CN113265814A

CN113265814A - Air cooling device for textile printing and dyeing

Info

Publication number: CN113265814A
Application number: CN202110398030.2A
Authority: CN
Inventors: 王懿娇
Original assignee: Individual
Current assignee: Xiamen Qiute New Material Co ltd
Priority date: 2021-04-14
Filing date: 2021-04-14
Publication date: 2021-08-17
Anticipated expiration: 2041-04-14
Also published as: CN113265814B

Abstract

The invention relates to the technical field of textile industry, and discloses an air cooling device for textile printing and dyeing, which comprises an electric conveyor, wherein the top of the electric conveyor is fixedly connected with a box body, one side of the box body is fixedly connected with an air suction pump, the other side of the box body is provided with an air inlet, and a filter screen self-cleaning mechanism is arranged in the box body. Through setting up filter screen automatically cleaning mechanism, jet-propelled dust removal is carried out to filter screen inside, the check valve that air in the cavity was seted up through box top and one side flows in, thereby make the filter screen can make the filter screen vibrations shake off the dust through the velocity of flow of air when carrying out filteration to the air, thereby it is clean to keep filter screen self, and through the vibrations of the fixed frame of filter screen with the air of outer wall through spouting inside the filter screen, then further carry out the automatically cleaning to filter screen inside, thereby make and prevent self when filtering the dust and block up, and then the work efficiency has been increased.

Description

Air cooling device for textile printing and dyeing

Technical Field

The invention relates to the technical field of textile industry, in particular to an air cooling device for textile printing and dyeing.

Background

The textile industry is a labor intensive and externally dependent industry in China. China is the biggest textile garment production and export country in the world, the continuous and stable growth of textile garment export is important for ensuring foreign exchange storage, international balance of collection and balance, stable Renminbi exchange rate, and solving the sustainable development of social employment and textile industry, and the textile industry is an industry with high labor intensity and great external dependence in China. China is the biggest world textile garment production and export country, and the continuous and stable growth of textile garment export is crucial to ensuring foreign exchange storage, international balance of collection and balance, stable Renminbi exchange rate, and solving the sustainable development of social employment and textile industry in China. The raw materials of the textile mainly comprise cotton, cashmere, wool, silkworm cocoon silk, chemical fiber, feather and down, and the like. The downstream industries of the textile industry are mainly the clothing industry, household textiles, industrial textiles, and the like. Textile often need print and dye it in processing to the fabrics in the textile industry to produce a large amount of heats and dust easily at the in-process of printing and dyeing, but at present when handling the heat dissipation problem, often air exhaust through simple fan and solve, thereby make inside dust be taken out in the lump when leading to the heat to be blown out, lead to that outside staff is healthy and air quality greatly reduced, and the polluted environment.

Disclosure of Invention

The invention aims to provide an air cooling device for textile printing and dyeing, which aims to solve the problems.

In order to achieve the purpose, the invention provides the following technical scheme: an air cooling device for textile printing and dyeing comprises an electric conveyor, wherein the top of the electric conveyor is fixedly connected with a box body, one side of the box body is fixedly connected with an air pump, the other side of the box body is provided with an air inlet, and a filter screen self-cleaning mechanism is arranged in the box body;

the filter screen self-cleaning mechanism comprises a rotating rod A, a fan blade, a fixed rod, a piston, a shifting block, a filter screen fixing frame, a filter screen, a ventilation groove and an elastic plate A, wherein the outer wall of the rotating rod A is fixedly connected with one end of the fan blade, the outer wall of the rotating rod A is rotatably connected with the inner wall of the fixed rod through a bearing, one end of the fixed rod is fixedly connected with the top of the inner wall of a box body, the inner wall of the rotating rod A is slidably connected with the outer wall of the piston, one end of the piston is fixedly connected with the elastic block, one end of the elastic block is fixedly connected with the inner wall of the rotating rod A, the other end of the piston is contacted with the outer wall of the shifting block, the outer wall of the shifting block is fixedly connected with one side of the filter screen fixing frame, the inner wall of the filter screen fixing frame is fixedly connected with the outer wall of the filter screen, the ventilation groove is arranged in the filter screen fixing frame and communicated with the ventilation groove, the outer wall of the filter screen is fixedly connected with one end of the elastic plate A, the other end of the elastic plate A is fixedly connected with the inner wall of the box body.

