CN114570559A

CN114570559A - Special processing equipment for antibacterial module air pipe

Info

Publication number: CN114570559A
Application number: CN202210204619.9A
Authority: CN
Inventors: 邵毅; 赵运进; 李袁; 吴蔚; 王凯; 卫伟
Original assignee: Anhui Anrun Electromechanical Technology Group Co ltd
Current assignee: Anhui Anrun Electromechanical Technology Group Co ltd
Priority date: 2022-03-03
Filing date: 2022-03-03
Publication date: 2022-06-03

Abstract

The invention relates to special processing equipment for an antibacterial module air pipe, which comprises a fixed box, wherein first conveying tables are fixed on two sides of the fixed box, a first conveying belt is arranged on the outer surface of each first conveying table, a plurality of clamping mechanisms which are uniformly distributed are arranged on the first conveying belts on the two sides, a processing mechanism is arranged on one side of the top of the fixed box, the processing mechanism comprises a processing frame fixed on the outer side of each first conveying table, openings are formed in the top and the bottom of the processing frame, second conveying tables are fixed on two sides of the processing frame, a second conveying belt is arranged on the outer surface of each second conveying table, conveying plates are fixed on the two second conveying belts, and a painting mechanism is arranged below the fixed box; the problem of in current patent, only can only carry out the single processing step of cutting to the tuber pipe, can't carry out the processing of continuity multistep to the tuber pipe, the variety of processing is lower, and need carry out the dismouting to the tuber pipe repeatedly in the course of working, consuming time power, machining efficiency low scheduling is solved.

Description

Special processing equipment for antibacterial module air pipe

Technical Field

The invention relates to the technical field of air pipe processing, in particular to special processing equipment for an antibacterial module air pipe.

Background

The Chinese patent discloses an air conditioner galvanized air pipe processing device (publication number: CN113997097A), which comprises a cutting device main body, wherein a controller is arranged on the outer surface of one side of the cutting device main body, a clamp assembly and a supporting seat are arranged at the front end of the cutting device main body, a conveying plate is arranged at the upper end of the supporting seat, and a connecting plate is arranged at the lower end of the conveying plate.

In the above-mentioned patent, only can carry out the single processing step of cutting to the tuber pipe, can't carry out the processing of continuity multistep to the tuber pipe, the variety of processing is lower, and need carry out the dismouting to the tuber pipe repeatedly in the course of working, consuming time power, machining efficiency is low.

In order to solve the above-mentioned drawbacks, a technical solution is now provided.

Disclosure of Invention

The invention aims to provide special processing equipment for an antibacterial module air pipe.

The technical problems to be solved by the invention are as follows:

in the current patent, only can carry out the single processing step of cutting to the tuber pipe, can't carry out the processing of continuity multistep to the tuber pipe, the variety of processing is lower, and need repeatedly carry out the dismouting to the tuber pipe in the course of working, consuming time power, machining efficiency is low.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a special processing equipment of antibiotic module tuber pipe, including fixed case, the both sides of fixed case all are fixed with first transport platform, the surface mounting of first transport platform has first conveyor belt, be equipped with a plurality of evenly distributed's clamping mechanism on the first conveyor belt of both sides, top one side of fixed case is equipped with the processing agency, the processing agency includes the processing frame who fixes mutually with the first transport platform outside, the top and the bottom of processing frame all are equipped with the opening, the both sides of processing frame all are fixed with the second and carry the platform, the surface mounting of second transport platform has second conveyor belt, all be fixed with the delivery board on two second conveyor belts, the inboard of delivery board all is fixed with the lifter plate, the inboard sliding connection of lifter plate has the processing platform, the inboard top of lifter plate is fixed with the lift cylinder, the output of lift cylinder is fixed mutually with the top of processing platform, the below of fixed case is equipped with japanning mechanism.

