CN218308734U - Atomizer for coating machine for processing carbonless copy paper - Google Patents

Abstract

The utility model discloses an atomizer for carbonless copy paper processing cloth coating machine belongs to carbonless copy paper processing technology field, including unable adjustment base, fixed plate, dwang A, servo motor, dwang B, spacing groove, wind-up roll, slider, carbon paper material roller, drying chamber, guide mouth and coating chamber, the equal fixed mounting in both sides has the fixed plate around unable adjustment base outer wall top both ends, the equal fixed mounting in fixed plate outer wall rear side at unable adjustment base outer wall top rear side both ends has servo motor. The utility model discloses drive atomizer and fall suitable position, make atomizer adjust the back to the coating concentration of carbon paper surface coating, will make the pointer of the carriage other end slide on the scale surface, directional distance scale that falls back, but the staff direct observation pointer is in the position on scale surface, makes atomizer adjust the coating concentration of carbon paper surface coating and handles, reaches more convenient effect.

Description

Atomizer for coating machine for processing carbonless copy paper

Technical Field

The utility model belongs to the technical field of carbonless copy paper processing, specifically be a carbonless copy paper processing cloth coating machine atomizer.

Background

The carbonless copy paper is a novel copy paper which can directly carry out copying and color development without an ink copying layer.

The non-carbon copy paper spraying and recovering device has the advantages that through search, the non-carbon copy paper spraying and recovering device with the patent number of CN202023160668.2 is found, the non-carbon copy paper spraying and recovering device is provided with the spraying and recovering assembly, raw material waste caused by uneven spraying of raw materials in the production process of the non-carbon copy paper is effectively avoided, collection of redundant spraying raw materials is facilitated, and the cost of the spraying raw materials is greatly saved; wherein, the deficiency points are as follows:

this kind of carbonless copy paper spraying recovery unit is when the staff uses to carbon paper surface coating paint, because the shower nozzle that the spraying paint was used can not carry out the device that carries out adjustment treatment with the distance between the carbon paper, make can not adjust the concentration of spraying at carbon paper surface coating, when the staff need be at the coating of different concentrations of carbon paper surface coating, with special inconvenient the while, because be not provided with the device that can carry out the stoving to the spraying at carbon paper surface coating, make when the carbon paper rolling, make the coating that does not in time dry drop from the carbon paper surface easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that the coating effect of the carbonless copy paper spraying and recycling device is poor and the coating which is not dried in time falls off from the surface of the copy paper, the atomizer for the carbonless copy paper processing and coating machine is provided.

The utility model adopts the technical scheme as follows: the utility model provides a carbonless carbon paper processing cloth coating machine atomizer, includes unable adjustment base, fixed plate, dwang A, servo motor, dwang B, spacing groove, wind-up roll, slider, carbon paper material roller, drying chamber, passage and coating chamber, the equal fixed mounting in both sides has the fixed plate around unable adjustment base outer wall top both ends, the equal fixed mounting in fixed plate outer wall rear side at unable adjustment base outer wall top rear side both ends has servo motor, servo motor outside front end all has dwang B through output shaft connection, the fixed plate outer wall rear side of unable adjustment base outer wall top front end both sides all is provided with dwang A through the bearing rotation, dwang B and the equal fixed mounting of dwang A outer wall opposite face have the spacing groove, and a pair of be provided with carbon paper material roller between the spacing groove outside, it is right to be provided with the wind-up roll between the spacing groove outside, the equal fixed mounting in both ends has the slider around wind-up roll and the carbon paper material roller outer wall all through the slider agrees with the slip setting in relative spacing groove inboard, and pass through bolted connection between slider and the spacing groove, fixed mounting has both ends difference fixed mounting both ends and the free coating material roller to carry out the high coating chamber of drying and carry out the high coating and carry out the high coating and carry out the change of the coating and carry out the coating mechanism of drying process of coating and carry out the high coating and adjust the coating and carry out the coating room.