Preferably, the rotating rod comprises a pushing rod, an extrusion block, a lever, a rotating rod B, a sliding plate, an atomizing nozzle, a pushing plate and an elastic plate, one end of the pushing rod is fixedly connected with one end of a piston, the outer wall of the pushing rod is slidably connected with the inner wall of the rotating rod A, the other end of the pushing rod is fixedly connected with the outer wall of the extrusion block, a cavity is formed in the piston, the outer wall of the extrusion block is slidably connected with the inner wall of the cavity, one end of the pushing rod is movably connected with one end of the lever, the inner wall of the lever is fixedly connected with the outer wall of the rotating rod B, two ends of the rotating rod B are respectively rotatably connected with the front surface and the back surface of the inner wall of the cavity through bearings, the other end of the lever is movably connected with the bottom of the sliding plate, a long sliding groove is formed in the top of the rotating rod A, the outer wall of the sliding plate is slidably connected with the inner wall of the long sliding groove, the outer wall of the sliding plate is fixedly connected with the atomizing nozzle, and the outer wall of the atomizing nozzle is slidably connected with the inner wall of the long sliding groove, the utility model discloses a box of printing and dyeing machine, including rotor A, push pedal outer wall and aqua storage tank inner wall sliding connection, push pedal outer wall and elastic plate one end fixed connection, the elastic plate other end and push pedal outer wall fixed connection have been seted up to inside the aqua storage tank of having seted up of rotor A, push pedal outer wall and aqua storage tank inner wall sliding connection, push pedal outer wall and elastic plate one end fixed connection, the elastic plate other end and push pedal outer wall fixed connection to make the filter screen can continuously spray cooling dust fall to the box inside when the shifting block is stirred in the piston circulation, a large amount of inside dust that wafts can wrap up through water smoke and is blown out along with the aspiration pump during printing and dyeing, make the filter screen can not blockked up by the dust of the inside production of box through the vibrations of slide simultaneously, laid the basis of long-term work.

Preferably, the filter screen includes the long piece of elasticity, elasticity ball, block rubber, income wind check valve, air pocket, the long piece one end of elasticity run through the filter screen and with filter screen inner wall fixed connection, the long piece other end of elasticity and elasticity ball outer wall fixed connection, elasticity ball outer wall and block rubber outer wall fixed connection, the check valve that admits air opens and establishes at the long piece outer wall of elasticity, the inside air cavity of having seted up of air pocket, the check valve that admits air passes through air cavity and air pocket intercommunication to the protection filter screen, and through the flagging of elasticity ball, make the long piece of elasticity take place the inside air cavity of deformation extrusion when the long piece of elasticity is strikeed with the particulate matter, admit air through the check valve that admits air and get into behind the cavity of intaking by the air pocket blowout, thereby carry out continuation's further cleanness to the filter screen inside when the long piece of elasticity protects the filter screen with the elasticity ball.

Preferably, the inside spout A and the spout B of having seted up of lever, catch bar one end is through spout A and lever one end swing joint, the slide bottom is through spout B and lever other end swing joint to make the lever have the space to rotate.

Preferably, the box top, one side have seted up the air vent, the filter screen passes through ventilation groove and ventilation groove intercommunication to can carry out jet-propelled cleanness to the filter screen.

Preferably, a one-way valve B is fixedly mounted on the inner wall of the rotating rod A, and the water storage tank inside the rotating rod A is communicated with the groove through the one-way valve B, so that water cannot flow back into the water storage tank.

Preferably, a filter valve is fixedly mounted at one end of the air inlet check valve and one end of the air tank, so that external dust cannot enter the air inlet check valve.

