CN116272282B - Dehumidification and dampproof structure of industrial wastewater treatment system equipment - Google Patents

Abstract

The invention relates to the technical field of wastewater treatment equipment, in particular to a dehumidification and moisture-proof structure of industrial wastewater treatment system equipment. According to the invention, the surfaces of the pipelines are sealed by the first fixing frame and the second fixing frame in cooperation with the plurality of dampproof frames, moisture in the inner space of the first fixing frame, the second fixing frame and the dampproof frames is dried, and meanwhile, the humidity sensors are arranged in the dampproof frames, so that real-time humidity detection is carried out on all positions on the surfaces of the pipeline equipment, and the moisture on the surfaces of the pipeline equipment is timely removed by cooperation with the dehumidifying mechanism, so that the problem that the pipeline equipment corrodes due to the moisture on the surfaces in the use process of the pipeline equipment is effectively solved, the rusting speed of the pipeline equipment is effectively slowed down, and the service life of the pipeline equipment is prolonged.

Description

Dehumidification and dampproof structure of industrial wastewater treatment system equipment

Technical Field

The invention relates to the technical field of wastewater treatment equipment, in particular to a dehumidification and moistureproof structure of industrial wastewater treatment system equipment.

Background

The waste water treatment equipment mainly comprises a treatment tank, a filtering tank, a pipeline and a water pump, and various valves, wherein the equipment is made of metal, so that the equipment is easy to rust, and particularly in the waste water treatment process, the equipment is not prevented from rusting even if the surface of the equipment is provided with a rust-proof layer because the environment is very humid, and because a large amount of waste water contains a large amount of salt, the pH value is higher than that of water which is used daily by people, so that the rusting speed is increased.

The moist air is a main factor causing the oxidation speed of the wastewater treatment equipment to be accelerated, mainly comprises a treatment tank, a filtering tank and the surface of the pipeline equipment, and is currently subjected to simple dampproof treatment in a manner of a thermal insulation sleeve, but after the long-time use, a large amount of moisture still adheres to the surface of the pipeline equipment, and if the moisture cannot be timely removed, the surface of the pipeline equipment is rusted, so that the service life of the pipeline equipment is seriously reduced.

Therefore, we propose a dehumidification and dampproof structure of industrial wastewater treatment system equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a dehumidification and moistureproof structure of industrial wastewater treatment system equipment, which is used for removing the moisture on the surface of a pipeline and solving the problem of corrosion of the pipeline equipment caused by the moisture on the surface in the use process of the pipeline equipment.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the dehumidification and dampproof structure comprises a first fixing frame, a second fixing frame and a dampproof frame, wherein a plurality of dampproof frames are arranged between the first fixing frame and the second fixing frame, the first fixing frame and the second fixing frame are composed of two movable frames, one sides of the two movable frames are rotationally connected through a rotating shaft, the dampproof frame is composed of two movable sleeves, one sides of the two movable sleeves are rotationally connected through the rotating shaft, a dehumidification mechanism is further arranged in the first fixing frame, and humidity sensors are arranged in the dampproof frames;

the inside of the two movable frames is provided with air pumps, the inside of the two movable frames is respectively provided with an active carbon frame and a drying agent frame, one side of the two movable frames is provided with air flow passages, the inside of the two air flow passages is respectively connected with one ends of the two air pumps, the inside of the two movable frames is also provided with air guide grooves, the inside of the two air guide grooves is respectively connected with the other ends of the two air pumps, and the inside of the two air guide grooves is also respectively communicated with the inside of the active carbon frame and the drying agent frame;

the dehumidification mechanism comprises a mounting frame and a dehumidification frame, wherein a mounting groove is formed in the mounting frame, the dehumidification frame is arranged in the mounting groove in a rotating mode, the movable frame is located above the dehumidification frame, the sliding frame is arranged at the top of the inner wall of the movable sleeve above the movable frame, the driving block is arranged at the bottom of the sliding frame, the mounting frame is arranged at the bottom of the driving block, a plurality of second servo electric cylinders are arranged in the dehumidification frame, and the dehumidification blocks are arranged at the driving ends of the plurality of second servo electric cylinders.