The device comprises a drying chamber, a coating chamber, a support frame, a bearing, a baffle, electric telescopic rods, a support frame, a bearing, a feeding roller, a drying chamber, a coating chamber and a coating chamber, wherein the electric telescopic rods are fixedly mounted at two ends of the bottom of the outer wall of the drying chamber and the coating chamber, the support frame is fixedly mounted at the top of the outer wall of the electric telescopic rods, the feeding roller is rotatably arranged at the top of the outer wall of the support frame through the bearing, the baffle is slidably arranged at two ends of the outer side of the feeding roller, and the baffle is connected with the feeding roller through bolts.

Wherein, altitude mixture control coating mechanism comprises spout A, scale, spout B, lead screw slide rail, carriage, pointer, scribble workbin, paint pump and atomizer, coating outdoor wall top both ends all imbed and are provided with spout A, the equal fixed mounting in coating outdoor wall top both ends has the lead screw slide rail, lead screw slide rail outside one end all slides through the slider and is provided with the carriage, and carriage outside bottom agrees with to slide and set up at spout A inboardly, carriage outer wall bottom embedding is provided with atomizer, atomizer has a plurality of, and is the equidistance and sets up side by side, unable adjustment base outer wall top is close to coating outdoor side bottom and is provided with scribbles the workbin, scribble the embedding of workbin outer wall one end and be provided with the paint pump, connect through the paint guide hose between paint pump and the atomizer, coating outdoor wall top both ends are close to carriage outside other end fixed mounting and have the scale, scale outer wall opposite face all imbeds and is provided with spout B, and the carriage outer wall other end slides through the slider and sets up at spout B inboardly, carriage outer wall other end fixed mounting has the pointer, and the interval millimeter between pointer outer wall rear side of pointer and the scale outer wall front end.

The drying mechanism comprises air deflectors, a heat pump dryer and an air outlet, the air deflectors are fixedly mounted on the upper side and the lower side of the front end and the lower side of the rear end of the inner wall of the drying chamber, the air deflectors are arranged in an arc shape, the air outlet is embedded into the front end of the outer wall of the air deflector on the outer wall of the rear top of the inner wall of the drying chamber, the air outlets are provided with a plurality of air outlets which are arranged in parallel at equal intervals, the heat pump dryer is fixedly mounted on the top of the outer wall of the drying chamber, and the heat pump dryer and the air outlet are connected through an air guide pipe.

Wherein, the material of the inner wall of the coating chamber is PET.

Wherein, the inner wall of the coating chamber is made of polytetrafluoroethylene.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. this kind of carbonless copy paper processing atomizer for cloth coating machine is through being provided with the carriage, can make staff's control lead screw slide rail drop the slider and slide in spout A inboard, drive the atomizer and drop to suitable position, make the atomizer adjust the back to the coating concentration of carbon copy paper surface coating, the pointer that will make the carriage other end slides on the scale surface, after directional distance scale that falls, the staff can direct observation pointer in the position on scale surface, make the atomizer adjust the processing to the coating concentration of carbon copy paper surface coating, it is more convenient to improve the atomizer position control, and the effect to the free regulation of coating concentration.

2. The atomizer for the carbonless copy paper processing cloth coating machine is provided with the air deflector, so that a worker can open the heat pump dryer to guide hot air into the drying chamber from the plurality of air outlets through the air guide pipes, when the hot air contacts the surface of the air deflector, the hot air circulates around the copy paper, and after the coating for copying coated on the surface of the copy paper is dried, the copy paper is guided out from the other end of the drying chamber and is wound outside the winding roller, so that the effect of drying the coating on the surface of the copy paper is improved.

Drawings

FIG. 1 is a schematic sketch of a front-view three-dimensional structure of a coating device of the present invention;

FIG. 2 is a schematic diagram of a front sectional structure of a coating apparatus according to the present invention;

fig. 3 is an enlarged schematic diagram of a structure at a in fig. 2;

FIG. 4 is a schematic diagram of a side sectional structure of the feeding roller in the present invention;

fig. 5 is the schematic diagram of the sectional structure of the side surface of the middle wind-up roll.