The invention provides an air cooling device for textile printing and dyeing. The method has the following beneficial effects:

(1) the invention is provided with the filter screen self-cleaning mechanism, when air passes through the filter screen fixing frame and the filter screen, the air is filtered by the filter screen, the filtered air passes through the fan blades and stirs the fan blades to rotate, the fan blades drive the rotating rod A to rotate, the piston at one end of the rotating rod A also rotates to stir the upper part and the lower part of the stirring block ceaselessly, so that the filter screen fixing frame is pushed to slide on the inner wall of the box body ceaselessly up and down to be rebounded, dust falling on the surface of the filter screen can shake and slide along the inclined gradient of the filter screen through the self-vibration of the filter screen, meanwhile, the air in the top of the box body and the cavity at one side is extruded to be sprayed into the filter screen to perform air injection and dust removal on the inside of the filter screen, the air in the cavity flows in through the one-way valve arranged on the top of the box body and one side, so that the filter screen can shake and fall the dust through the flow rate of the air while filtering the air by the filter screen, thereby keep filter screen self clean to inside the vibrations through the fixed frame of filter screen with the air of outer wall through spouting the filter screen, then further carry out the automatically cleaning to the filter screen is inside, thereby make prevent self when filtering the dust and block up, then increased work efficiency.

(2) The invention sets the rotating rod A, when the piston stirs the shifting block, the piston retracts inwards, the retracting distance is smaller than the overlapping distance of the piston and the shifting block, so after the piston retracts to the bottom, the piston can still continue to stir the shifting block to work, simultaneously the piston pushes the push rod and the extrusion block to extrude the liquid in the cavity in the rotating rod A, the liquid is sprayed into the box body through the filter screen, simultaneously the push rod pushes the lever to stir the sliding plate to slide left and right, after the extrusion block pushes the extrusion block to rebound by the elasticity of the elastic block, the extrusion block is pulled back, the liquid in the water storage tank is sucked into the cavity, simultaneously the push plate continues to compress the water in the water storage tank by the thrust of the elastic plate, the air is not remained, thereby the filter screen can continuously spray the interior of the box body to cool and reduce dust when the shifting block is circularly stirred by the piston, a large amount of interior dust scattered during printing can be wrapped by water mist and blown out along with the air pump, meanwhile, the filter screen is not blocked by dust generated in the box body through the vibration of the sliding plate, and the foundation of long-term work is laid.

(3) According to the invention, by arranging the filter screen, flying sand and large particles in the air are frequently sucked when the filter screen filters the air, so that the flying sand and the large particles in the air are blocked and buffered by the elastic long block and the elastic ball, the filter screen is protected, and by the drooping of the elastic ball, the elastic long block is deformed and extrudes an internal air cavity when being impacted by the air and the particles, and is sucked by the air inlet check valve and enters the cavity and then is sprayed out by the air groove, so that the interior of the filter screen is continuously further cleaned while being protected by the elastic long block and the elastic ball, the practical service life of the filter screen is further prolonged, and the time for cleaning and maintaining the filter screen by wasting a large amount of manpower and material resources due to blockage is reduced.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a front view of the self-cleaning mechanism of the filter net of the present invention;

FIG. 4 is a front cross-sectional view of a turn bar of the present invention;

fig. 5 is a front cross-sectional view of the filter screen of the present invention.

In the figure: 1 electric conveyor, 2 boxes, 3 filter screen self-cleaning mechanisms, 301 rotating rod A, 401 push rods, 402 extrusion blocks, 403 levers, 404 rotating rod B, 405 sliding plates, 406 filter screens, 407 push plates, 408 elastic plates B, 302 fan blades, 303 fixing rods, 304 pistons, 305 shifting blocks, 306 filter screen fixing frames, 307 filter screens, 308 vent grooves, 309 elastic plates A, 501 elastic long blocks, 502 elastic balls, 503 rubber blocks, 504 air inlet check valves, 505 air grooves, 4 air inlets and 5 air pumps.

