CN116329472A - Water mist removing device of strong cooling machine - Google Patents

Abstract

The invention relates to the technical field of application of coolers, and provides a water mist removing device of a powerful cooler, which comprises a cooler body and further comprises a using pipeline, wherein the cooler body is arranged on the using pipeline, a gas collecting hopper is arranged at the top of the using pipeline and is used for collecting water mist generated in the using process of the cooler body, a treatment barrel is arranged at the top end of the treatment barrel through a lifting assembly, a barrel cover is arranged on the top end of the treatment barrel, a conveying assembly is communicated between the treatment barrel and the gas collecting hopper and is used for conveying the water mist collected by the gas collecting hopper into the treatment barrel, the water mist removing device of the powerful cooler can sequentially remove dust and water mist generated in the working process of the cooler body, the treated gas can be directly discharged into the atmosphere and can be recycled for the powerful cooler, and a filter layer can be cleaned timely and a silk screen mist removing assembly can be replaced timely, so that the water mist can be treated for a long time.

Description

Water mist removing device of strong cooling machine

Technical Field

The invention relates to the technical field of application of coolers, in particular to a water mist removing device of a powerful cooler.

Background

A forced cooler is a machine that achieves a refrigeration effect by a vapor compression or absorption cycle. In the real life metal manufacturing industry, in order to cool the surface of the metal after forging and forming, the metal can be cooled by a powerful cooler to achieve the effect of rapid forming, the surface of the metal is thoroughly solidified, and in the process of cooling the metal by the powerful cooler, when cold air contacts with metal with higher temperature, a large amount of steam is generated, the steam is as water mist, a large amount of moisture is enriched, and meanwhile, the metal is just forged, so that the formed mist also carries some metal micromolecular impurities, and the mist generated in the cooling process needs to be treated for the next operation no matter whether the mist is directly discharged or recycled again.

In the process of cleaning the water mist generated in the cooling process, firstly, the flue gas doped in the water mist needs to be treated, the flue gas in the water mist is separated from the water mist, and then the water mist is filtered, so that the water molecules in the discharged gas are reduced, the gas can be directly discharged into the atmosphere and can be recycled for further use by a powerful cooler, but the metal micromolecular impurities in the water mist are filtered for a long time in the prior art, so that the congestion of a filtering device is easily caused, and the water mist is not easy to treat for a long time.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the water mist removing device of the powerful cooler, which can sequentially remove dust and water mist generated in the working process of the powerful cooler, so that the treated gas can be directly discharged into the atmosphere, can be recycled for the powerful cooler, and can also be cleaned timely, thereby being capable of treating the water mist for a long time.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: powerful cooler defogging device, including the cooler body, still include: using a pipeline, a treatment barrel, a filter layer and a cleaning assembly;

the cooling machine comprises a cooling machine body, a using pipeline, a gas collecting hopper and a water mist collecting device, wherein the cooling machine body is arranged on the using pipeline;

the top end of the treatment barrel is provided with a barrel cover through a lifting assembly, a conveying assembly is communicated between the treatment barrel and the gas collecting hopper, the conveying assembly is used for conveying water mist collected by the gas collecting hopper into the treatment barrel, the inner bottom side of the treatment barrel is provided with a cyclone assembly, the cyclone assembly is used for enabling the mist to be in a cyclone shape, and one end of the barrel cover is communicated with a discharge pipeline;

the filter layer is arranged on the middle side of the inside of the treatment barrel, a silk screen demisting assembly is arranged on the upper side of the inside of the treatment barrel, and the filter layer and the silk screen demisting assembly are used for dedusting water mist and removing water mist;

the cleaning assembly is arranged in the treatment barrel and used for cleaning impurities attached to the filter layer, the top of the cyclone assembly is provided with a collecting assembly for collecting and discharging cleaned water and metal impurities, and a driving assembly is arranged between the cleaning assembly and the barrel cover and used for driving the cleaning assembly to clean the filter layer.