Utilize one side inside first mount and second mount to set up the sealing washer and seal the both sides of pipeline surface in the industrial waste water treatment system, cooperate a plurality of dampproofing frame to seal the surface of pipeline simultaneously, through carrying out drying treatment to the moisture of first mount, second mount and dampproofing frame inner space, the inside of first mount still is provided with dehumidification mechanism, through being provided with humidity transducer in the inside of dampproofing frame, carry out real-time humidity detection in each position on pipeline equipment surface, cooperation dehumidification mechanism is timely gets rid of pipeline equipment surface moisture, thereby effectively solved pipeline equipment in the use because the problem that surface moisture caused pipeline equipment to corrode, effectively slowed down pipeline equipment's rust speed, pipeline equipment's life has been improved.

Preferably, the first fixing frame and one side of the second fixing frame are respectively provided with a connecting groove, and the two connecting grooves are respectively provided with a sealing ring.

Preferably, the movable frame one side that is located the top is provided with the connecting block, and one side of connecting block is connected with the movable frame one side that is located the below through the bolt group, two the inside of movable frame all is provided with the limiting plate, and one side of limiting plate is provided with first servo electric jar, and wherein the one end setting of first servo electric jar is in the inside of movable frame.

Preferably, two the inside of movable sleeve all is provided with the air guide mouth, and the inside of two movable sleeve all is provided with the cavity, the one end of movable sleeve is provided with the connecting pipe, and the inside of connecting pipe and the inside intercommunication of cavity, one side of movable frame and the other end of movable sleeve all are provided with connecting pipe matched with connecting hole, and the inside of connecting hole communicates with the inside of air current way.

Preferably, a connecting clamping block is further arranged on one side of the movable sleeve, and connecting clamping grooves matched with the connecting clamping block are formed in the other side of the movable sleeve and one side of the movable frame.

Preferably, the inside of the dehumidification block is provided with absorbent cotton, and one side of the inside of the dehumidification block is also provided with an electric heating rod.

Preferably, racks are arranged on two sides of the inner wall of the sliding frame, driven gears are rotatably arranged on two sides of the inner part of the driving block, and the surfaces of the two driven gears are respectively meshed with the surfaces of the two racks for transmission.

Preferably, the bottoms of the driven gears are provided with first transmission gears through rotating shafts, one sides of the two first transmission gears are provided with second transmission gears, the bottoms of the two second transmission gears are provided with first bevel gears through rotating shafts, the lower meshing transmission of the first bevel gears is provided with second bevel gears, the surface of the dehumidifying frame is provided with a gear ring, and the surface of the gear ring is in meshing transmission with the surface of the second bevel gears.

Preferably, the application method of the dehumidification and dampproof structure of the industrial wastewater treatment system equipment specifically comprises the following steps:

step 1: the method comprises the steps of installing a dehumidifying and dampproof structure on the surface of pipeline equipment, sleeving two movable frames on the surface of the pipeline equipment respectively, connecting a connecting block with one side of the movable frames by utilizing bolts, and finally pushing a limiting plate to contact with the surface of the pipeline equipment by controlling the driving end of a first servo electric cylinder to finish the installation of a first fixing frame and a second fixing frame on the surface of the pipeline equipment, and sealing the surface of the pipeline equipment and the interiors of the first fixing frame and the second fixing frame by utilizing a sealing ring arranged on one side of the interiors of the first fixing frame and the second fixing frame;

step 2: when the dampproof frame is installed, the connecting clamping blocks on one side of the movable sleeve are inserted into the connecting clamping grooves on one side of the movable frame, at the moment, one sides of the two movable sleeves are in contact with each other to complete the connection between the dampproof frame and the first fixed frame, and when the dampproof frame is installed, the connecting clamping blocks on one side of one dampproof frame are inserted into the connecting clamping grooves in the other dampproof frame to complete the assembly between the dampproof frames, and meanwhile, the cavities in the two adjacent dampproof frames are connected through connecting pipes and connecting holes;

step 3: when the surface of the pipeline equipment is dehumidified, the moisture on the surface of the pipeline equipment is extracted through the air guide opening arranged in the movable sleeve below by controlling the air pump, and the air after the drying treatment is sent out through the air guide opening arranged in the movable sleeve above;