Detailed Description

As shown in fig. 1 to 5, the present invention provides a technical solution: the utility model provides an air-cooled cooling device for textile printing and dyeing, including

electronic conveyer

1, 1 top fixedly connected with box 2 of electronic conveyer, the air vent has been seted up at box 2 top, the air vent has been seted up to one side, filter screen 307 is through ventilation slot 308 and ventilation slot intercommunication, 2 one side fixedly connected with aspiration pump 5 of box, 2 opposite sides of box have been seted up into

wind gap

4, 2 inside filter screen automatically cleaning mechanism 3 that is provided with of box, through setting up filter screen automatically cleaning mechanism 3, when the air is through the fixed frame 306 of filter screen and filter screen 307, the air is filtered by filter screen 307, the wind after the filtration is through flabellum 302 and stir flabellum 302 and rotate, flabellum 302 drives bull stick A301 and rotates, the piston 304 of bull stick A301 one end also rotates stirring shifting block 305 top and below that does not stop, thereby make and promote the fixed frame 306 of filter screen and carry out the slip that does not stop about 2 inner walls of box and receive 309 to kick-back, thereby make the dust that falls into filter screen 307 surface can be along its self with self through the vibrations of filter screen 307 self The slope of slope shake landing, extrude the box 2 top and the air in the cavity of one side through 308 and spout into filter screen 307 simultaneously in the vibrations of sliding from top to bottom, jet-propelled dust removal is carried out to filter screen 307 inside, the air in the cavity flows in through the check valve that box 2 top and one side were seted up, thereby make filter screen 307 can make filter screen 307 shake the dust and shake off through the velocity of flow of air when carrying out filterable to the air, thereby it is clean to keep filter screen 307 self, and the vibrations through the fixed frame 306 of filter screen spout the air of outer wall into filter screen 307 inside through 308, then further carry out the automatically cleaning to filter screen 307 inside, thereby make and prevent self blocking when filtering the dust, and then work efficiency has been increased.

