CN112178812A - Air inlet dust removal mechanism for industrial system air conditioner - Google Patents

Abstract

The invention discloses an air inlet dust removal mechanism for an industrial system air conditioner, relates to the field related to industrial systems, and aims to solve the problems of difficulty in installation and high use cost in the prior art. The mechanism comprises a mechanism body and is characterized in that an air cavity is formed in the mechanism body, a partition plate is arranged in the air cavity and is connected with the mechanism body through argon arc welding, a non-woven fabric plate is arranged on the partition plate and is fixedly connected with the partition plate, an electrostatic generator is arranged at the lower end of the non-woven fabric plate and is tightly attached to the non-woven fabric plate, a supporting block is arranged at the lower end of the electrostatic generator and is arranged to be attached to the electrostatic generator, a baffle is arranged at the lower end of the supporting block and is fixedly connected with the supporting block, the baffle is fixedly connected with the mechanism body, a first mounting block is arranged on the mechanism body and is provided with four mounting blocks, and the first mounting blocks are connected with the mechanism body through manual arc welding.

Description

Air inlet dust removal mechanism for industrial system air conditioner

Technical Field

The invention belongs to the field related to industrial systems, and particularly relates to an air inlet dust removal mechanism for an industrial system air conditioner.

Background

Industrial systems generally refer to industrial control systems which are required for large data volume, high rate transmission such as images, voice signals, etc., and which are currently popular in the commercial field as a combination of ethernet and control networks. The networking wave of the industrial control system integrates various current popular technologies such as an embedded technology, multi-standard industrial control network interconnection, a wireless technology and the like, thereby expanding the development space of the industrial control field and bringing new development opportunities. With the development of computer technology, communication technology and control technology, the traditional control field is undergoing an unprecedented revolution and starts to develop towards networking.

And be provided with the air conditioner more in the industrial system technology of current, but when the air conditioner carries out long-time work, often can carry out convulsions because the air intake, bring the dust in the outside air into the inside of air intake, thereby influence the life of air conditioner, then when using the air conditioner, need assist and use dust removal mechanism and carry out the dust removal processing to the dust, and current dust removal mechanism is when using, use the sack formula dust removal more and realize the dust removal to the dust, but the difficult self-cleaning to dust removal mechanism that realizes of dust removal mode of sack formula, and the dust removal of sack formula needs a plurality of sacks to use simultaneously, it is comparatively costing use cost and work efficiency is also lower.

The existing dust removal mechanisms of the air inlets for the air conditioners of the industrial systems have the problems of difficult installation and higher use cost; therefore, the air inlet dust removal mechanism for the industrial system air conditioner is urgently needed to be developed in the market to help people to solve the existing problems.

Disclosure of Invention

The purpose of the invention is as follows: the utility model provides an air intake dust removal mechanism for industrial system air conditioner to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: the utility model provides an air intake dust removal mechanism for industrial system idle call, includes the mechanism main part, the inside of mechanism main part is provided with the wind chamber, the inside in wind chamber is provided with the baffle, the baffle passes through argon arc welding with the mechanism main part and is connected, be provided with the non-woven fabrics board on the baffle, non-woven fabrics board and baffle fixed connection, the lower extreme of non-woven fabrics board is provided with electrostatic generator, the non-woven fabrics board is hugged closely to electrostatic generator, electrostatic generator's lower extreme is provided with the supporting shoe, the supporting shoe sets up to the laminating with electrostatic generator, the lower extreme of supporting shoe is provided with the baffle, baffle and supporting shoe fixed connection, baffle and mechanism main part fixed connection can realize adsorbing the inside dust of getting into dust removal mechanism through the setting of each structure.