step 4: utilize the inside humidity transducer of dampproofing frame to detect the humidity on pipeline equipment surface, through driving second bevel gear, drive first bevel gear and ring gear simultaneously and rotate, drive the dehumidification frame through the ring gear and rotate in the inside of mounting bracket, and first bevel gear rotates and drives two second drive gears and rotate, through the meshing relationship between second drive gear and the first drive gear, thereby let two driven gears rotate in the inside of carriage along the rack, drive whole mounting bracket and carry out the displacement along the carriage, the drive end of second servo electric jar promotes the dehumidification piece and is close to pipeline equipment's surface simultaneously, until the inside absorbent cotton of dehumidification piece contacts with pipeline equipment's surface, utilize absorbent cotton to wipe the water stain on pipeline equipment surface.

Compared with the prior art, the method has the following beneficial effects:

1. the pipeline surface is sealed through setting up the sealing washer in one side of the inside of first mount and second mount to the industrial wastewater treatment system, and the surface of pipeline is sealed to a plurality of dampproofing frame of cooperation simultaneously, carries out drying treatment through the moisture to the inside space of first mount, second mount and dampproofing frame, the inside of first mount still is provided with dehumidification mechanism, through being provided with humidity transducer in the inside of dampproofing frame, carries out real-time humidity detection in each position on pipeline equipment surface, cooperates dehumidification mechanism timely pipeline equipment surface moisture to effectively solved pipeline equipment and caused pipeline equipment corrosion's problem because surface moisture in the use, effectively slowed down pipeline equipment's rust speed, improved pipeline equipment's life.

2. Through extracting the moisture of first mount, second mount and dampproofing frame inner space, let moisture carry out drying process through the inside of active carbon frame and drier frame, send out the air of drying again, realize the air cycle on pipeline equipment surface to after each air cycle, can both effectually get rid of the moisture on pipeline equipment surface, avoided the moisture to cause pipeline equipment surface corrosion's problem at pipeline equipment surface's attachment, thereby effectively improved pipeline equipment's life.

3. Through setting up first mounting bracket, second mounting bracket and a plurality of dampproofing frame at the pipeline surface to first mounting bracket, second mounting bracket and dampproofing frame all are located the surface of plumbing equipment and carry out nimble dismouting, let the application that dehumidification dampproofing equipment can be nimble on the plumbing equipment of different specifications, have improved the flexibility of use of dehumidification dampproofing equipment.

Drawings

FIG. 1 is a schematic view of a dehumidification and moisture-proof structure of an industrial wastewater treatment system device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a movable frame and movable sleeve structure according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a movable sleeve and a connecting block structure according to an embodiment of the present invention;

FIG. 4 is a schematic view of a mounting frame and a carriage structure according to an embodiment of the present invention;

FIG. 5 is a schematic view of a structure of a movable frame and a mounting frame according to an embodiment of the present invention;

FIG. 6 is a schematic view showing an internal structure of a movable frame according to an embodiment of the present invention;

FIG. 7 is a schematic view of a structure of a dehumidifying block and absorbent cotton according to an embodiment of the present invention;

FIG. 8 is a schematic view of a mounting frame and a dehumidifying frame according to an embodiment of the present invention;

fig. 9 is an enlarged view of the structure a in fig. 8 according to an embodiment of the present invention.

In the figure, 10, a first fixing frame; 20. the second fixing frame; 30. a moisture-proof frame; 40. a movable frame; 50. a movable sleeve; 60. a connecting groove; 70. a seal ring; 11. a connecting block; 12. a limiting plate; 13. a first servo cylinder; 14. an air pump; 15. an activated carbon holder; 16. a desiccant frame; 17. an air flow passage; 18. an air guide groove; 21. an air guide port; 22. a connecting pipe; 23. a connection hole; 24. connecting a clamping block; 25. a connecting clamping groove; 31. a mounting frame; 32. a dehumidifying frame; 33. a mounting groove; 34. a carriage; 35. a driving block; 36. a second servo cylinder; 37. a dehumidifying block; 38. a water-absorbing cotton; 39. an electric heating rod; 41. a rack; 42. a driven gear; 43. a first transmission gear; 44. a second transmission gear; 45. a first bevel gear; 46. a second bevel gear; 47. and a gear ring.