The filter screen self-cleaning mechanism 3 comprises a rotating rod A301, the rotating rod A301 comprises a pushing rod 401, an extrusion block 402 and a lever 403, a chute A and a chute B are arranged inside the lever 403, one end of the pushing rod 401 is movably connected with one end of the lever 403 through the chute A, the bottom of the sliding plate 405 is movably connected with the other end of the lever 403 through the chute B, the rotating rod B404, the sliding plate 405, an atomizing nozzle 406, a pushing plate 407 and an elastic plate 408 are arranged inside the lever 403, one end of the pushing rod 401 is fixedly connected with one end of a piston 304, the outer wall of the pushing rod 401 is slidably connected with the inner wall of the rotating rod A301, the other end of the pushing rod 401 is fixedly connected with the outer wall of the extrusion block 402, a cavity is arranged inside the piston 304, the outer wall of the extrusion block 402 is slidably connected with the inner wall of the cavity, one end of the pushing rod 401 is movably connected with one end of the lever 403, the inner wall of the rotating rod B404 is fixedly connected with the outer wall of the rotating rod B404, the two ends of the rotating rod B404 are respectively rotatably connected with the front surface and the back surface of the inner wall of the cavity through bearings, and the other end of the lever 403 is movably connected with the bottom of the sliding plate 405, the top of the rotating rod A301 is provided with a long chute, the outer wall of the sliding plate 405 is in sliding connection with the inner wall of the long chute, the outer wall of the sliding plate 405 is fixedly connected with the outer wall of the atomizing nozzle 406, the outer wall of the atomizing nozzle 406 is in sliding connection with the inner wall of the long chute, the top of the rotating rod A301 is provided with a groove, the inner part of the rotating rod A301 is provided with a water storage tank, the outer wall of the push plate 407 is in sliding connection with the inner wall of the water storage tank, the outer wall of the push plate 407 is fixedly connected with one end of an elastic plate 408, the other end of the elastic plate 408 is fixedly connected with the outer wall of the push plate 407, the inner wall of the rotating rod A301 is fixedly provided with a one-way valve B, the water storage tank and the groove in the rotating rod A301 are communicated through the one-way valve B, through the rotating rod A301, when the piston 304 stirs the shifting block 305, the retracting distance is smaller than the distance between the piston 304 and the shifting block 305, after the piston 304 retracts to the end, the piston 304 can continue to stir the shifting block 305 to work, and simultaneously, the piston 304 pushes the rod 401 and the extrusion block 402 to extrude the liquid in the cavity in the rotating rod A301, spray to the inside of box 2 through filter screen 406, catch bar 401 promotes lever 403 and dials slide 405 and carry out the horizontal slip simultaneously, piston 304 receives the elasticity resilience of elastic block and makes extrusion block 402 pulled back after extrusion block 402 promotes the extrusion, the liquid of aqua storage tank is inhaled inside the cavity, push pedal 407 receives the thrust of elastic plate 408 and continues to compress tightly the inside water of aqua storage tank simultaneously, make it not leave the air, thereby make filter screen 406 can continuously spray the cooling dust fall to the inside of box 2 when piston 304 circulates and dials 305, a large amount of inside dust that scatters during printing and dyeing can wrap up through water smoke and be blown out along with aspiration pump 5, make filter screen 406 can not be blocked by the inside dust that produces of box 2 through the vibrations of slide 405 simultaneously, establish the basis of long-term work, flabellum 302, dead lever 303, piston 304, dial 305, fixed frame 306 of filter screen, A filter screen 307, the filter screen 307 includes an elastic long block 501, an elastic ball 502, a rubber block 503, an air inlet check valve 504, one end of the air inlet check valve 504 is fixedly installed with a filter valve at one end of an air groove 505, the air groove 505, one end of the elastic long block 501 penetrates through the filter screen 307 and is fixedly connected with the inner wall of the filter screen 307, the other end of the elastic long block 501 is fixedly connected with the outer wall of the elastic ball 502, the outer wall of the elastic ball 502 is fixedly connected with the outer wall of the rubber block 503, the air inlet check valve 504 is arranged on the outer wall of the elastic long block 501, an air cavity is arranged inside the air groove 505, the air inlet check valve 504 is communicated with the air groove 505 through the air cavity, by arranging the filter screen 307, when the air is filtered by the filter screen 307, flying sand and large particles in the air are frequently sucked, so as to be blocked and buffered by the elastic long block 501 and the elastic ball 502, thereby protecting the filter screen 307 and by the droop of the elastic ball 502, when the elastic long An air chamber which is used for continuously cleaning the inside of the filter screen 307 while the elastic long block 501 and the elastic ball 502 protect the filter screen 307 and is ejected out of the air groove 505 after air enters the cavity through the air inlet check valve 504, thereby further improving the practical service life of the filter screen 307 and reducing the time for cleaning and maintaining the filter screen by wasting a large amount of manpower and material resources due to blockage, a ventilation groove 308 and an elastic plate A309, the outer wall of a rotating rod A301 is fixedly connected with one end of a fan blade 302, the outer wall of the rotating rod A301 is rotatably connected with the inner wall of a fixed rod 303 through a bearing, one end of the fixed rod 303 is fixedly connected with the top of the inner wall of a box body 2, the inner wall of the rotating rod A301 is slidably connected with the outer wall of a piston 304, one end of the piston 304 is fixedly connected with an elastic block, one end of the elastic block is fixedly connected with the inner wall of the rotating rod A301, the fixed frame 306 inner wall of filter screen and the fixed frame 306 outer wall fixed connection of filter screen 307, ventilation groove 308 is seted up inside the fixed frame 306 of filter screen, filter screen 307 and ventilation groove 308 intercommunication, the fixed frame 306 outer wall of filter screen and elastic plate A309 one end fixed connection, the elastic plate A309 other end and 2 inner wall fixed connection of box.