In order to convey the water mist generated in the working process of the cooler body into the treatment barrel, preferably, the conveying assembly comprises a fan, the fan is installed at the top end of the cooler body through an installation body, an exhaust pipe is communicated between the input end of the fan and the top end of the gas collecting hopper, and an air outlet pipe is communicated with the output end of the fan.

In order to make fog produce into the cyclone form, make the better filter layer of passing through of water smoke, further, the cyclone subassembly includes the installation section of thick bamboo, the installation section of thick bamboo is installed on handling the interior diapire of bucket, communicate each other between the bottom and the outlet duct of installation section of thick bamboo, be connected with the spirochaeta through a plurality of branches fixedly connected with on the inner wall of installation section of thick bamboo, the water smoke is guided into the cyclone form when passing through the spirochaeta.

In order to remove dust and remove water smoke operation, make it reach emission and recovery standard, still further, the silk screen defogging subassembly includes two semicircle silk screen layers, two arc installing frames of equal fixedly connected with in inner wall upper portion both sides of handling the bucket, the bottom fixedly connected with of arc installing frame a plurality of extension boards, semicircle silk screen layer sets up between a plurality of extension boards tops that correspond, two be provided with the connecting piece between the corresponding one end of semicircle silk screen layer.

In order to rise the barrel cover, thereby take out two semicircular silk screens, as the further scheme of this scheme, lifting unit includes first electronic jar, first electronic jar is installed in outer wall one side of handling the bucket, the equal fixedly connected with lifter plate in outer wall both sides of barrel cover, the output and the lifter plate fixed connection who corresponds of first electronic jar, outer wall one side fixedly connected with backup pad of handling the bucket, be provided with the telescopic link between backup pad and the lifter plate that corresponds.

In order to clear up the impurity that adheres to on the filter layer to keep the continuous filtration operation of filter layer, as this scheme still further scheme, the clearance subassembly is including fixed section of thick bamboo, two semicircle silk screen layer and filter layer all correspond fixed section of thick bamboo and have seted up the opening, fixed section of thick bamboo's middle part both sides all communicate there is a water drainage tube, two water drainage tube's bottom all communicates there are a plurality of spray pipes, water drainage tube is located the upside of filter layer, the equal fixedly connected with connecting plate in fixed section of thick bamboo's bottom both sides, two the equal fixedly connected with in top of connecting plate a plurality of brushes, the connecting plate is located the downside of filter layer, just the brush is laminated with the bottom of filter layer.

In order to collect the emission to the water and the metallic impurity that the clearance got off, on the basis of the aforesaid scheme, collect the subassembly and include collecting the frame, it sets up on handling the inner wall of bucket to collect the frame, use the mouth has been seted up at the bottom middle part of collecting the frame, the top fixed connection of installation section of thick bamboo is in using the mouth, it has the drain pipe to communicate between the one end of bucket to collect the frame and handle, the middle part of installation section of thick bamboo is provided with seal assembly.

In order to drive the clearance subassembly and clear up the filter layer, further on the basis of the aforesaid scheme, drive assembly includes a rotation section of thick bamboo, the rotation mouth has been seted up on the top of bung, a rotation section of thick bamboo rotates in rotating mouthful, the top of a rotation section of thick bamboo is connected with the water pipe through connecting pipe seal rotation, the top cover of a rotation section of thick bamboo is equipped with gear one, the meshing has gear two on the gear one, the motor is installed through the mounting bracket on the top of bung, gear two cover is established on the output of motor, the bottom sliding connection of a rotation section of thick bamboo is on the inner wall of fixed section of thick bamboo.

In order to fixedly mount two semicircle silk screen layers together, on the basis of the scheme, the connecting piece further comprises a plurality of connecting frames, a plurality of connecting frames are fixedly connected to one end, close to the other semicircle silk screen layer, of one semicircle silk screen layer, a plurality of connecting pieces are fixedly connected to the other semicircle silk screen layer corresponding to the plurality of connecting frames, and the two connecting pieces and the connecting frames corresponding to each other are connected through screws.