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.

Example 1

Referring to fig. 1 to 9, an industrial wastewater treatment system device dehumidifying and dampproofing structure comprises a first fixing frame 10, a second fixing frame 20 and a dampproofing frame 30, wherein a plurality of dampproofing frames 30 are arranged between the first fixing frame 10 and the second fixing frame 20, each of the first fixing frame 10 and the second fixing frame 20 is composed of two movable frames 40, one sides of the two movable frames 40 are rotatably connected through a rotating shaft, the dampproofing frames 30 are composed of two movable sleeves 50, one sides of the two movable sleeves 50 are rotatably connected through the rotating shaft, one sides of the first fixing frame 10 and one side of the inside of the second fixing frame 20 are respectively provided with a connecting groove 60, the two connecting grooves 60 are respectively provided with a sealing ring 70, two sides of the pipeline surfaces in the industrial wastewater treatment system are sealed by the sealing rings 70 arranged on one sides of the first fixing frame 10 and the inside of the second fixing frame 20, the pipeline surfaces are simultaneously sealed by the dampproofing frames 30, the interior space of the first fixing frame 10, the second fixing frame 20 and the dampproofing frames 30 are subjected to drying treatment through the rotating shafts, the interior of the dampproofing frames 30 are further provided with a dehumidifying mechanism, the humidity sensor is arranged in the interior of the dampproofing frames 30, the humidity sensor is arranged in the interior of the pipeline surfaces of the dampproofing frames, the pipeline surfaces are effectively corroded by the humidity sensor, the pipeline devices is effectively reduced in time, the pipeline corrosion is effectively reduced, and the pipeline corrosion is effectively has been solved, and the pipeline corrosion is effectively reduced, and the pipeline corrosion is effectively has been effectively reduced due to the pipeline corrosion.

Further, a connecting block 11 is arranged on one side of the movable frame 40 located above, one side of the connecting block 11 is connected with one side of the movable frame 40 located below through a bolt group, limiting plates 12 are arranged in the two movable frames 40, a first servo electric cylinder 13 is arranged on one side of the limiting plates 12, one end of the first servo electric cylinder 13 is arranged in the movable frame 40, when the first fixing frame 10 and the second fixing frame 20 are installed on pipeline equipment, the two movable frames 40 are respectively sleeved on the surface of the pipeline equipment, then the connecting block 11 is connected with one side of the movable frame 40 through bolts, and finally the driving ends of the first servo electric cylinders 13 are controlled to push the limiting plates 12 to be in contact with the surface of the pipeline equipment, so that the installation of the first fixing frame 10 and the second fixing frame 20 on the surface of the pipeline equipment is completed.

Further, the inside of two movable racks 40 all is provided with air pump 14, and the inside of two movable racks 40 is provided with active carbon rack 15 and drier rack 16 respectively, and one side of two movable racks 40 all is provided with air runner 17, and the inside of two air runners 17 is connected with the one end of two air pumps 14 respectively, the inside of two movable racks 40 still is provided with air guide groove 18, the inside of two air guide groove 18 is connected with the other end of two air pumps 14 respectively, and the inside of two air guide groove 18 still communicates with the inside of active carbon rack 15 and drier rack 16 respectively, when one side of two movable racks 40 is being closed, active carbon rack 15 and drier rack 16's inside are intercommunication each other, and the inside of two movable racks 40 all is provided with the sealing pad, utilize air pump 14 and air guide groove 18 intercommunication active carbon rack 15, drier rack 16 and air runner 17's inside, when the surface of pipeline equipment dehumidifies, through the extraction of control air pump 14 on pipeline equipment surface, let active carbon rack 15 and drier rack 16's inside carry out the drying process, the moisture and send out the moisture and remove the moisture through another quick moisture of pipeline equipment 14 of drying the surface again, realize the moisture removal.