When the air extracting device is used, the textile fabric is placed on the electric conveyor 1 to work, the air extracting pump 5 is started, so that air is sucked through the air inlet 4 and flows out from one side of the air extracting pump 5, meanwhile, when the air passes through the filter screen fixing frame 306 and the filter screen 307, the air is filtered by the filter screen 307, the filtered air passes through the fan blade 302 and stirs the fan blade 302 to rotate, the fan blade 302 drives the rotating rod A301 to rotate, the piston 304 at one end of the rotating rod A301 also rotates to stir the upper part and the lower part of the shifting block 305 ceaselessly, so that the filter screen fixing frame 306 is pushed to slide on the inner wall of the box body 2 ceaselessly up and down and be rebounded by the piston 309, dust falling on the surface of the filter screen 307 can shake and slide along the inclined slope of the dust, and simultaneously, the air in the top of the box body 2 and a cavity at one side is extruded to pass through the filter screen 307 by the piston 308 while shaking up and down, the inside of the filter screen 307 is subjected to air injection and dust removal, air in the cavity flows in through the check valve arranged at the top and one side of the box body 2, so that the filter screen 307 can vibrate the filter screen 307 to shake off dust through the flow velocity of the air while filtering the air, the filter screen 307 keeps self-cleaning, air on the outer wall is sprayed into the filter screen 307 through the check valve 308 through the vibration of the filter screen fixing frame 306, the inside of the filter screen 307 is further subjected to self-cleaning, the self-blocking is prevented while filtering the dust, the working efficiency is increased, meanwhile, when the piston 304 stirs the shifting block 305, the piston 304 retracts inwards, the retracting distance is smaller than the mutual overlapping distance between the piston 304 and the shifting block 305, after the piston 304 retracts to the bottom, the piston 304 still continues to work through the shifting block 305, and meanwhile, the piston 304 pushes the push rod 401 and the extrusion block 402 to extrude liquid in the cavity inside the rotating rod A301, the spraying water is sprayed into the box body 2 through the filter screen 406, meanwhile, the push rod 401 pushes the lever 403 to stir the sliding plate 405 to slide left and right, after the extrusion block 402 pushes and extrudes, the piston 304 is rebounded by the elastic force of the elastic block, so that the extrusion block 402 is pulled back, the liquid in the water storage tank is sucked into the cavity, meanwhile, the push plate 407 is pushed by the elastic plate 408 to continuously compress the water in the water storage tank, so that air is not left in the water storage tank, therefore, the filter screen 406 can continuously spray, cool and dust fall into the box body 2 when the piston 304 circularly stirs the shifting block 305, a large amount of internal dust scattered in printing and dyeing can be wrapped by water mist and blown out along with the air suction pump 5, meanwhile, the filter screen 406 cannot be blocked by the dust generated in the box body 2 through the vibration of the sliding plate 405, the foundation of long-term work is laid, and when the air is filtered by the filter screen 307, the flying sand gravel and large particles in the air can be frequently sucked, thereby blockked the buffering by elasticity rectangular block 501 and elastic ball 502, thereby protect filter screen 307, and flagging through elastic ball 502, make elasticity rectangular block 501 take place the inside air cavity of deformation extrusion when elasticity rectangular block 501 is by air and particulate matter striking, admit air through intake air check valve 504 and get into behind the cavity by air duct 505 blowout, thereby to carry out the further cleanness of continuation to filter screen 307 inside when elasticity rectangular block 501 protects filter screen 307 with elastic ball 502, accomplish then the practical life of filter screen 307 further improves, the time of having reduced because the jam and extravagant a large amount of manpowers and material resources to its clearance maintenance.

Claims

1. The utility model provides an air-cooled cooling device for textile printing and dyeing, includes electronic conveyer (1), electronic conveyer (1) top fixedly connected with box (2), box (2) one side fixedly connected with aspiration pump (5), income wind gap (4), its characterized in that have been seted up to box (2) opposite side: a filter screen self-cleaning mechanism (3) is arranged in the box body (2);