In order to keep the mounting cylinder closed in the process of cleaning the filter layer, the sealing assembly is more optimized on the basis of the scheme, the sealing assembly comprises two semicircular sealing plates, sliding ports are formed in two sides of the top of the mounting cylinder, the semicircular sealing plates are slidably connected in the corresponding sliding ports, the second electric cylinder is mounted on two sides of the inner wall of the processing cylinder, the output end of the second electric cylinder is fixedly connected with the corresponding semicircular sealing plates, and the two semicircular sealing plates are arranged on the lower side of the collecting frame.

(III) beneficial effects

Compared with the prior art, the invention provides the water mist removing device of the powerful cooler, which has the following beneficial effects:

in the invention, in the process of cooling forged metal by a cooler body, mist generated after cold air is contacted with the metal is firstly conveyed into a treatment barrel through a gas collecting hopper and a conveying component, the water mist is subjected to dust removal and water mist removal operation through a filter layer and a wire mesh mist removal component which are arranged in the treatment barrel, damage can occur after the wire mesh mist removal component carries out mist removal operation for a long time, then a barrel cover is lifted through a lifting component which is arranged between the treatment barrel and a barrel cover, so that two semicircular wire meshes are taken out, repaired and replaced, and the water mist is continuously subjected to mist removal operation as soon as possible;

according to the invention, after the filter layer filters the water mist for a long time, the driving assembly is started to drive the fixed cylinder to rotate and simultaneously convey water into the fixed cylinder, and then the filter layer is scrubbed while the filter layer is washed, so that the filter layer can continuously filter metal impurities doped in the water mist as soon as possible, and the cleaned water and metal impurities flow into the collecting assembly and are discharged after being collected;

therefore, the water mist removing device of the powerful cooler can remove dust and remove water mist sequentially to water mist generated in the working process of the cooler body, so that the treated gas can be directly discharged into the atmosphere, can be recovered to be continuously used by the powerful cooler, and can timely clean a filter layer and timely replace a wire mesh mist removing assembly, so that the water mist can be treated for a long time.

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 evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a partially sectioned perspective structure of the present invention;

FIG. 2 is a schematic perspective view of the whole structure of the present invention;

FIG. 3 is a schematic perspective view of another angle of the whole of the present invention;

FIG. 4 is a schematic perspective view, partially in section, of the cyclone assembly and closure assembly of the present invention;

FIG. 5 is a schematic perspective view of the combination of a wire mesh mist eliminator assembly and a connector according to the present invention;

FIG. 6 is a schematic perspective view of the cleaning assembly and the rotating cylinder of the present invention;

fig. 7 is a schematic perspective view of the cooperation of the collection assembly and the mounting cylinder in the present invention.

Reference numerals in the drawings represent respectively: 100. a transport assembly; 200. a cyclone assembly; 300. a wire mesh demister assembly; 400. a lifting assembly; 500. cleaning the assembly; 600. a collection assembly; 700. a drive assembly; 800. a connecting piece; 900. a closure assembly; 1. a cooler body; 2. using a pipeline; 3. a gas collecting hopper; 4. a treatment barrel; 5. a barrel cover; 6. a discharge conduit; 7. a filter layer; 101. a blower; 102. an exhaust pipe; 103. an air outlet pipe; 201. a mounting cylinder; 202. a screw; 301. a semicircular silk screen layer; 302. an arc-shaped mounting frame; 303. a support plate; 401. an electric cylinder I; 402. a lifting plate; 403. a telescopic rod; 501. a fixed cylinder; 502. a drainage cylinder; 503. a water spray pipe; 504. a connecting plate; 505. a brush; 601. a collection frame; 602. a drain pipe; 701. a rotating cylinder; 702. a connecting pipe; 703. a water supply pipe; 704. a first gear; 705. a second gear; 706. a motor; 801. a connection frame; 802. a connecting sheet; 803. a screw; 901. a semicircular sealing plate; 902. and an electric cylinder II.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, 2 and 3, the water mist removing device of the powerful cooler includes a cooler body 1, and further includes a use pipe 2, the cooler body 1 is mounted on the use pipe 2, a gas collecting hopper 3 is mounted on the top of the use pipe 2, the gas collecting hopper 3 is used for collecting water mist generated in the use process of the cooler body 1, the cooler body 1 is a powerful cooler in real life, in the metal casting field, the cooler body 1 is cooled in the process of moving in the use pipe 2 after metal casting, so that rapid shaping is facilitated, and mist steam of water mist is formed after cold air contacts with high-temperature metal castings, and small metal impurities are doped, so that dust removal and mist removing treatment are needed for direct discharge or recycling of the cooler body.