Further, the inside of two movable sleeve pipes 50 all is provided with air guide port 21, and the inside of two movable sleeve pipes 50 all is provided with the cavity, the one end of movable sleeve pipe 50 is provided with connecting pipe 22, and the inside of connecting pipe 22 communicates with the inside of cavity, one side of movable frame 40 and the other end of movable sleeve pipe 50 all are provided with the connecting hole 23 with connecting pipe 22 matched with, and the inside of connecting hole 23 communicates with the inside of air channel 17, through connecting one side of movable sleeve pipe 50 with one side of movable frame 40, let the inside of connecting pipe 22 insert connecting hole 23, realize the inside intercommunication of air channel 17 and cavity and air guide port 21, thereby the moisture on pipeline equipment surface is extracted through the air guide port 21 that the inside of movable sleeve pipe 50 set up of below, the air after the drying treatment carries out the air guide port 21 that sets up through the inside of movable sleeve pipe 50 of top and carries out the air circulation on pipeline equipment surface, and after each air circulation, all can effectually get rid of pipeline equipment surface, the moisture has avoided adhering to cause pipeline equipment surface's problem, thereby effectively improved pipeline equipment life.

Further, a connection clamping block 24 is further arranged on one side of the movable sleeve 50, a connection clamping groove 25 matched with the connection clamping block 24 is formed on the other side of the movable sleeve 50 and one side of the movable frame 40, when the dampproof frame 30 and the first fixing frame 10 are installed, the connection clamping block 24 on one side of the movable sleeve 50 is inserted into the connection clamping groove 25 on one side of the movable frame 40, at the moment, one sides of the two movable sleeves 50 are in contact with each other, connection between the dampproof frame 30 and the first fixing frame 10 is completed, and when the dampproof frame 30 is installed, the connection clamping block 24 on one side of the dampproof frame 30 is inserted into the connection clamping groove 25 inside the other dampproof frame 30, assembly between the dampproof frames 30 is completed, and meanwhile cavities inside the two adjacent dampproof frames 30 are connected through the connection pipe 22 and the connection hole 23.

Further, the dehumidification mechanism includes mounting bracket 31 and dehumidification frame 32, the inside of mounting bracket 31 is provided with mounting groove 33, and the inside rotation of mounting groove 33 is provided with dehumidification frame 32, the movable frame 40 that is located the top all is provided with carriage 34 with the top that is located the movable sleeve 50 inner wall of top, and the bottom of carriage 34 is provided with drive block 35, the bottom of drive block 35 is provided with mounting bracket 31, the inside of dehumidification frame 32 is provided with a plurality of second servo cylinder 36, and the drive end of a plurality of second servo cylinder 36 all is provided with dehumidification piece 37, the inside of dehumidification piece 37 is provided with the cotton 38 that absorbs water, and one side of dehumidification piece 37 inside still is provided with electric rod 39, through the rotation of control dehumidification frame 32 at mounting groove 33, drive block 35 drives mounting bracket 31 and slides in the bottom of carriage 34, thereby make dehumidification frame 32 carry out the displacement at the surface of pipeline equipment, the drive end of second servo cylinder 36 promotes dehumidification piece 37 to be close to the surface of pipeline equipment simultaneously, until the cotton 38 that absorbs water of dehumidification piece 37 inside contacts with the surface of pipeline equipment, utilize the cotton 38 that absorbs water to carry out quick-drying to the pipeline equipment surface treatment.

Further, both sides of the inner wall of the sliding frame 34 are provided with racks 41, the both sides of the inside of the driving block 35 are respectively provided with driven gears 42 in a rotating manner, the surfaces of the two driven gears 42 are respectively in meshed transmission with the surfaces of the two racks 41, the bottoms of the two driven gears 42 are respectively provided with first transmission gears 43 through rotating shafts, one sides of the two first transmission gears 43 are respectively provided with second transmission gears 44, the bottoms of the two second transmission gears 44 are respectively provided with first bevel gears 45 through rotating shafts, the lower meshed transmission of the first bevel gears 45 is provided with second bevel gears 46, the surface of the dehumidifying frame 32 is provided with a gear 47, the surface of the gear 47 is in meshed transmission with the surface of the second bevel gears 46, and the inside of the second bevel gears 46 is driven by a motor, the first bevel gears 45 and the gear 47 are simultaneously driven to rotate, the dehumidifying frame 32 is driven by the gear 47 to rotate in the inside of the mounting frame 31, the first bevel gears 45 are driven to rotate, the second bevel gears 44 are driven by the second transmission gears 44 and the first transmission gears 43, the surface of the dehumidifying frame is driven by the second bevel gears 43 to rotate along the inner side of the mounting frame 31, the whole wet-proof device is guaranteed to be displaced along the surface of the sliding frame 34, and the whole wet-proof device is guaranteed, the service life of the dehumidifying device is prolonged, and the whole device is guaranteed.