The mark in the figure is: 1. a fixed base; 101. a fixing plate; 102. rotating the rod A; 2. a servo motor; 201. rotating the rod B; 202. a limiting groove; 3. a wind-up roll; 301. a slider; 4. a carbon paper roll; 5. a drying chamber; 501. a material guide port; 502. an electric telescopic rod; 503. a support frame; 504. a feed roller; 505. a baffle plate; 506. an air deflector; 6. a coating chamber; 601. a chute A; 602. a graduated scale; 603. a chute B; 7. a heat pump dryer; 701. an air outlet; 8. a screw slide rail; 801. a carriage; 802. a pointer; 9. a paint tank; 901. a paint pump; 902. an atomizing spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-5, an atomizer for a carbon-free copy paper processing coating machine comprises a fixed base 1, a fixed plate 101, a rotating rod a102, a servo motor 2, a rotating rod B201, a limiting groove 202, a wind-up roll 3, a slide block 301, a copy paper roll 4, a drying chamber 5, a material guide opening 501 and a coating chamber 6, wherein the fixed plate 101 is fixedly arranged on the front and back sides of the two ends of the top of the outer wall of the fixed base 1, the servo motor 2 is fixedly arranged on the rear side of the outer wall of the fixed plate 101 at the two ends of the rear side of the top of the outer wall of the fixed base 1, the rotating rod B201 is connected with the front end of the outer side of the servo motor 2 through an output shaft, the rotating rod a102 is rotatably arranged on the rear side of the outer wall of the fixed plate 101 at the two sides of the top of the outer wall of the fixed base 1 through a bearing, the limiting groove 202 is fixedly arranged on the opposite surface of the outer wall of the rotating rod B201 and the rotating rod a102, the copying paper roll 4 is arranged between the outer side of the pair of the limiting groove 202, a winding roller 3 is arranged between the outer sides of the other pair of limiting grooves 202, sliding blocks 301 are fixedly arranged at the front and rear ends of the outer walls of the winding roller 3 and the carbon paper roll 4, the winding roller 3 and the carbon paper roll 4 are arranged on the inner sides of the opposite limiting grooves 202 in a fit-sliding mode through the sliding blocks 301, the sliding blocks 301 are connected with the limiting grooves 202 through bolts, a drying chamber 5 and a coating chamber 6 are fixedly arranged at the middle of the top of the outer wall of the fixing base 1 respectively at the two ends of the top of the outer wall, material guide openings 501 are formed in the two ends of the outer walls of the drying chamber 5 and the coating chamber 6 in an embedded mode, a height adjusting coating mechanism capable of freely adjusting the height of an atomizing nozzle to enable the concentration of coating sprayed on the surface of the carbon paper to be changed is arranged on the inner side of the coating chamber 6, and a drying mechanism capable of circularly drying the surface of the carbon paper sprayed with the coating is arranged on the inner side of the coating chamber 6.

Referring to fig. 2 and 4, further, two ends of the bottom of the outer walls of the drying chamber 5 and the coating chamber 6 are fixedly provided with an electric telescopic rod 502, the top of the outer wall of the electric telescopic rod 502 is fixedly provided with a support frame 503, the top of the outer wall of the support frame 503 is rotatably provided with a feed roller 504 through a bearing, two ends of the outer side of the feed roller 504 are slidably provided with a baffle 505, the baffle 505 and the feed roller 504 are connected through a bolt, when a worker produces copy paper and needs to coat a coating for copying on the surface of the medium paper of the copy paper, the worker carries the copy paper roller 4 and the wind-up roller 3 to a work place, the worker respectively slides the front and rear end sliders 301 of the outer walls of the wind-up roller 3 and the copy paper roller 4 between the limiting grooves 202 at two ends of the top of the fixing base 1 and screws in the bolt for fixing, the worker passes one end of the copy paper outside the drying chamber 5 and the coating chamber 6 and winds the wind-up roller 3, the worker controls the feed roller 502 at two ends of the outer side of the bottom of the drying chamber 5 and the coating chamber 6 to enable the feed roller 505 to be in the position, the position for lifting the two ends of the feed roller 504 and the servo motor for lifting the servo process of the copy paper, and the servo motor for pulling the copy paper after the two ends of the copy paper is lifted, and the two ends of the servo feed roller 504, and the servo motor for coating roller is lifted up, and the servo motor for coating roller 504.