the filter screen self-cleaning mechanism (3) comprises a rotating rod A (301), fan blades (302), a fixed rod (303), a piston (304), a shifting block (305), a filter screen fixing frame (306), a filter screen (307), a ventilation groove (308) and an elastic plate A (309), wherein the outer wall of the rotating rod A (301) is fixedly connected with one end of the fan blades (302), the outer wall of the rotating rod A (301) is rotatably connected with the inner wall of the fixed rod (303) through a bearing, one end of the fixed rod (303) is fixedly connected with the top of the inner wall of the box body (2), the inner wall of the rotating rod A (301) is slidably connected with the outer wall of the piston (304), one end of the piston (304) is fixedly connected with an elastic block, one end of the elastic block is fixedly connected with the inner wall of the rotating rod A (301), the other end of the piston (304) is in contact with the outer wall of the shifting block (305), the outer wall of the shifting block (305) is fixedly connected with one side of the filter screen fixing frame (306), the utility model discloses a box, including box (2), ventilation groove (308), filter screen fixed frame (306) inner wall and filter screen (307) outer wall fixed connection, ventilation groove (308) are seted up inside filter screen fixed frame (306), filter screen (307) and ventilation groove (308) intercommunication, the fixed frame of filter screen (306) outer wall and elastic plate A (309) one end fixed connection, the elastic plate A (309) other end and box (2) inner wall fixed connection.

2. The air-cooled cooling device for textile printing and dyeing according to claim 1, characterized in that: the rotating rod A (301) comprises a push rod (401), an extrusion block (402), a lever (403), a rotating rod B (404), a sliding plate (405), an atomizing spray head (406), a push plate (407) and an elastic plate (408), one end of the push rod (401) is fixedly connected with one end of a piston (304), the outer wall of the push rod (401) is slidably connected with the inner wall of the rotating rod A (301), the other end of the push rod (401) is fixedly connected with the outer wall of the extrusion block (402), a cavity is formed in the piston (304), the outer wall of the extrusion block (402) is slidably connected with the inner wall of the cavity, one end of the push rod (401) is movably connected with one end of the lever (403), the inner wall of the lever (403) is fixedly connected with the outer wall of the rotating rod B (404), the two ends of the rotating rod B (404) are rotatably connected with the front surface and the back surface of the inner wall of the cavity through bearings respectively, and the other end of the lever (403) is movably connected with the bottom of the sliding plate (405), long spout has been seted up at bull stick A (301) top, slide (405) outer wall and long spout inner wall sliding connection, slide (405) outer wall and atomizer (406) outer wall fixed connection, atomizer (406) outer wall and long spout inner wall sliding connection, the recess has been seted up at bull stick A (301) top, the aqua storage tank has been seted up to bull stick A (301) inside, push pedal (407) outer wall and aqua storage tank inner wall sliding connection, push pedal (407) outer wall and elastic plate (408) one end fixed connection, elastic plate (408) other end and push pedal (407) outer wall fixed connection.

3. The air-cooled cooling device for textile printing and dyeing according to claim 2, characterized in that: the air inlet check valve is characterized in that the filter screen (307) comprises an elastic long block (501), an elastic ball (502), a rubber block (503), an air inlet check valve (504) and an air groove (505), one end of the elastic long block (501) penetrates through the filter screen (307) and is fixedly connected with the inner wall of the filter screen (307), the other end of the elastic long block (501) is fixedly connected with the outer wall of the elastic ball (502), the outer wall of the elastic ball (502) is fixedly connected with the outer wall of the rubber block (503), the air inlet check valve (504) is arranged on the outer wall of the elastic long block (501), an air cavity is formed in the air groove (505), and the air inlet check valve (504) is communicated with the air groove (505) through the air cavity.

4. The air-cooled cooling device for textile printing and dyeing according to claim 3, characterized in that: the push rod is characterized in that a sliding groove A and a sliding groove B are formed in the lever (403), one end of the push rod (401) is movably connected with one end of the lever (403) through the sliding groove A, and the bottom of the sliding plate (405) is movably connected with the other end of the lever (403) through the sliding groove B.

5. The air-cooled cooling device for textile printing and dyeing according to claim 4, characterized in that: the top and one side of the box body (2) are provided with vent holes, and the filter screen (307) is communicated with the vent grooves through vent grooves (308).

6. The air-cooled cooling device for textile printing and dyeing according to claim 5, characterized in that: the inner wall of the rotating rod A (301) is fixedly provided with a one-way valve B, and the water storage tank and the groove in the rotating rod A (301) are communicated through the one-way valve B.

7. The air-cooled cooling device for textile printing and dyeing according to claim 6, characterized in that: one end of the air inlet one-way valve (504) and one end of the air tank (505) are fixedly provided with filter valves.