitation filtering mechanism, and the fine cleaning is completed by a filter bag filtering mechanism and a flocculation filtering mechanism. The specific treatment process comprises the following steps:

1. cooling medium enters the labyrinth settling tank 21 from the liquid inlet 11 and slowly flows in the ditch 22 of the labyrinth structure, larger impurities are gradually deposited at the bottom of the labyrinth settling tank 21, and cleaner cooling medium is arranged at the upper part of the labyrinth settling tank 21; at this point, the coarse filtration is complete.

2. First water pump 24 pumps the cooling medium on upper portion in labyrinth setting case 21 to filter bag 32 through first drain pipe in, filtering medium flows out from filter bag 32, and impurity is inside the filter bag by the interception of filter bag 32, and what flow into in filter bag rose box 31 is comparatively clean cooling medium, accomplishes the fine filtration for the first time this moment, owing to through first step coarse filtration, makes cooling medium's purity improve, and the life of filter bag can prolong. If the cooling medium flowing into the filter bag filter box 31 exceeds the liquid level, the cooling medium can flow back into the labyrinth settling tank 21 from the first overflow port.

3. The second water pump 34 pumps the cooling medium in the filter bag filter tank 31 to the flocculation filter 42 through the second liquid outlet pipe 33, and the impurities are intercepted by the flocculation filter 42 and flow into the flocculation filter tank 41 as clean cooling medium. Since the cooling medium flowing into the flocculation filter 42 has been filtered twice at this time, the amount of remaining impurities is greatly reduced, so that the service life of the flocculation filter is greatly prolonged. If the cooling medium flowing into the flocculation filter tank 41 exceeds the liquid level, the cooling medium can flow back into the filter bag filter tank 31 from the second overflow port.

4. The third water pump 44 outputs the cooling medium of the flocculation filter tank 41 from the liquid outlet 12 through the third liquid outlet pipe 43. The purification of the cooling medium is completed.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A cooling medium filtering device for processing nonmagnetic materials is characterized by comprising a device body, wherein the device body is provided with a liquid inlet and a liquid outlet, at least one stage of coarse filtering mechanism and at least one stage of fine filtering mechanism are arranged between the liquid inlet and the liquid outlet, the coarse filtering mechanism and the fine filtering mechanism can process or intercept impurities with the same or different sizes,

the cooling medium enters the device body from the liquid inlet, is filtered or intercepted by the at least one stage of coarse filtering mechanism and is discharged from the liquid outlet after passing through the at least one stage of fine filtering mechanism.

2. The cooling medium filtering device for processing nonmagnetic materials as claimed in claim 1, wherein a primary coarse filtering mechanism and a secondary fine filtering mechanism are arranged between the liquid inlet and the liquid outlet, the coarse filtering mechanism is a labyrinth sedimentation filtering mechanism, the secondary fine filtering mechanism is a filter bag filtering mechanism and a flocculation filtering mechanism, the labyrinth sedimentation filtering mechanism, the filter bag filtering mechanism and the flocculation filtering mechanism are sequentially arranged in the device body, the labyrinth sedimentation filtering mechanism deposits to the bottom of the device body through the gravity of impurities, the filter bag filtering mechanism intercepts the impurities through a filter bag, and the flocculation filtering mechanism treats the impurities through a flocculation filter.

3. The cooling medium filtering device for processing non-magnetic materials as claimed in claim 2, wherein the labyrinth precipitation filtering mechanism comprises a labyrinth precipitation tank, the labyrinth precipitation tank is connected to the liquid inlet, a trench with a labyrinth structure is arranged in the labyrinth precipitation tank, the initial position of the trench is connected to the liquid inlet, the cooling medium flows into the trench through the liquid inlet, a first liquid outlet pipe is arranged at the terminal position of the trench, the first liquid outlet pipe connects the trench and the filter bag filtering mechanism, a first water pump is arranged on the first liquid outlet pipe, and the first water pump is used for pumping the cooling medium in the labyrinth precipitation tank into the filter bag filtering mechanism.

4. The cooling medium filtering device for processing non-magnetic materials as claimed in claim 3, wherein the filter bag filtering mechanism comprises a filter bag filtering box, a filter bag is disposed on the top of the filter bag filtering box, the first liquid outlet pipe conveys the cooling medium into the filter bag, the cooling medium flows into the filter bag filtering box after being filtered by the filter bag, a second liquid outlet pipe is disposed in the filter bag filtering box and connects the filter bag filtering box with the flocculation filtering mechanism, and a second water pump is disposed on the second liquid outlet pipe and is used for pumping the cooling medium in the filter bag filtering box into the flocculation filtering mechanism.

5. The cooling medium filtering device for processing nonmagnetic materials as claimed in claim 4, wherein the flocculation filtering mechanism includes a flocculation filter tank, a flocculation filter is disposed on the top of the flocculation filter tank, the second water pump transports the cooling medium from the filter bag filter tank to the flocculation filter through the second liquid outlet pipe, the cooling medium passes through the flocculation filter, impurities are treated by the flocculation filter, a third liquid outlet pipe is disposed in the flocculation filter tank and connected with the liquid outlet, a third water pump is disposed on the third liquid outlet pipe, and the third water pump is disposed on the third liquid outlet pipe and outputs the cooling medium of the flocculation filter tank from the liquid outlet.

6. The cooling medium filter device processed by non-magnetic material as claimed in claim 5, wherein a filter cartridge is provided on top of said filter bag filter box, said filter bag being provided on said filter cartridge.

7. The apparatus as claimed in claim 5, wherein the heights of the liquid levels in the labyrinth settling tank, the filter bag filtering tank and the flocculation filtering tank are gradually increased, a first overflow port is provided between the labyrinth settling tank and the filter bag filtering tank, and a second overflow port is provided between the filter bag filtering tank and the flocculation filtering tank, wherein the liquid level in the filter bag filtering tank is higher than the liquid level and then flows back to the labyrinth settling tank from the first overflow port, and the liquid level in the flocculation filtering tank is higher than the liquid level and then flows back to the filter bag filtering tank from the second overflow port.

8. The cooling medium filtering device processed by non-magnetic material as claimed in claim 6, wherein the height of said labyrinth settling tank, said filter bag filtering tank, said filter cartridge, said flocculation filtering tank is the same.

9. The non-magnetic material processed cooling medium filtering device as claimed in claim 5, wherein said filter bag density is 0.02 mm.

10. The cooling medium filter device processed by non-magnetic material as claimed in claim 2, wherein an industrial caster is provided at the bottom of said device body.

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