Referring to fig. 1, 2, 3 and 4, the top end of the treatment barrel 4 is provided with a barrel cover 5 through a lifting assembly 400, the bottom end of the treatment barrel 4 is fixedly connected with a plurality of supporting legs, the lifting assembly 400 comprises an electric cylinder I401, the electric cylinder I401 is installed on one side of the outer wall of the treatment barrel 4, lifting plates 402 are fixedly connected to two sides of the outer wall of the barrel cover 5, the output end of the electric cylinder I401 is fixedly connected with the corresponding lifting plates 402, a supporting plate is fixedly connected to one side of the outer wall of the treatment barrel 4, a telescopic rod 403 is arranged between the supporting plate and the corresponding lifting plates 402, a conveying assembly 100 is communicated between the treatment barrel 4 and the gas collecting hopper 3, the conveying assembly 100 is used for conveying water mist collected by the gas collecting hopper 3 into the treatment barrel 4, the conveying assembly 100 comprises a fan 101, the fan 101 is installed on the top end of the cooler body 1 through an installation body, a suction tube 102 is communicated between the input end of the fan 101 and the top end of the gas collecting hopper 3, the output end of the fan 101 is communicated with an air outlet pipe 103, the cyclone assembly 200 is arranged at the bottom side of the inside of the treatment barrel 4, the cyclone assembly 200 is used for enabling mist to be in a cyclone shape, one end of the barrel cover 5 is communicated with a discharge pipeline 6, the cyclone assembly 200 comprises a mounting barrel 201, the mounting barrel 201 is mounted on the inner bottom wall of the treatment barrel 4, the bottom end of the mounting barrel 201 is communicated with the air outlet pipe 103, a spiral body 202 is fixedly connected to the inner wall of the mounting barrel 201 through a plurality of support rods, the mist is guided to be in a cyclone shape when passing through the spiral body 202, after the mist is formed, the fan 101 is started to convey the mist into the mounting barrel 201 through the air exhaust pipe 102 and the air outlet pipe 103, in the flowing process of the mist through the mounting barrel 201, the mist can move upwards along with the upper body of the spiral body 202 under the pushing action of the fan 101 when passing through the spiral body 202, eventually forming a cyclone.