Furthermore, a collecting opening is formed in one side of the top of the fixed box, an extrusion cylinder is fixed to one side of the outside of the fixed box, an exhaust fan is fixed to the other side of the outside of the fixed box, the input end of the exhaust fan is communicated with the inside of the fixed box, and the output end of the extrusion cylinder penetrates through the fixed box and is fixed with an extrusion plate.

Further, clamping mechanism includes that both ends are fixed mutually with two first conveyor belt's fixing base respectively, is fixed with between two fixing bases and adjusts the seat, and the top of adjusting the seat is equipped with the spout, and sliding connection has the sliding plate of two symmetric distributions on the spout, and the top of sliding plate is fixed with the supporting seat, and one side that two supporting seats are close to each other all is connected with through the dwang rotation and presss from both sides tight seat, and one side that two press from both sides tight seat are close to each other all is fixed with the diaphragm of two symmetric distributions.

Furthermore, be located the top of diaphragm is fixed with die clamping cylinder, and die clamping cylinder's output passes the diaphragm and is fixed with the clamp plate, and one side of one of them supporting seat is fixed with the upset motor, and the output of upset motor passes the supporting seat and fixes mutually with the dwang.

Furthermore, the internal surface of adjusting the seat rotates and is connected with the double-end lead screw, and the surface both ends of double-end lead screw are provided with reverse spiral screw respectively, and the screw thread cup joints the screw thread seat respectively on the surface of the both ends of double-end lead screw, and the bottom of screw thread seat and the inside bottom sliding connection who adjusts the seat, the top of screw thread seat pass the spout and fixed mutually with the bottom of sliding plate.

Furthermore, one of them processing platform's bottom is fixed with the straightening subassembly, and the top of another processing platform is fixed with grinding motor, and grinding motor's output passes processing platform and is fixed with the grinding roller, and the straightening subassembly includes the connecting plate, and the equal hinged joint in bottom both sides of connecting plate has the straightening ring, and the side surface of connecting plate rotates and is connected with two symmetric distribution's telescopic cylinder, and the output of two telescopic cylinder respectively with the side surface hinged joint of two straightening rings.

Further, the painting mechanism comprises a painting chamber, a feed inlet is formed in the top of the painting chamber, a material carrying plate is connected to the inside of the painting chamber in a sliding mode, a grid is mounted on the material carrying plate, a material carrying cylinder is fixed to the bottom of the outside of the painting chamber, the output end of the material carrying cylinder penetrates through the painting chamber and is fixed to the bottom of the material carrying plate, a discharging cylinder is fixed to one side of the outside of the painting chamber, a discharging opening is formed in the other side of the painting chamber, the output end of the discharging cylinder penetrates through the painting chamber and is fixed to the discharging plate, and a liquid outlet pipe is fixed to the bottom of one side of the outside of the painting chamber.

Furthermore, the top ends of two sides of the interior of the painting chamber are respectively fixed with a painting pipe, one side of each painting pipe is provided with a plurality of uniformly distributed spray heads, the bottom ends of two sides of the exterior of the painting chamber are respectively fixed with a drying chamber, an electric heating rod is fixed in the drying chamber, and an air blower is fixed on the exterior of the drying chamber.

The invention has the beneficial effects that:

according to the invention, the fixed box is arranged, so that scraps generated in the air pipe machining process are sucked into the fixed box through the collection port by the exhaust fan, the extrusion air cylinder pushes the extrusion plate to extrude the accumulated scraps, the scraps are extruded into blocks to be conveniently and intensively treated, and the cleanness of a working environment is ensured.

Through setting up clamping mechanism for die clamping cylinder promotes the clamp plate and removes, and the diaphragm of cooperation below presss from both sides tightly the tuber pipe, and the upset motor can drive the tuber pipe and rotate, is convenient for carry out even abundant processing to the tuber pipe surface, and the adjustment motor drives double-end lead screw and rotates, drives two screw thread seats and removes in opposite directions, thereby adjusts the distance between two sliding plates, adapts to the tuber pipe of different dimensions, improves application scope.