Example 2

Further, the embodiment also discloses a method for using the dehumidification and dampproof structure of the industrial wastewater treatment system equipment, which specifically comprises the following steps:

step 1: the method comprises the steps of installing a dehumidifying and dampproof structure on the surface of pipeline equipment, sleeving two movable frames 40 on the surface of the pipeline equipment respectively, connecting a connecting block 11 with one side of the movable frames 40 by using bolts, and finally, controlling the driving end of a first servo electric cylinder 13 to push a limiting plate 12 to be in contact with the surface of the pipeline equipment to complete the installation of a first fixing frame 10 and a second fixing frame 20 on the surface of the pipeline equipment, and sealing the surface of the pipeline equipment and the inside of the first fixing frame 10 and the second fixing frame 20 by using a sealing ring 70 arranged on one side inside the first fixing frame 10 and the second fixing frame 20;

step 2: when the dampproof frame 30 and the first fixing frame 10 are installed, the connecting clamping blocks 24 on one side of the movable sleeve 50 are inserted into the connecting clamping grooves 25 on one side of the movable frame 40, at the moment, one sides of the two movable sleeves 50 are contacted with each other to complete the connection between the dampproof frame 30 and the first fixing frame 10, and when the dampproof frame 30 is installed, the connecting clamping blocks 24 on one side of one dampproof frame 30 are inserted into the connecting clamping grooves 25 in the other dampproof frame 30 to complete the assembly between the dampproof frames 30, and meanwhile, the cavities in the two adjacent dampproof frames 30 are connected through the connecting pipes 22 and the connecting holes 23;

step 3: when the surface of the pipeline equipment is dehumidified, the moisture on the surface of the pipeline equipment is extracted through the air guide port 21 arranged in the movable sleeve 50 below by controlling the air pump 14, and the air after the drying treatment is sent out through the air guide port 21 arranged in the movable sleeve 50 above;

step 4: the humidity sensor inside the dampproof frame 30 is utilized to detect the humidity of the surface of the pipeline equipment, the second bevel gear 46 is driven, the first bevel gear 45 and the gear ring 47 are driven to rotate simultaneously, the dehumidifying frame 32 is driven to rotate inside the mounting frame 31 through the gear ring 47, the first bevel gear 45 rotates to drive the two second transmission gears 44 to rotate, the two driven gears 42 rotate inside the sliding frame 34 along the gear rack 41 through the meshing relationship between the second transmission gears 44 and the first transmission gears 43, the whole mounting frame 31 is driven to displace along the sliding frame 34, and meanwhile, the driving end of the second servo electric cylinder 36 pushes the dehumidifying block 37 to approach the surface of the pipeline equipment until the absorbent cotton 38 inside the dehumidifying block 37 contacts with the surface of the pipeline equipment, and the water stain on the surface of the pipeline equipment is wiped by the absorbent cotton 38.

And all that is not described in detail in this specification is well known to those skilled in the art.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (7)