Referring to fig. 1-3, further, the height adjusting coating mechanism is composed of a chute a601, a graduated scale 602, a chute B603, a screw rod slide rail 8, a sliding frame 801, a pointer 802, a paint tank 9, a paint pump 901 and an atomizing spray head 902;

the two ends of the top of the outer wall of the coating chamber 6 are embedded with sliding grooves A601, the two ends of the top of the outer wall of the coating chamber 6 are fixedly provided with screw rod sliding rails 8, one end of the outer side of each screw rod sliding rail 8 is provided with a sliding frame 801 in a sliding manner through a sliding block, the bottom of the outer side of the sliding frame 801 is arranged at the inner side of the sliding groove A601 in a sliding manner, the bottom of the outer wall of the sliding frame 801 is embedded with an atomizing nozzle 902, the atomizing nozzles 902 are arranged in a plurality of same-distance parallel arrangement, the top of the outer wall of the fixed base 1 is provided with a coating box 9 near the bottom of the outer side of the coating chamber 6, one end of the outer wall of the coating box 9 is embedded with a paint pump 901, the paint pump 901 and the atomizing nozzle 902 are connected through a paint guide hose, the two ends of the top of the outer wall of the coating chamber 6 are fixedly provided with graduated scales 602 near the other end of the outer side of the sliding frame 801, the opposite surfaces of the graduated scales 602 are embedded with sliding grooves B603, and the opposite surfaces of the sliding grooves B603 are arranged at the other ends of the outer wall of the sliding frame 801 through the sliding blocks, the other end of the outer wall of the sliding frame 801 is fixedly provided with a pointer 802, and the distance between the rear side of the outer wall of the pointer 802 and the front end of the outer wall of the graduated scale 602 is one millimeter, when a worker opens two servo motors 2 to drive the winding roller 3 and the carbon paper roller 4 to rotate simultaneously for winding treatment, the worker opens the paint pump 901 to spray the paint in the paint box 9 from a plurality of atomizing nozzles 902 to the surface of the carbon paper being conveyed through the paint guide hoses, the worker controls the screw rod sliding rail 8 to lower the sliding frame 801 to slide in the sliding groove A601 to drive the atomizing nozzles 902 to descend to a proper position, so that after the atomizing nozzles 902 adjust the concentration of the paint sprayed on the surface of the carbon paper, the pointer 802 at the other end of the sliding frame 801 slides on the surface of the graduated scale 602, and after pointing to the descending distance graduation, the worker can directly observe the position of the pointer 802 on the surface of the graduated scale 602, the atomizing nozzle 902 can adjust the concentration of the coating sprayed on the surface of the carbon paper, so that a more convenient effect is achieved.

Referring to fig. 1-2, further, the drying mechanism is composed of an air deflector 506, a heat pump dryer 7 and an air outlet 701;

the upper side and the lower side of the front end and the lower side of the rear end of the inner wall of the drying chamber 5 are fixedly provided with air deflectors 506, the air deflectors 506 are arranged in an arc shape, the front end of the outer wall of the air deflector 506 on the top outer wall of the rear side of the inner wall of the drying chamber 5 is embedded with an air outlet 701, a plurality of air outlets 701 are arranged in parallel at equal intervals, the top of the outer wall of the drying chamber 5 is fixedly provided with a heat pump dryer 7, the heat pump dryer 7 is connected with the air outlet 701 through an air guide pipe, after the carbon paper is subjected to surface coating treatment by a coating chamber 6, the carbon paper is conveyed into the drying chamber 5, at the moment, a worker opens the heat pump dryer 7 to guide hot air out of the air outlets 701 into the drying chamber 5 through the air guide pipe, when the hot air contacts with the surface of the air deflectors 506, the carbon paper circulates around the carbon paper, after the coating for carbon paper surface coating is dried, the carbon paper is guided out from the other end of the drying chamber 5 and is wound outside the wind-up roller 3.

Referring to fig. 1 to 5, further, the servo motor 2, the electric telescopic rod 502, the heat pump dryer 7, the lead screw slide rail 8 and the paint pump 901 are electrically connected to an external power supply through a control panel.

Referring to fig. 1-2, further, the material of the inner wall of the coating chamber 6 is PET, and because the PET has the characteristics of smooth and wear-resistant surface, when the atomized coating sprayed from the atomizing nozzle 902 contacts the inner wall of the coating chamber 6, the coating will not adhere for a period of time, which makes it more convenient for the worker to clean the inner wall of the coating chamber 6.