Through setting up processing agency for two processing platforms of lift cylinder promotion move down and be close to the tuber pipe, two telescopic cylinder promote two aligning rings simultaneously and press from both sides tightly the tuber pipe, thereby drive the aligning ring through second conveyor belt and remove and straighten the tuber pipe, the motor of polishing drives the grinding roller and polishes to the tuber pipe, and second conveyor belt drives the grinding roller and all polishes to the different positions of tuber pipe, and efficiency of polishing is higher.

Through setting up japanning mechanism for the tuber pipe falls into from the feed inlet and carries on the flitch, spout pigment to the tuber pipe through the shower nozzle under the effect of electric pump, carry out the japanning operation to the tuber pipe, after spraying paint, carry the material cylinder and drive and carry the flitch and move down to drying chamber department, through the air-blower with the indoor hot-blast of drying to the tuber pipe, the pigment rapid draing of the tuber pipe of being convenient for improves japanning efficiency, after the drying finishes, carry the material cylinder to shift up and make the unloading board promote the tuber pipe unloading under the effect of unloading cylinder.

Drawings

The invention is described in further detail below with reference to the figures and specific embodiments.

FIG. 1 is a schematic structural diagram of a special processing device for an antibacterial module air pipe of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a top view of the holding box of the present invention;

FIG. 4 is a top view of the internal structure of the holding box of the present invention;

FIG. 5 is a schematic view of the internal structure of the adjustment base of the present invention;

FIG. 6 is a schematic view of a portion of the clamping mechanism of the present invention;

FIG. 7 is a top view of the processing mechanism of the present invention;

FIG. 8 is a schematic view of a part of the construction of the processing mechanism of the present invention;

FIG. 9 is a schematic view of the structure of a straightening assembly according to the invention;

FIG. 10 is a schematic view of the internal structure of the painting booth according to the present invention;

FIG. 11 is a top view of the internal structure of the painting booth according to the present invention.

In the figure: 1. a fixed box; 2. a first conveying table; 3. a clamping mechanism; 4. a processing mechanism; 5. a varnishing mechanism; 101. a collection port; 102. an extrusion cylinder; 103. an exhaust fan; 104. a compression plate; 201. a first conveyor belt; 202. a first conveying motor; 301. a fixed seat; 302. an adjusting seat; 303. a sliding plate; 304. a supporting seat; 305. a clamping seat; 306. a transverse plate; 307. a clamping cylinder; 308. a clamping plate; 309. turning over a motor; 310. a double-end screw rod; 311. a threaded seat; 312. adjusting the motor; 401. processing the frame; 402. a second conveying table; 403. a second conveyor belt; 404. a conveying plate; 405. a lifting plate; 406. a processing table; 407. a lifting cylinder; 408. a straightening assembly; 4081. a connecting plate; 4082. a straightening ring; 4083. a telescopic cylinder; 409. polishing the motor; 410. grinding a roller; 411. a second conveying motor; 501. a painting room; 502. a material carrying plate; 503. a material loading cylinder; 504. a blanking cylinder; 505. a blanking plate; 506. a liquid outlet pipe; 507. painting a pipe; 508. a spray head; 509. a drying chamber; 510. a blower.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution:

the utility model provides a special processing equipment of antibiotic module tuber pipe, including fixed case 1, the both sides of fixed case 1 all are fixed with first transport platform 2, the outer surface mounting of first transport platform 2 has first conveyor belt 201, be equipped with a plurality of evenly distributed's clamping mechanism 3 on the first conveyor belt 201 of both sides, clamping mechanism 3 can press from both sides tightly the tuber pipe, the tuber pipe is obtained by the preparation of antibacterial material, guarantee the stability of tuber pipe in the course of working, top one side of fixed case 1 is equipped with processing agency 4, processing agency 4 can be straightened and the processing of polishing to the tuber pipe, guarantee the straightness and the smoothness of tuber pipe, the below of fixed case 1 is equipped with japanning mechanism 5, japanning mechanism 5 can carry out the japanning to the tuber pipe.