In a further embodiment, the mechanism body is provided with four first mounting blocks, the first mounting blocks are connected with the mechanism body through manual arc welding, the first mounting blocks are provided with four first mounting holes, each first mounting hole is provided with two first mounting holes, one first mounting block is provided with one first mounting hole, each first mounting hole is provided with a round hole, the depth of each first mounting hole is consistent with the thickness of the corresponding first mounting block, one side of each first mounting block is provided with four second mounting blocks, each second mounting block is provided with an L shape, the four second mounting blocks are arranged at four corners of a rectangular side end of the mechanism body, and the second mounting blocks are connected with the mechanism body through manual arc welding, the second installation block is provided with second installation holes, the second installation holes are provided with four groups, each group of second installation holes is provided with two, two second installation holes are respectively arranged on the vertical edge of one second installation block, the depth of each second installation hole is consistent with the thickness of the corresponding second installation block, and the whole dust removal mechanism can be quickly installed and detached through the arrangement of the structures.

In a further embodiment, an air collecting plate is arranged on one side of the mechanism main body and connected with the mechanism main body through argon arc welding, an air inlet plate is arranged inside the air collecting plate and fixedly connected with the mechanism main body, a plurality of air inlet grooves are formed in the air inlet plate and are linearly arranged by taking the axial central line of the air inlet plate as an axis, the distance between every two adjacent air inlet grooves is set to be consistent, the depth of each air inlet groove is set to be consistent with the thickness of each air inlet plate, and air entering the air inlet can be collected through arrangement of all structures.

In a further embodiment, a first filter plate is arranged on one side of the air inlet plate, the first filter plate is fixedly connected with the mechanism body, an exhaust box is arranged on one side of the first filter plate, the exhaust box is connected with the mechanism body through manual electric arc welding, an exhaust groove is formed in the exhaust box, the exhaust groove is a rectangular groove, a second filter plate is arranged in the exhaust groove, the second filter plate is connected with the exhaust box through manual electric arc welding, and multiple filtering processing on air after adsorption can be achieved through arrangement of structures.

In a further embodiment, the rear end of one side of the first filter plate is provided with two electric slideways, the two electric slideways are symmetrically arranged on the front inner wall and the rear inner wall inside the mechanism body, the electric slideways are connected with the mechanism body through bolts, the front end of each electric slideway is provided with a cleaning roller, the surface of each cleaning roller is provided with cleaning bristles, an electric slide rod is arranged inside each cleaning roller, the electric slide rods are fixedly connected with the cleaning rollers, the electric slide rods are electrically connected with the electric slideways, the lower ends of the electric slideways are provided with a water storage tank, the water storage tank is fixedly connected with the mechanism body, and the adsorbed dust can be cleaned through the arrangement of each structure.

In a further embodiment, the inside of cistern is provided with the blow off pipe, the blow off pipe passes through argon arc welding with the cistern and is connected, be provided with second electric valve on the blow off pipe, second electric valve and blow off pipe fixed connection, be provided with the card pole groove on the cistern, the card pole groove runs through to the rear end face of cistern from the preceding terminal surface of cistern, card pole groove and electric slide bar set up to the laminating, can discharge the processing through the setting of each structure, realize the clean water to the pollution.

In a further embodiment, the front end of the sewage discharge pipe is provided with a water pumping pipe, the water pumping pipe is provided with two sealing rings, one side of the water pumping pipe is provided with a lifting pump, the lifting pump is fixedly connected with the water pumping pipe, the front end of the lifting pump is provided with two fixing baffles, the two fixing baffles are arranged to be attached to the mechanism main body, the fixing baffle is provided with an observation window, the observation window is fixedly connected with the fixing baffle, the lifting pump is provided with a lifting pipe, the lifting pipe is fixedly connected with the lifting pump, the lifting pipe is provided with a filtering purifier, the filtering purifier is fixedly connected with the lifting pipe, one side of the filtering purifier is provided with a water supply pipe, the water supply pipe is fixedly connected with the filtering purifier, and the water supply pipe is provided with a first electric valve, the first electric valve is fixedly connected with the water supply pipe, and purification and circulating treatment of polluted clean water can be realized through arrangement of all structures.