Referring to fig. 1, 2, 3 and 5, the filter layer 7 is disposed at the middle side of the interior of the treatment tank 4, the upper side of the interior of the treatment tank 4 is provided with a wire mesh demister assembly 300, the filter layer 7 and the wire mesh demister assembly 300 are used for dedusting and removing water mist, the wire mesh demister assembly 300 comprises two semicircular wire mesh layers 301, two arc-shaped mounting frames 302 are fixedly connected to two sides of the upper portion of the inner wall of the treatment tank 4, the bottom ends of the arc-shaped mounting frames 302 are fixedly connected with a plurality of support plates 303, the semicircular wire mesh layers 301 are disposed between the top ends of the corresponding support plates 303, a connecting piece 800 is disposed between the corresponding ends of the two semicircular wire mesh layers 301, the connecting piece 800 comprises a plurality of connecting frames 801, the plurality of connecting frames 801 are fixedly connected to one end of one semicircular wire mesh layer 301 close to the other semicircular wire mesh layer 301, the other semicircular wire mesh layer 301 is fixedly connected with a plurality of connecting pieces 802 corresponding to the plurality of connecting frames 801, two mutually corresponding connecting sheets 802 and connecting frames 801 are connected through screws 803, after the water mist spirally rises and passes through the filter layer 7, metal impurities doped in the water mist can be screened out by the filter layer 7 and attached to the filter layer 7, then the water mist can further rise and pass through two semicircular wire mesh layers 301, the semicircular wire mesh layers 301 are one type of real-life wire mesh demisters, the moisture in the water mist can be fully filtered, then the moisture in the water mist is greatly reduced, then the water mist is discharged along with a discharge pipeline 6 communicated with one end of the barrel cover 5, the semicircular wire mesh layers 301 inevitably have the problem of damage in the long-term water mist treatment process, the corresponding lifting plate 402 is pushed by the first electric cylinder 401 so as to temporarily separate the barrel cover 5 from the treatment barrel 4, because the rotary barrel 701 and the fixed barrel 501 are in sliding connection, the two semicircular wire net layers 301 are separated by lifting without any influence on the position of the fixed cylinder 501 and then removing the screws 803 connected between the two mutually corresponding connection pieces 802 and connection frames 801, thereby removing the two semicircular wire net layers 301 from the corresponding arc-shaped mounting plates and the plurality of support plates 303.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, the cleaning assembly 500 is disposed inside the treatment tank 4 and is used for cleaning impurities attached to the filtering layer 7, the cleaning assembly 500 includes a fixed cylinder 501, two semicircular wire mesh layers 301 and the filtering layer 7 are provided with openings corresponding to the fixed cylinder 501, two sides of the middle of the fixed cylinder 501 are respectively communicated with a drainage cylinder 502, bottom ends of the two drainage cylinders 502 are respectively communicated with a plurality of spray pipes 503, the drainage cylinders 502 are disposed on the upper side of the filtering layer 7, two sides of the bottom of the fixed cylinder 501 are respectively fixedly connected with a connecting plate 504, top ends of the two connecting plates 504 are respectively fixedly connected with a plurality of brushes 505, the connecting plates 504 are disposed on the lower side of the filtering layer 7, the brushes 505 are attached to the bottom end of the filtering layer 7, the top of the cyclone assembly 200 is provided with a collecting assembly 600 for collecting and discharging cleaned water and metal impurities, the collecting assembly 600 includes a collecting frame 601, the collecting frame 601 is arranged on the inner wall of the processing barrel 4, the middle part of the bottom end of the collecting frame 601 is provided with a using port, the top of the mounting barrel 201 is fixedly connected in the using port, a drain pipe 602 is communicated between the collecting frame 601 and one end of the processing barrel 4, the middle part of the mounting barrel 201 is provided with a sealing assembly 900, the sealing assembly 900 comprises two semicircular sealing plates 901, sliding ports are respectively arranged on two sides of the top of the mounting barrel 201, the semicircular sealing plates 901 are in sliding connection in the corresponding sliding ports, two electric cylinders 902 are respectively arranged on two sides of the inner wall of the processing barrel 4, the output end of each electric cylinder 902 is fixedly connected with the corresponding semicircular sealing plate 901, the two semicircular sealing plates 901 are respectively arranged on the lower side of the collecting frame 601, when the filter layer 7 is blocked and the filter layer 7 needs to be cleaned, the two electric cylinders 902 are started to push the corresponding semicircular sealing plates 901 which are arranged in the sliding ports, the two semicircular sealing plates 901 are attached to each other, the mounting cylinder 201 is temporarily kept closed, water and metal impurities cleaned from the filter layer 7 fall into the collecting frame 601, and then the dirty water is pumped out of the collecting frame 601 to the outside of the treatment tank 4 by an external sludge pump or the like through a drain pipe 602 communicating between the collecting frame 601 and one end of the treatment tank 4.