Referring to fig. 3-4, a collecting port 101 is formed at one side of the top of the fixed box 1, the collecting port 101 can collect debris generated in the air duct machining process, an extruding cylinder 102 is fixed at one side of the outside of the fixed box 1, an exhaust fan 103 is fixed at the other side of the outside of the fixed box 1, an input end of the exhaust fan 103 is communicated with the inside of the fixed box 1, an output end of the extruding cylinder 102 penetrates through the fixed box 1 and is fixed with an extruding plate 104, by arranging the fixed box 1, the exhaust fan 103 sucks the debris generated in the air duct machining process into the fixed box 1 through the collecting port 101, the extruding cylinder 102 pushes the extruding plate 104 to extrude the accumulated debris, the debris is extruded into blocks, so that the centralized processing is facilitated, and the cleanliness of a working environment is guaranteed.

The internal surface both ends of first transport platform 2 all rotate and are connected with first drive wheel, and first conveyor belt 201 installs the surface at two first drive wheels, and outside one side of first transport platform 2 is fixed with first conveyor motor 202, and first transport platform 2 is passed to the output of first conveyor motor 202 and is fixed mutually with one of them first drive wheel.

Referring to fig. 5 to 6, the clamping mechanism 3 includes two fixing bases 301 having two ends respectively fixed to the two first conveying belts 201, an adjusting base 302 is fixed between the two fixing bases 301, a sliding slot is disposed at the top of the adjusting base 302, two sliding plates 303 symmetrically distributed are slidably connected to the sliding slot, a supporting base 304 is fixed at the top of the sliding plate 303, one side of the two supporting bases 304 close to each other is rotatably connected to a clamping base 305 through a rotating rod, and one side of the two clamping bases 305 close to each other is fixed with two transverse plates 306 symmetrically distributed.

A clamping cylinder 307 is fixed at the top of the transverse plate 306 above, the output end of the clamping cylinder 307 passes through the transverse plate 306 and is fixed with a clamping plate 308, the air duct is clamped by the clamping plate 308 and the transverse plate 306 below, a turning motor 309 is fixed at one side of one of the supporting seats 304, and the output end of the turning motor 309 passes through the supporting seats 304 and is fixed with the rotating rod.

The internal surface of adjusting seat 302 rotates and is connected with double threaded screw 310, the surface both ends of double threaded screw 310 are provided with reverse screw thread of turning to respectively, threaded seat 311 has been cup jointed to the both ends surface of double threaded screw 310 screw thread respectively, the bottom of threaded seat 311 and the inside bottom sliding connection who adjusts seat 302, the top of threaded seat 311 is passed the spout and is fixed mutually with the bottom of sliding plate 303, one side of one of them fixing base 301 is fixed with adjusting motor 312, adjusting motor 312's output passes adjusting seat 302 and is fixed mutually with the one end of double threaded screw 310. Through setting up clamping mechanism 3 for die clamping cylinder 307 promotes pinch-off blades 308 and removes, and diaphragm 306 of cooperation below presss from both sides tightly the tuber pipe, and upset motor 309 can drive the tuber pipe and rotate, is convenient for carry out even abundant processing to the tuber pipe surface, and accommodate motor 312 drives double-end lead screw 310 and rotates, drives two screw thread seat 311 and removes in opposite directions, thereby adjusts the distance between two sliding plates 303, adapts to the tuber pipe of different dimensions, improves application scope.

Referring to fig. 7-9, the processing mechanism 4 includes a processing frame 401 fixed to the outer side of the first conveying table 2, openings are formed in the top and bottom of the processing frame 401, second conveying tables 402 are fixed to both sides of the processing frame 401, second conveying belts 403 are installed on the outer surfaces of the second conveying tables 402, conveying plates 404 are fixed to both the second conveying belts 403, the conveying plates 404 are slidably connected to the processing frame 401, lifting plates 405 are fixed to the inner sides of the conveying plates 404, the processing tables 406 are slidably connected to the inner sides of the lifting plates 405, lifting cylinders 407 are fixed to the top ends of the inner sides of the lifting plates 405, and output ends of the lifting cylinders 407 are fixed to the top of the processing tables 406.