In a further embodiment, a partition plate is arranged at the upper end of the lift pump, the partition plate is fixedly connected with the mechanism main body, the partition plate is fixedly connected with a baffle, an equipment box is arranged at the upper end of the partition plate, the equipment box is fixedly connected with the partition plate, a heat dissipation groove is arranged on the outer surface of the equipment box, the depth of the heat dissipation groove is consistent with the thickness of the equipment box, an E840-DTU wireless transmission module is arranged inside the equipment box, a storage battery pack is arranged on one side of the E840-DTU wireless transmission module, an RS485 general control module is arranged at the front end of the storage battery pack, the RS485 general control module is electrically connected with the E840-DTU wireless transmission module, a GCAN data acquisition module is arranged on one side of the front end of the RS485 general control module, the GCAN data acquisition module is electrically connected with the RS485 general control module, and can be set by each structure, the opening, closing and control of the dust removing mechanism are realized.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the non-woven fabric plate and the electrostatic generator, when a user uses the air inlet dust removal mechanism, the phenomenon of electrostatic adsorption generated on the non-woven fabric plate can be caused by the electrostatic generator, so that the dust carried by the air in the air cavity is adsorbed, and the use cost required by the user can be further reduced to a certain extent;

2. according to the invention, through the arrangement of the cleaning roller, the electric slideway and the electric slide rod, a user can control the electric slide rod to move in the electric slideway during the process of using the air inlet dust removal mechanism, so that the surface of the non-woven fabric plate is cleaned through the cleaning roller, the service life of the whole dust removal mechanism can be prolonged, and the user can use the dust removal mechanism conveniently;

3. according to the invention, through the arrangement of the water storage tank, the lifting pump and the filtering purifier, when a user uses the air inlet dust removal mechanism, the cleaning roller can be cleaned by cleaning water in the water storage tank, polluted cleaning water in the water storage tank is lifted to the interior of the filtering purifier by the lifting pump, and the polluted cleaning water is purified by the filtering purifier, so that secondary recycling of the polluted cleaning water in the water storage tank can be realized to a certain extent.

Drawings

FIG. 1 is a schematic cross-sectional structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a schematic diagram of the construction of the lift pump of the present invention;

fig. 5 is a schematic view of the internal structure of the equipment box of the present invention.

In the figure: the mechanism comprises a mechanism main body 1, a first mounting block 2, a first mounting hole 3, a second mounting block 4, a second mounting hole 5, an air collecting plate 6, an air inlet plate 7, an air inlet groove 8, an air cavity 9, a first filter plate 10, an air exhaust box 11, an air exhaust groove 12, a second filter plate 13, an electric slideway 14, a cleaning roller 15, an electric slide bar 16, a partition plate 17, a non-woven fabric plate 18, an electrostatic generator 19, a support block 20, a baffle plate 21, a partition plate 22, an equipment box 23, an E840-DTU wireless transmission module 24, a storage battery pack 25, an RS485 master control module 26, a GCAN data acquisition module 27, a fixed baffle plate 28, an observation window 29, a lifting pump 30, a lifting pipe 31, a filtering purifier 32, a water conveying pipe 33, a first electric valve 34, a water pumping pipe 35, a sealing ring 36, a reservoir 37, a rod clamping groove 38, a sewage discharging pipe 39 and a second electric.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: an air inlet dedusting mechanism for an industrial system air conditioner comprises a mechanism body 1, an air cavity 9 is arranged inside the mechanism body 1, a partition plate 17 is arranged inside the air cavity 9, the partition plate 17 is connected with the mechanism body 1 through argon arc welding, a non-woven fabric plate 18 is arranged on the partition plate 17, the non-woven fabric plate 18 is fixedly connected with the partition plate 17, an electrostatic generator 19 is arranged at the lower end of the non-woven fabric plate 18, the electrostatic generator 19 is tightly attached to the non-woven fabric plate 18, a supporting block 20 is arranged at the lower end of the electrostatic generator 19, the supporting block 20 is attached to the electrostatic generator 19, a baffle 21 is arranged at the lower end of the supporting block 20, the baffle 21 is fixedly connected with the supporting block 20, the baffle 21, the static generator 19 can control the non-woven fabric plate 18 to be charged with static electricity, and the dust in the wind cavity 9 is adsorbed on the non-woven fabric plate 18 by the principle of electrostatic adsorption, so that the dust is removed.