Referring to fig. 1, 2, 3, 4, 5 and 6, a driving assembly 700 is disposed between the cleaning assembly 500 and the lid 5, the driving assembly 700 is used for driving the cleaning assembly 500 to clean the filter layer 7, the driving assembly 700 includes a rotating drum 701, a rotating opening is disposed at the top end of the lid 5, the rotating drum 701 rotates in the rotating opening, a water feeding pipe 703 is connected to the top end of the rotating drum 701 in a sealing and rotating manner through a connecting pipe 702, a first gear 704 is sleeved on the top of the rotating drum 701, a second gear 705 is engaged on the first gear 704, a motor 706 is mounted on the top end of the lid 5 through a mounting frame, the second gear 705 is sleeved on the output end of the motor 706, the bottom of the rotating drum 701 is slidably connected to the inner wall of the fixing drum 501, the first motor 706 is started to rotate the rotary cylinder 701 through the meshing relationship between the first gear 704 and the second gear 705, then a water source is filled into the rotary cylinder 701 through the water filling pipe 703 and the connecting pipe 702, so that the rotary cylinder 701 can also fill water into the fixed cylinder 501 in the process of driving the fixed cylinder 501 to rotate, the water can be sprayed out through the water drainage cylinder 502 and the plurality of water spraying pipes 503 to flush the top end of the filter layer 7 and the filter holes, the filter layer 7 can be kept smooth rapidly, and then the metal impurities attached to the bottom end of the filter layer 7 can be brushed through the two connecting plates 504 and the plurality of brushes 505 fixedly connected with the top ends of the two connecting plates 504, so that the bottom end of the filter layer 7 can be ensured to be clean.

In summary, the principle of use of the water mist removing device of the powerful cooler is as follows: during the process of moving in the pipeline 2 after the metal is cast out, the metal is cooled by the cooler body 1, which is beneficial to rapid shaping, and after the cold air contacts with the high-temperature metal casting, water mist steam is formed, and small metal impurities are doped in the water mist steam, so that the water mist is required to be dedusted and defogged for direct discharge or recycling, after the water mist is formed, the fan 101 is started, the water mist is conveyed into the installation cylinder 201 through the exhaust pipe 102 and the air outlet pipe 103, during the process of flowing the water mist through the installation cylinder 201, the water mist moves upwards along with the upper body of the spiral body 202 under the pushing action of the fan 101 when passing through the spiral body 202, finally, cyclone is formed, after the water mist rises upwards and passes through the filter layer 7, the metal impurities doped in the water mist are screened out by the filter layer 7 and are attached to the filter layer 7, the water mist can further rise to pass through the two semicircular wire mesh layers 301, the semicircular wire mesh layers 301 are one kind of real-life wire mesh demisters, the water in the water mist can be sufficiently filtered, the water in the water mist is greatly reduced, the water is discharged along with a discharge pipeline 6 communicated with one end of the barrel cover 5, the semicircular wire mesh layers 301 inevitably have damage in the process of processing the water mist for a long time, the first electric cylinder 401 is started to push the corresponding lifting plate 402 so as to temporarily separate the barrel cover 5 from the processing barrel 4, the rotary barrel 701 and the fixed barrel 501 are in sliding connection, the positions of the fixed barrel 501 are not affected by rising, then the two mutually corresponding connecting pieces 802 and the connecting frame 801 are released from being connected by the screws 803, thereby removing the two semicircular wire mesh layers 301 from the corresponding arc-shaped mounting plate and the plurality of support plates 303;