The bottom of one of the processing stations 406 is fixed with a straightening component 408, the top of the other processing station 406 is fixed with a polishing motor 409, the output end of the polishing motor 409 penetrates through the processing station 406 and is fixed with a polishing roller 410, the straightening component 408 comprises a connecting plate 4081, two sides of the bottom of the connecting plate 4081 are hinged with straightening rings 4082, the side surface of the connecting plate 4081 is rotatably connected with two symmetrically distributed telescopic cylinders 4083, and the output ends of the two telescopic cylinders 4083 are hinged with the side surfaces of the two straightening rings 4082 respectively.

Both ends of the inner surface of the second conveying platform 402 are rotatably connected with second driving wheels, a second conveying belt 403 is installed between the two second driving wheels, a second conveying motor 411 is fixed on one side of the outer portion of the second conveying platform 402, and the output end of the second conveying motor 411 penetrates through the second conveying platform 402 and is fixed with one of the second driving wheels. Through setting up processing agency 4 for lift cylinder 407 promotes two processing platforms 406 and moves down near the tuber pipe, and two telescopic cylinder 4083 promote two straightening rings 4082 and press from both sides tightly the tuber pipe simultaneously, thereby drive straightening ring 4082 through second conveyor belt 403 and remove and straighten the tuber pipe, and grinding motor 409 drives grinding roller 410 and polishes the tuber pipe, and second conveyor belt 403 drives grinding roller 410 and all polishes tuber pipe different positions, and the efficiency of polishing is higher.

Referring to fig. 10-11, the painting mechanism 5 includes a painting chamber 501, a feeding port is formed in the top of the painting chamber 501, a material carrying plate 502 is slidably connected inside the painting chamber 501, a grid is installed on the material carrying plate 502, the grid can facilitate pigment leakage, a material carrying cylinder 503 is fixed at the bottom end of the outside of the painting chamber 501, an output end of the material carrying cylinder 503 penetrates through the painting chamber 501 and is fixed with the bottom of the material carrying plate 502, a discharging cylinder 504 is fixed at one side of the outside of the painting chamber 501, a discharging port is formed at the other side of the painting chamber 501, an output end of the discharging cylinder 504 penetrates through the painting chamber 501 and is fixed with a discharging plate 505, a liquid outlet pipe 506 is fixed at the bottom end of the side of the outside of the painting chamber 501, and one end of the liquid outlet pipe 506 extends into the painting chamber 501.

The top ends of two sides in the painting chamber 501 are fixed with painting pipes 507, paint is arranged in the painting pipes 507, a plurality of spray heads 508 which are uniformly distributed are installed on one side of each painting pipe 507, the spray heads 508 are communicated with the inside of the painting pipes 507, the painting pipes 507 are connected with an external electric pump through hoses, drying chambers 509 are fixed at the bottom ends of two sides outside the painting chamber 501, electric heating rods are fixed inside the drying chambers 509, blowers 510 are fixed outside the drying chambers 509, the output ends of the blowers 510 are communicated with the drying chambers 509, and the drying chambers 509 are communicated with the inside of the painting chamber 501. Through setting up japanning mechanism 5 for the tuber pipe falls into from the feed inlet and carries on flitch 502, spout pigment to the tuber pipe through shower nozzle 508 under the effect of electric pump, carry out the japanning operation to the tuber pipe, after spraying paint, carry material cylinder 503 to drive and carry flitch 502 to move down to drying chamber 509 department, through air-blower 510 with the hot-blast air-blowing in the drying chamber 509 to the tuber pipe, be convenient for pigment rapid draing on the tuber pipe, improve japanning efficiency, after the drying finishes, carry material cylinder 503 to shift up and make flitch 505 under the effect of unloading cylinder 504 promote the tuber pipe unloading.