Further, a first mounting block 2 is arranged on the mechanism main body 1, four first mounting blocks 2 are arranged, the first mounting blocks 2 are connected with the mechanism main body 1 through manual arc welding, first mounting holes 3 are arranged on the first mounting blocks 2, four groups of first mounting holes 3 are arranged, two first mounting holes 3 are arranged in each group, one first mounting block 2 is provided with one group of first mounting holes 3, the first mounting holes 3 are arranged in a circular hole shape, the depth of each first mounting hole 3 is consistent with the thickness of the first mounting block 2, one side of each first mounting block 2 is provided with four second mounting blocks 4, the number of the second mounting blocks 4 is four, the second mounting blocks 4 are arranged in an L shape, the four second mounting blocks 4 are arranged at four corners of a rectangular side end of the mechanism main body 1, the second mounting blocks 4 are connected with the mechanism main body 1 through manual arc welding, the second mounting holes 5 are arranged on the second mounting blocks 4, the second mounting holes 5 are provided with four groups, each group of the second mounting holes 5 is provided with two, the two second mounting holes 5 are respectively arranged on the vertical edge of one second mounting block 4, the depth of the second mounting holes 5 is consistent with the thickness of the second mounting block 4, and the first mounting holes 3 and the second mounting holes 5 on the first mounting block 2 and the second mounting block 4 can be connected with the whole dustproof mechanism through bolts.

Further, one side of the mechanism main body 1 is provided with an air collecting plate 6, the air collecting plate 6 is connected with the mechanism main body 1 through argon arc welding, an air inlet plate 7 is arranged inside the air collecting plate 6, the air inlet plate 7 is fixedly connected with the mechanism main body 1, an air inlet groove 8 is formed in the air inlet plate 7, a plurality of air inlet grooves 8 are formed in the air inlet groove 8, the plurality of air inlet grooves 8 are linearly arranged by taking the axial central line of the air inlet plate 7 as an axis, the distance between every two adjacent air inlet grooves 8 is set to be consistent, the depth of each air inlet groove 8 is set to be consistent with the thickness of the air inlet plate 7, air can be collected through the air collecting plate 6 in a bucket-shaped structure, and flow rate control is performed on the air through the arrangement of.

Further, one side of the air inlet plate 7 is provided with a first filter plate 10, the first filter plate 10 is fixedly connected with the mechanism body 1, one side of the first filter plate 10 is provided with an air exhaust box 11, the air exhaust box 11 is connected with the mechanism body 1 through manual arc welding, an air exhaust groove 12 is formed in the air exhaust box 11, the air exhaust groove 12 is a rectangular groove, a second filter plate 13 is arranged in the air exhaust groove 12, the second filter plate 13 is connected with the air exhaust box 11 through manual arc welding, and filtered air can be exhausted through the air exhaust groove 12.

Further, the rear end of one side of the first filter plate 10 is provided with two electric slideways 14, the two electric slideways 14 are symmetrically arranged on the front inner wall and the rear inner wall inside the mechanism body 1, the electric slideways 14 are connected with the mechanism body 1 through bolts, the front end of each electric slideway 14 is provided with a cleaning roller 15, the surface of each cleaning roller 15 is provided with cleaning bristles, the inside of each cleaning roller 15 is provided with an electric slide bar 16, the electric slide bars 16 are fixedly connected with the cleaning rollers 15, the electric slide bars 16 are electrically connected with the electric slideways 14, the lower end of each electric slideway 14 is provided with a water reservoir 37, and the water reservoir 37 is fixedly connected with the mechanism body 1. The cleaning roller 15 can be cleaned by the cleaning water in the reservoir 37, and the non-woven fabric board can be cleaned in all directions conveniently to a great extent by the electric slide bar 16 and the electric slide way 14 which are electrically connected