As shown in FIGS. 1-2, the utility model discloses outside the example that uses coating chamber 6 inner wall material to be PET, there is still another implementation mode, coating chamber 6 inner wall material is polytetrafluoroethylene, have high lubrication because of the polytetrafluoroethylene material, non-stick and wear-resisting characteristic, when can making atomizer 902 spun atomized coating contact coating chamber 6 inner wall, can make coating can not cause the adhesion in a period, when making the staff clear up the interior wall of coating chamber 6 more convenient, the coating chamber 6 inner wall that has the polytetrafluoroethylene material of weather-resistant, corrosion resisting characteristic can contact coating for a long time and can not cause the production of weing and corrode.

The working principle is as follows: firstly, when a worker produces copy paper and needs to coat a coating for copying on the surface of middle paper of the copy paper, after the worker carries a copy paper roller 4 and a wind-up roller 3 to be coated to a work place, the worker slides front and rear end sliders 301 on the outer walls of the wind-up roller 3 and the copy paper roller 4 into spacing grooves 202 at two ends of the top of a fixed base 1 respectively, screws bolts into the spacing grooves for fixation, then the worker enables one end of the copy paper outside the copy paper roller 4 to pass through a drying chamber 5 and a coating chamber 6 and winds the copy paper outside the wind-up roller 3, the worker controls electric telescopic rods 502 at two ends of the bottom outside of the drying chamber 5 and the coating chamber 6 to lift up a feed roller 504, so that the feed roller 504 is contacted with the surface of the copy paper, and the copy paper is positioned between the drying chamber 5 and the coating chamber 6, then pulls baffle plates 505 at two ends of the feed roller 504 to slide towards opposite directions outside the feed roller 504, after limiting the position of the carbon paper to be conveyed, a worker screws bolts between the feeding roller 504 and the baffle 505 to fix, at the moment, the worker opens the two servo motors 2 to drive the winding roller 3 and the carbon paper roller 4 to rotate simultaneously to perform winding treatment, then, the worker opens the paint pump 901 to spray the paint in the paint box 9 from a plurality of atomizing nozzles 902 to the surface of the carbon paper to be conveyed through the paint guide hoses, and at the same time, the worker controls the screw rod slide rail 8 to lower the sliding frame 801 to slide on the inner side of the sliding groove A601 to drive the atomizing nozzles 902 to descend to a proper position, so that after the atomizing nozzles 902 adjust the concentration of the paint sprayed on the surface of the carbon paper, the pointer 802 at the other end of the sliding frame 801 slides on the surface of the scale 602, and after pointing to the descending distance scale, the worker can directly observe the position of the pointer 802 on the surface of the scale 602, the concentration of the coating sprayed on the surface of the carbon paper by the atomizing nozzle 902 is adjusted, finally, the carbon paper is conveyed into the drying chamber 5 after being coated with the surface coating by the coating chamber 6, at the moment, a worker opens the heat pump dryer 7 to guide hot air into the drying chamber 5 from the air outlets 701 through the air guide pipes, when the hot air contacts the surface of the air guide plate 506, the hot air circulates around the carbon paper, and after drying the coating for carbon paper coated on the surface of the carbon paper, the carbon paper is guided out from the other end of the drying chamber 5 and is wound outside the winding roller 3.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. An atomizer for a carbon-free carbon paper processing cloth coating machine comprises a fixed base (1), a fixed plate (101), a rotating rod A (102), a servo motor (2), a rotating rod B (201), a limiting groove (202), a winding roller (3), a slide block (301), a carbon paper material roller (4), a drying chamber (5), a material guide opening (501) and a coating chamber (6), wherein the fixed plate (101) is fixedly arranged on the front side and the rear side of the two ends of the top of the outer wall of the fixed base (1), the servo motor (2) is fixedly arranged on the rear side of the outer wall of the fixed plate (101) at the two ends of the rear side of the top of the outer wall of the fixed base (1), the front end of the outer side of the servo motor (2) is connected with the rotating rod B (201) through an output shaft, fixed plate (101) outer wall rear side of unable adjustment base (1) outer wall top front end both sides all rotates through the bearing and is provided with dwang A (102), dwang B (201) and dwang A (102) outer wall opposite face equal fixed mounting have spacing groove (202), and is a pair of be provided with carbon paper material roller (4) between the spacing groove (202) outside, it is right to another be provided with wind-up roll (3) between the spacing groove (202) outside, wind-up roll (3) and carbon paper material roller (4) outer wall around both ends equal fixed mounting have slider (301), and wind-up roll (3) and carbon paper material roller (4) all through slider (301) It is inboard at relative spacing groove (202) to agree with the slip setting, and passes through bolted connection between slider (301) and spacing groove (202), fixed baseplate (1) outer wall top middle both ends respectively fixed mounting have drying chamber (5) and coating room (6), drying chamber (5) and coating room (6) outer wall both ends all imbed and are provided with guide mouth (501), its characterized in that: the inside of the coating chamber (6) is provided with a height adjusting coating mechanism which can freely adjust the height of the atomizing nozzle to change the concentration of the coating sprayed on the surface of the carbon paper, and the inside of the coating chamber (6) is provided with a drying mechanism which can circularly dry the surface of the carbon paper sprayed with the coating.