The working principle is as follows:

when the double-end screw mandrel machine is used, the adjusting motor 312 drives the double-end screw mandrel 310 to rotate and drives the two thread seats 311 to move oppositely, so that the distance between the two sliding plates 303 is adjusted according to the size of an air pipe, the two ends of the air pipe are placed under the clamping plates 308 at the two sides, the clamping cylinder 307 is started to push the clamping plates 308 to move, the air pipe is clamped by matching with the transverse plate 306 at the lower part, the air pipe can be driven to rotate by the overturning motor 309, the surface of the air pipe is conveniently and uniformly and fully processed, the first conveying motor 202 drives the first conveying belt 201 to move and drives the clamping mechanism 3 to move to the position below the processing mechanism 4;

the lifting cylinder 407 is started to push the two processing tables 406 to move downwards to be close to the air pipe, meanwhile, the two telescopic cylinders 4083 push the two straightening rings 4082 to clamp the air pipe, the second conveying belt 403 drives the straightening rings 4082 to move so as to straighten the air pipe, the polishing motor 409 drives the polishing roller 410 to polish the air pipe, the second conveying belt 403 drives the polishing roller 410 to polish different positions of the air pipe, the polishing efficiency is higher, the exhaust fan 103 is started to suck chips generated in the air pipe processing process into the fixed box 1 through the collecting port 101, the extrusion cylinder 102 pushes the extrusion plate 104 to extrude the accumulated chips, and the chips are extruded into blocks to be convenient for centralized processing;

when the clamping mechanism 3 moves to the upper side of the painting chamber 501 under the action of the first conveying belt 201, the clamping mechanism 3 is loosened to enable the air pipe to fall onto the material carrying plate 502 from the feeding hole, the pigment is sprayed to the air pipe through the spray head 508 under the action of the electric pump, the painting operation is carried out on the air pipe, after the painting operation is carried out, the material carrying cylinder 503 drives the material carrying plate 502 to move downwards to the drying chamber 509, hot air in the drying chamber 509 is blown to the air pipe through the air blower 510, the pigment on the air pipe is convenient to dry quickly, and after the drying operation is finished, the material carrying cylinder 503 moves upwards to enable the material carrying plate 505 to push the air pipe to carry out the blanking under the action of the blanking cylinder 504.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims

1. The special processing equipment for the antibacterial module air pipe comprises a fixed box (1) and is characterized in that first conveying tables (2) are fixed on two sides of the fixed box (1), first conveying belts (201) are mounted on the outer surfaces of the first conveying tables (2), a plurality of uniformly distributed clamping mechanisms (3) are arranged on the first conveying belts (201) on the two sides, a processing mechanism (4) is arranged on one side of the top of the fixed box (1), the processing mechanism (4) comprises a processing frame (401) fixed to the outer side of the first conveying tables (2), openings are formed in the top and the bottom of the processing frame (401), second conveying tables (402) are fixed on two sides of the processing frame (401), second conveying belts (403) are mounted on the outer surfaces of the second conveying tables (402), conveying plates (404) are fixed on the two second conveying belts (403), lifting plates (405) are fixed on the inner sides of the conveying plates (404), the inner side of the lifting plate (405) is connected with a processing table (406) in a sliding mode, the top end of the inner side of the lifting plate (405) is fixedly provided with a lifting cylinder (407), the output end of the lifting cylinder (407) is fixed to the top of the processing table (406), and a painting mechanism (5) is arranged below the fixing box (1).

2. The special processing equipment for the antibacterial module air pipe according to claim 1, wherein a collecting port (101) is formed in one side of the top of the fixed box (1), an extrusion cylinder (102) is fixed to one side of the outside of the fixed box (1), an exhaust fan (103) is fixed to the other side of the outside of the fixed box (1), the input end of the exhaust fan (103) is communicated with the inside of the fixed box (1), and the output end of the extrusion cylinder (102) penetrates through the fixed box (1) and is fixed with an extrusion plate (104).