Further, the inside of cistern 37 is provided with blow off pipe 39, blow off pipe 39 passes through argon arc welding with cistern 37 and is connected, be provided with second electric valve 40 on the blow off pipe 39, second electric valve 40 and blow off pipe 39 fixed connection, be provided with card pole groove 38 on the cistern 37, card pole groove 38 runs through to the rear end face of cistern 37 from the preceding terminal surface of cistern 37, card pole groove 38 sets up to the laminating with electric slide bar 16, can make things convenient for electric slide bar to wash through card pole groove 38, also can control blow off flow of blow off pipe 39 through second electric valve 40 simultaneously.

Further, a water pumping pipe 35 is arranged at the front end of the sewage discharging pipe 39, a sealing ring 36 is arranged on the water pumping pipe 35, two sealing rings 36 are arranged, a lifting pump 30 is arranged on one side of the water pumping pipe 35, the lifting pump 30 is fixedly connected with the water pumping pipe 35, a fixed baffle 28 is arranged at the front end of the lifting pump 30, two fixed baffles 28 are arranged, the fixed baffle 28 is attached to the mechanism main body 1, an observation window 29 is arranged on the fixed baffle 28, the observation window 29 is fixedly connected with the fixed baffle 28, a lifting pipe 31 is arranged on the lifting pump 30, the lifting pipe 31 is fixedly connected with the lifting pump 30, a filtering purifier 32 is arranged on the lifting pipe 31, the filtering purifier 32 is fixedly connected with the lifting pipe 31, a water feeding pipe 33 is arranged on one side of the filtering purifier 32, the water feeding pipe 33 is fixedly connected with the filtering purifier 32, a first electric valve 34 is arranged on the water feeding pipe 33, the contaminated cleaning water in the reservoir 37 is lifted to the inside of the filter purifier 32 by the lift pump 30, and the cleaning water is filtered and purified by the filter purifier 32, and the flow rate of the water supply pipe 33 is controlled by the first electric valve 4.

Further, the upper end of the lift pump 30 is provided with a partition plate 22, the partition plate 22 is fixedly connected with the mechanism main body 1, the partition plate 22 is fixedly connected with the baffle 21, the upper end of the partition plate 22 is provided with an equipment box 23, the equipment box 23 is fixedly connected with the partition plate 22, the outer surface of the equipment box 23 is provided with a heat dissipation groove, the depth of the heat dissipation groove is consistent with the thickness of the equipment box 23, the inside of the equipment box 23 is provided with an E840-DTU wireless transmission module 24, one side of the E840-DTU wireless transmission module 24 is provided with a storage battery pack 25, the front end of the storage battery pack 25 is provided with an RS485 general control module 26, the RS485 general control module 26 is electrically connected with the E840-DTU wireless transmission module 24, one side of the front end of the RS485 general control module 26 is provided with a GCAN data acquisition module 27, the GCAN data acquisition module 27 is electrically connected with the RS485 general control module 26, and data transmission can be carried out, meanwhile, the dust removal mechanism is controlled and processed through the RS485 general control module 26, data are collected and stored through the GCAN data collection module 27, and finally power supply processing is carried out on equipment inside the dust removal mechanism through the storage battery pack 25.