1. The utility model provides an industrial waste water treatment system equipment dehumidification dampproofing structure, includes first mount (10), second mount (20) and dampproofing frame (30), be provided with a plurality of dampproofing frame (30) between first mount (10) and second mount (20), first mount (10) and second mount (20) are constituteed by two movable frames (40), and one side of two movable frames (40) is rotated through the pivot and is connected, dampproofing frame (30) are constituteed by two movable sleeve pipes (50), and one side of two movable sleeve pipes (50) is rotated through the pivot and is connected, its characterized in that: a dehumidifying mechanism is further arranged in the first fixing frame (10), and humidity sensors are arranged in the plurality of dampproof frames (30);

the inside of the two movable frames (40) is provided with air pumps (14), the inside of the two movable frames (40) is respectively provided with an active carbon frame (15) and a drying agent frame (16), one side of the two movable frames (40) is provided with air flow passages (17), the inside of the two air flow passages (17) is respectively connected with one ends of the two air pumps (14), the inside of the two movable frames (40) is also provided with air guide grooves (18), the inside of the two air guide grooves (18) is respectively connected with the other ends of the two air pumps (14), and the inside of the two air guide grooves (18) is also respectively communicated with the inside of the active carbon frame (15) and the drying agent frame (16);

the two movable sleeves (50) are internally provided with air guide ports (21), the two movable sleeves (50) are internally provided with cavities, one end of each movable sleeve (50) is provided with a connecting pipe (22), the inside of each connecting pipe (22) is communicated with the inside of each cavity, one side of each movable frame (40) and the other end of each movable sleeve (50) are respectively provided with a connecting hole (23) matched with each connecting pipe (22), and the inside of each connecting hole (23) is communicated with the inside of each air flow channel (17);

the dehumidification mechanism comprises a mounting frame (31) and a dehumidification frame (32), wherein a mounting groove (33) is formed in the mounting frame (31), the dehumidification frame (32) is arranged in the mounting groove (33) in a rotating mode, the movable frame (40) is located above, the sliding frame (34) is arranged at the top of the inner wall of the movable sleeve (50) located above, the driving block (35) is arranged at the bottom of the sliding frame (34), the mounting frame (31) is arranged at the bottom of the driving block (35), a plurality of second servo electric cylinders (36) are arranged in the dehumidification frame (32), and the dehumidification blocks (37) are arranged at the driving ends of the plurality of second servo electric cylinders (36).

2. An industrial wastewater treatment system apparatus dehumidification and moisture-proof structure as set forth in claim 1, wherein: the connecting grooves (60) are formed in one side of the inner parts of the first fixing frame (10) and the second fixing frame (20), and sealing rings (70) are arranged in the two connecting grooves (60).

3. An industrial wastewater treatment system apparatus dehumidification and moisture-proof structure as set forth in claim 1, wherein: the movable frame (40) one side that is located the top is provided with connecting block (11), and one side of connecting block (11) is connected with movable frame (40) one side that is located the below through the bolt group, and two the inside of movable frame (40) all is provided with limiting plate (12), and one side of limiting plate (12) is provided with first servo electric jar (13), and wherein the one end setting of first servo electric jar (13) is in the inside of movable frame (40).

4. An industrial wastewater treatment system apparatus dehumidification and moisture-proof structure as set forth in claim 1, wherein: one side of the movable sleeve (50) is also provided with a connecting clamping block (24), and the other side of the movable sleeve (50) and one side of the movable frame (40) are both provided with a connecting clamping groove (25) matched with the connecting clamping block (24).

5. An industrial wastewater treatment system apparatus dehumidification and moisture-proof structure as set forth in claim 1, wherein: the inside of dehumidification piece (37) is provided with cotton (38) that absorbs water, and one side of dehumidification piece (37) inside still is provided with electric rod (39).

6. An industrial wastewater treatment system apparatus dehumidification and moisture-proof structure as set forth in claim 1, wherein: racks (41) are arranged on two sides of the inner wall of the sliding frame (34), driven gears (42) are arranged on two sides of the inner part of the driving block (35) in a rotating mode, and the surfaces of the two driven gears (42) are in meshed transmission with the surfaces of the two racks (41) respectively.

7. The industrial wastewater treatment system equipment dehumidifying and moisture-proof structure as claimed in claim 6, wherein: the bottom of driven gear (42) all is provided with first drive gear (43) through the axis of rotation, and one side of two first drive gear (43) all is provided with second drive gear (44), two the bottom of second drive gear (44) is provided with first bevel gear (45) through the axis of rotation, and the below meshing transmission of first bevel gear (45) is provided with second bevel gear (46), the surface of dehumidification frame (32) is provided with ring gear (47), and the surface of ring gear (47) and the surface meshing transmission of second bevel gear (46).