when the filter layer 7 is blocked and needs to be cleaned, two electric cylinders 902 are started to push the corresponding semicircular sealing plates 901 which are arranged in the sliding port in a sliding manner, the two semicircular sealing plates 901 are mutually attached, the mounting cylinder 201 is temporarily kept closed, when the filter layer 7 needs to be cleaned, the rotary cylinder 701 is rotated by starting the motor 706 through the meshing relationship between the first gear 704 and the second gear 705, then a water source is filled into the rotary cylinder 701 through the water filling pipe 703 and the connecting pipe 702, the rotary cylinder 701 can be filled into the fixed cylinder 501 in the process of driving the fixed cylinder 501 to rotate, water can be sprayed out through the water draining cylinder 502 and the water spraying pipes 503, the top end of the filter layer 7 and the filtering holes are washed, the filter layer 7 can be kept smooth rapidly, then the metal impurities attached to the bottom end of the filter layer 7 are brushed through the two connecting plates 504 and the plurality of brushes 505, the bottom end of the filter layer 7 can be ensured to be cleaned, water and the metal impurities cleaned from the filter layer 7 can fall into the collecting frame 601, and then the water is pumped out of the collecting frame 4 through the external water draining pipe 601 and the collecting frame 4 is communicated with the external sludge treatment device 601, and the outside the collecting frame 4 is communicated with the collecting frame 4.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a powerful cooler defogging device, includes cooler body (1), its characterized in that still includes:

the cooling machine comprises a using pipeline (2), wherein the cooler body (1) is arranged on the using pipeline (2), a gas collecting hopper (3) is arranged at the top of the using pipeline (2), and the gas collecting hopper (3) is used for collecting water mist generated in the using process of the cooler body (1);

the device comprises a processing barrel (4), wherein a barrel cover (5) is arranged at the top end of the processing barrel (4) through a lifting assembly (400), a conveying assembly (100) is communicated between the processing barrel (4) and a gas collecting hopper (3), the conveying assembly (100) is used for conveying water mist collected by the gas collecting hopper (3) into the processing barrel (4), a cyclone assembly (200) is arranged at the bottom side of the interior of the processing barrel (4), the cyclone assembly (200) is used for enabling the mist to generate a cyclone shape, and one end of the barrel cover (5) is communicated with a discharge pipeline (6);

the filter layer (7) is arranged on the middle side of the inside of the treatment barrel (4), a wire mesh demisting assembly (300) is arranged on the upper side of the inside of the treatment barrel (4), and the filter layer (7) and the wire mesh demisting assembly (300) are used for dedusting and removing water mist;

cleaning assembly (500), cleaning assembly (500) set up in the inside of handling bucket (4) for clear up attached impurity on filter layer (7), the top of cyclone subassembly (200) is provided with collection subassembly (600) for collect the emission to water and the metallic impurity that the clearance got off, be provided with drive assembly (700) between cleaning assembly (500) and bung (5), drive assembly (700) are used for driving cleaning assembly (500) and clear up filter layer (7).

2. The water mist removing device of the powerful cooler according to claim 1, wherein the conveying assembly (100) comprises a fan (101), the fan (101) is installed at the top end of the cooler body (1) through an installation body, an exhaust pipe (102) is communicated between the input end of the fan (101) and the top end of the gas collecting hopper (3), and an air outlet pipe (103) is communicated with the output end of the fan (101).

3. The water mist removing device of the forced cooler according to claim 1, wherein the cyclone assembly (200) comprises a mounting cylinder (201), the mounting cylinder (201) is mounted on the inner bottom wall of the treatment barrel (4), the bottom end of the mounting cylinder (201) is communicated with the air outlet pipe (103), a spiral body (202) is fixedly connected to the inner wall of the mounting cylinder (201) through a plurality of supporting rods, and the water mist is guided to be in a cyclone shape when passing through the spiral body (202).

4. The water mist removing device of the powerful cooler according to claim 1, wherein the wire mesh mist removing assembly (300) comprises two semicircular wire mesh layers (301), two arc-shaped mounting frames (302) are fixedly connected to two sides of the upper portion of the inner wall of the treatment barrel (4), a plurality of support plates (303) are fixedly connected to the bottom ends of the arc-shaped mounting frames (302), the semicircular wire mesh layers (301) are arranged between the top ends of the corresponding support plates (303), and a connecting piece (800) is arranged between one ends of the corresponding semicircular wire mesh layers (301).