The working principle is as follows: when the dust removal mechanism is used, firstly, the air inlet dust removal mechanism for the air conditioner of the whole industrial system is checked, after a user confirms that the checking is correct, the power supply is switched on, the equipment is started, the user can start to use, the user can complete the connection of the whole dust removal mechanism and the air conditioner through the first mounting holes 3 and the second mounting holes 5 on the first mounting blocks 2 and the second mounting blocks 4 firstly, after the user confirms that the fixing is completed, the user can use the dust removal mechanism, when the user uses the dust removal mechanism, external fresh air sucked into the air conditioner can enter the air chamber 9 through the air inlet grooves 8 on the air inlet plates 7 along the air collecting plates 6, meanwhile, the RS485 general control module 26 controls the static generator 19 to be started, static electricity is attached to the non-woven fabric plates 18 through the started static electricity generator 19, dust carried in the fresh air is adsorbed through the principle of the static electricity, and the adsorbed fresh air passes through the first filter plates 10 and the second filter plates 13 in sequence and is discharged from one side of the air exhaust grooves 12 And discharging, namely finishing dust removal treatment on an air inlet, after the dust removal mechanism is used, controlling the electric slide rod 16 to move in the electric slide way 14 through the RS485 general control module 26, so that the non-woven fabric plate 18 is cleaned through the cleaning roller 15, after the cleaning is confirmed to be finished, moving the cleaning roller 15 to the inside of the water storage tank 37, cleaning the cleaning water in the water storage tank 37, after the treatment is finished, cleaning the cleaning roller 15, lifting polluted cleaning water to the inside of the filtering purifier 32 under the action of the lifting pump 30, carrying out filtering and purifying treatment on the polluted cleaning water through the filtering purifier 32, and after a period of time, conveying the polluted cleaning water into the water storage tank 37 through the water conveying pipe 33 again to realize recycling of the cleaning water.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an air intake dust removal mechanism for industrial system air conditioner, includes mechanism main part (1), its characterized in that: the mechanism is characterized in that an air cavity (9) is formed in the mechanism body (1), a partition plate (17) is arranged in the air cavity (9), the partition plate (17) is connected with the mechanism body (1) through argon arc welding, a non-woven fabric plate (18) is arranged on the partition plate (17), the non-woven fabric plate (18) is fixedly connected with the partition plate (17), an electrostatic generator (19) is arranged at the lower end of the non-woven fabric plate (18), the non-woven fabric plate (18) is tightly attached to the electrostatic generator (19), a supporting block (20) is arranged at the lower end of the electrostatic generator (19), the supporting block (20) is attached to the electrostatic generator (19), a baffle (21) is arranged at the lower end of the supporting block (20), the baffle (21) is fixedly connected with the supporting block (20), and the baffle (21) is fixedly connected with the mechanism body (1).

2. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 1, wherein: the mechanism is characterized in that a first mounting block (2) is arranged on the mechanism main body (1), four first mounting blocks (2) are arranged, the first mounting blocks (2) are connected with the mechanism main body (1) through manual arc welding, a first mounting hole (3) is arranged on each first mounting block (2), four groups of first mounting holes (3) are arranged, each group of the first mounting holes (3) is provided with two, one first mounting block (2) is provided with a group of first mounting holes (3), the first mounting holes (3) are arranged in a circular hole shape, the depth of each first mounting hole (3) is consistent with the thickness of the corresponding first mounting block (2), a second mounting block (4) is arranged on one side of each first mounting block (2), four second mounting blocks (4) are arranged, and the second mounting blocks (4) are arranged in an L shape, four second installation piece (4) set up the side rectangle four corners department in mechanism main part (1), second installation piece (4) are connected through manual arc welding with mechanism main part (1), be provided with second mounting hole (5) on second installation piece (4), second mounting hole (5) are provided with four groups, every group of second mounting hole (5) is provided with two, two second mounting hole (5) set up respectively on the perpendicular edge of a second installation piece (4), the degree of depth of second mounting hole (5) sets up to unanimous with the thickness of second installation piece (4).

3. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 1, wherein: one side of mechanism main part (1) is provided with collection aerofoil (6), collection aerofoil (6) are welded through argon arc with mechanism main part (1) and are connected, the inside of collection aerofoil (6) is provided with air inlet plate (7), air inlet plate (7) and mechanism main part (1) fixed connection, be provided with intake stack (8) on air inlet plate (7), intake stack (8) are provided with a plurality ofly, and are a plurality of air inlet stack (8) are the linear arrangement as the axle with the axial central line of air inlet plate (7), adjacent two distance between intake stack (8) sets up to the unanimity, the degree of depth and the thickness of air inlet plate (7) of intake stack (8) set up to the unanimity.

4. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 3, wherein: one side of air inlet plate (7) is provided with first filter (10), first filter (10) and mechanism main part (1) fixed connection, one side of first filter (10) is provided with exhaust case (11), exhaust case (11) are connected through manual arc welding with mechanism main part (1), the inside of exhaust case (11) is provided with exhaust groove (12), exhaust groove (12) set up to the rectangular channel, the inside of exhaust groove (12) is provided with second filter (13), second filter (13) are connected through manual arc welding with exhaust case (11).

5. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 4, wherein: the rear end of first filter (10) one side is provided with electric slide (14), electric slide (14) are provided with two, two electric slide (14) symmetry sets up on the inside front and back inner wall of mechanism main part (1), electric slide (14) pass through bolted connection with mechanism main part (1), the front end of electric slide (14) is provided with clean cylinder (15), the surface of clean cylinder (15) is provided with clean brush hair, the inside of clean cylinder (15) is provided with electric slide bar (16), electric slide bar (16) and clean cylinder (15) fixed connection, electric slide bar (16) and electric slide (14) electric connection, the lower extreme of electric slide (14) is provided with cistern (37), cistern (37) and mechanism main part (1) fixed connection.

6. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 5, wherein: the inside of cistern (37) is provided with blow off pipe (39), blow off pipe (39) are welded through argon arc with cistern (37) and are connected, be provided with second electric valve (40) on blow off pipe (39), second electric valve (40) and blow off pipe (39) fixed connection, be provided with kelly groove (38) on cistern (37), kelly groove (38) run through to the rear end face of cistern (37) from the preceding terminal surface of cistern (37), kelly groove (38) set up to the laminating with electric slide bar (16).

7. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 6, wherein: the front end of blow off pipe (39) is provided with drinking-water pipe (35), be provided with sealing washer (36) on drinking-water pipe (35), sealing washer (36) are provided with two, one side of drinking-water pipe (35) is provided with elevator pump (30), elevator pump (30) and drinking-water pipe (35) fixed connection, the front end of elevator pump (30) is provided with fixed stop (28), fixed stop (28) are provided with two, fixed stop (28) set up to the laminating with mechanism main part (1), be provided with observation window (29) on fixed stop (28), observation window (29) and fixed stop (28) fixed connection, be provided with riser (31) on elevator pump (30), riser (31) and elevator pump (30) fixed connection, be provided with filtration purifier (32) on riser (31), filtration purifier (32) and riser (31) fixed connection, one side of the filtering purifier (32) is provided with a water supply pipe (33), the water supply pipe (33) is fixedly connected with the filtering purifier (32), the water supply pipe (33) is provided with a first electric valve (34), and the first electric valve (34) is fixedly connected with the water supply pipe (33).

8. The air inlet dedusting mechanism for the industrial system air conditioner as claimed in claim 7, wherein: the upper end of the lift pump (30) is provided with a spacer plate (22), the spacer plate (22) is fixedly connected with the mechanism main body (1), the spacer plate (22) is fixedly connected with a baffle (21), the upper end of the spacer plate (22) is provided with an equipment box (23), the equipment box (23) is fixedly connected with the spacer plate (22), the outer surface of the equipment box (23) is provided with a heat dissipation groove, the depth of the heat dissipation groove is consistent with the thickness of the equipment box (23), the inside of the equipment box (23) is provided with an E840-DTU wireless transmission module (24), one side of the E840-DTU wireless transmission module (24) is provided with a storage battery (25), the front end of the storage battery (25) is provided with an RS485 general control module (26), and the RS485 general control module (26) is electrically connected with the E840-DTU wireless transmission module (24), a GCAN data acquisition module (27) is arranged on one side of the front end of the RS485 master control module (26), and the GCAN data acquisition module (27) is electrically connected with the RS485 master control module (26).

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