3. The special processing equipment for the air pipe of the antibacterial module according to claim 1, wherein the clamping mechanism (3) comprises two fixed seats (301) with two ends respectively fixed to the two first conveying belts (201), an adjusting seat (302) is fixed between the two fixed seats (301), a sliding chute is arranged at the top of the adjusting seat (302), two sliding plates (303) are slidably connected to the sliding chute, a supporting seat (304) is fixed to the top of the sliding plate (303), the clamping seats (305) are rotatably connected to the sides of the two supporting seats (304) close to each other through a rotating rod, and two transverse plates (306) are fixed to the sides of the two clamping seats (305) close to each other.

4. The special processing equipment for the antibacterial module air pipe as claimed in claim 3, wherein a clamping cylinder (307) is fixed to the top of one of the transverse plates (306), the output end of the clamping cylinder (307) penetrates through the transverse plate (306) and is fixed with a clamping plate (308), a turning motor (309) is fixed to one side of one of the supporting seats (304), and the output end of the turning motor (309) penetrates through the supporting seat (304) and is fixed with the rotating rod.

5. The special processing equipment for the antibacterial module air duct according to claim 3, wherein the inner surface of the adjusting seat (302) is rotatably connected with a double-threaded lead screw (310), two ends of the outer surface of the double-threaded lead screw (310) are respectively provided with threads with opposite rotation directions, the outer surfaces of two ends of the double-threaded lead screw (310) are respectively sleeved with a threaded seat (311) in a threaded manner, the bottom of the threaded seat (311) is slidably connected with the inner bottom end of the adjusting seat (302), and the top of the threaded seat (311) passes through the sliding groove and is fixed with the bottom of the sliding plate (303).

6. The special processing equipment for the air pipe of the antibacterial module according to claim 1, wherein a straightening component (408) is fixed at the bottom of one of the processing tables (406), a polishing motor (409) is fixed at the top of the other processing table (406), the output end of the polishing motor (409) penetrates through the processing table (406) and is fixed with a polishing roller (410), the straightening component (408) comprises a connecting plate (4081), both sides of the bottom of the connecting plate (4081) are hinged with straightening rings (4082), two symmetrically distributed telescopic cylinders (4083) are rotatably connected to the side surface of the connecting plate (4081), and the output ends of the two telescopic cylinders (4083) are respectively hinged with the side surfaces of the two straightening rings (4082).

7. The special processing equipment for the antibacterial module air pipes as claimed in claim 1, wherein the painting mechanism (5) comprises a painting chamber (501), a feeding hole is formed in the top of the painting chamber (501), a material carrying plate (502) is slidably connected inside the painting chamber (501), a grid is mounted on the material carrying plate (502), a material carrying cylinder (503) is fixed to the outer bottom end of the painting chamber (501), an output end of the material carrying cylinder (503) penetrates through the painting chamber (501) and is fixed to the bottom of the material carrying plate (502), a discharging cylinder (504) is fixed to one side of the outer portion of the painting chamber (501), a discharging hole is formed in the other side of the painting chamber (501), an output end of the discharging cylinder (504) penetrates through the painting chamber (501) and is fixed to the material carrying plate (505), and a liquid outlet pipe (506) is fixed to the bottom end of one side of the outer portion of the painting chamber (501).

8. The special processing equipment for the air pipes of the antibacterial modules according to claim 7, wherein the top ends of two sides of the interior of the painting chamber (501) are respectively fixed with a painting pipe (507), one side of each painting pipe (507) is provided with a plurality of uniformly distributed spray heads (508), the bottom ends of two sides of the exterior of the painting chamber (501) are respectively fixed with a drying chamber (509), an electric heating rod is fixed inside the drying chamber (509), and a blower (510) is fixed outside the drying chamber (509).