2. The atomizer for carbonless copy paper processing and coating machine of claim 1, wherein: the drying chamber (5) and the coating chamber (6) outer wall bottom both ends all fixed mounting have electric telescopic handle (502), electric telescopic handle (502) outer wall top all fixed mounting has support frame (503), support frame (503) outer wall top is provided with feed roll (504) through the bearing rotation, feed roll (504) outside both ends all slide and are provided with baffle (505).

3. The atomizer for carbonless copy paper processing and coating machine of claim 1, wherein: the height adjusting and coating mechanism consists of a chute A (601), a graduated scale (602), a chute B (603), a lead screw slide rail (8), a slide frame (801), a pointer (802), a paint box (9), a paint pump (901) and an atomizing spray head (902);

coating room (6) outer wall top both ends all imbed and are provided with spout A (601), the equal fixed mounting in coating room (6) outer wall top both ends has lead screw slide rail (8), lead screw slide rail (8) outside one end all slides through the slider and is provided with carriage (801), and carriage (801) outside bottom agrees with to slide and set up at spout A (601) inboardly, carriage (801) outer wall bottom embedding is provided with atomizer (902), unable adjustment base (1) outer wall top is close to coating room (6) outside bottom and is provided with scribbles workbin (9), it is provided with paint pump (901) to scribble workbin (9) outer wall one end embedding, connect through leading the lacquer hose between paint pump (901) and atomizer (902, coating room (6) outer wall top both ends are close to carriage (801) outside other end fixed mounting has scale (602), scale (602) outer wall opposite face all imbeds and is provided with spout B (603), carriage (802) outer wall other end fixed mounting has pointer (802).

4. The atomizer for carbonless copy paper processing and coating machine of claim 1, wherein: the drying mechanism consists of an air deflector (506), a heat pump dryer (7) and an air outlet (701);

the air guide plates (506) are fixedly mounted on the upper side and the lower side of the front end and the lower side of the rear end of the inner wall of the drying chamber (5), the air guide plates (506) are arranged in an arc shape, an air outlet (701) is embedded into the front end of the outer wall of the air guide plate (506) on the outer wall of the top of the rear side of the inner wall of the drying chamber (5), and a heat pump dryer (7) is fixedly mounted on the top of the outer wall of the drying chamber (5).

5. The atomizer of claim 2, wherein: the baffle plate (505) and the feeding roller (504) are connected through bolts.

6. The atomizer of claim 3, wherein: atomizer (902) have a plurality of, and be the equidistance and set up side by side, carriage (801) outer wall other end slides through the slider and sets up at spout B (603) inboardly, pointer (802) outer wall rear side and scale (602) outer wall front end between the interval a millimeter.

7. The atomizer of claim 4, wherein: the air outlets (701) are arranged in parallel at equal intervals, and the heat pump dryer (7) is connected with the air outlets (701) through air guide pipes.

8. The atomizer of claim 1, wherein: the inner wall of the coating chamber (6) is made of PET.

9. The atomizer of claim 1, wherein: the inner wall of the coating chamber (6) is made of polytetrafluoroethylene.

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