5. The water mist removing device of the powerful cooler according to claim 1, wherein the lifting assembly (400) comprises an electric cylinder I (401), the electric cylinder I (401) is installed on one side of the outer wall of the treatment barrel (4), lifting plates (402) are fixedly connected to two sides of the outer wall of the barrel cover (5), an output end of the electric cylinder I (401) is fixedly connected with the corresponding lifting plates (402), a supporting plate is fixedly connected to one side of the outer wall of the treatment barrel (4), and a telescopic rod (403) is arranged between the supporting plate and the corresponding lifting plates (402).

6. The water mist removing device of a forced cooler according to claim 4, wherein the cleaning assembly (500) comprises a fixed cylinder (501), two semicircular silk screen layers (301) and a filter layer (7) are provided with openings corresponding to the fixed cylinder (501), two sides of the middle of the fixed cylinder (501) are respectively communicated with a drainage cylinder (502), two bottoms of the drainage cylinders (502) are respectively communicated with a plurality of water spraying pipes (503), the drainage cylinders (502) are positioned on the upper side of the filter layer (7), connecting plates (504) are respectively fixedly connected to two sides of the bottom of the fixed cylinder (501), a plurality of brushes (505) are respectively fixedly connected to the top ends of the two connecting plates (504), the connecting plates (504) are positioned on the lower side of the filter layer (7), and the brushes (505) are attached to the bottom of the filter layer (7).

7. The water mist removing device of the powerful cooler according to claim 3, wherein the collecting assembly (600) comprises a collecting frame (601), the collecting frame (601) is arranged on the inner wall of the processing barrel (4), a use port is formed in the middle of the bottom end of the collecting frame (601), the top of the mounting barrel (201) is fixedly connected in the use port, a drain pipe (602) is communicated between the collecting frame (601) and one end of the processing barrel (4), and a sealing assembly (900) is arranged in the middle of the mounting barrel (201).

8. The water mist removing device of the forced cooler according to claim 6, characterized in that the driving assembly (700) comprises a rotating cylinder (701), a rotating opening is formed in the top end of the barrel cover (5), the rotating cylinder (701) rotates in the rotating opening, the top end of the rotating cylinder (701) is connected with a water adding pipe (703) through a connecting pipe (702) in a sealing rotating mode, a gear I (704) is sleeved on the top of the rotating cylinder (701), a gear II (705) is meshed on the gear I (704), a motor (706) is mounted on the top end of the barrel cover (5) through a mounting frame, the gear II (705) is sleeved on the output end of the motor (706), and the bottom of the rotating cylinder (701) is connected to the inner wall of the fixed cylinder (501) in a sliding mode.

9. The water mist removing device of the forced cooler according to claim 4, wherein the connecting piece (800) comprises a plurality of connecting frames (801), the connecting frames (801) are fixedly connected to one end of one semicircular silk screen layer (301) close to the other semicircular silk screen layer (301), the other semicircular silk screen layer (301) is fixedly connected with a plurality of connecting pieces (802) corresponding to the connecting frames (801), and two connecting pieces (802) corresponding to each other are connected with the connecting frames (801) through screws (803).

10. The water mist removing device of the powerful cooler according to claim 7, wherein the sealing assembly (900) comprises two semicircular sealing plates (901), sliding ports are formed in two sides of the top of the mounting cylinder (201), the semicircular sealing plates (901) are slidably connected in the corresponding sliding ports, two electric cylinders (902) are mounted on two sides of the inner wall of the processing barrel (4), the output end of each electric cylinder (902) is fixedly connected with the corresponding semicircular sealing plate (901), and the two semicircular sealing plates (901) are arranged on the lower side of the collecting frame (601).

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