CN117213197A - Anti-deformation paper tube drying device - Google Patents

Abstract

The invention relates to the technical field of paper tube drying, in particular to an anti-deformation paper tube drying device. Technical problems: the hot air cannot smoothly reach the bottom of the paper tube, so that the bottom is insufficiently heated, and shrinkage deformation is caused. The technical scheme is as follows: the deformation-preventing paper tube drying device comprises a cabin body, an air heater, a mounting rack, an anti-splashing component and the like; the left side of the cabin body is fixedly connected with a plurality of air heaters; the cabin body right side rigid coupling has a plurality of mounting bracket, from last down, and the mounting bracket of odd number is connected with one respectively to cabin body front side and prevents splashing the subassembly, and the mounting bracket of even number is connected with one respectively to cabin body rear side and prevents splashing the subassembly, and every mounting bracket right side all is provided with a plurality of lug. According to the invention, the left end of the paper tube is clamped by the tough clamp inside the moving block, and then the annular guide rail is started to drive the moving block to rotate, so that the moving block drives the clamped paper tube to rotate together, the bottom surface of the paper tube can rotate with other surfaces to contact with hot air, and the paper tube is heated uniformly.

Description

Anti-deformation paper tube drying device

Technical Field

The invention relates to the technical field of paper tube drying, in particular to an anti-deformation paper tube drying device.

Background

In the prior art, in the process of drying a paper tube, as a supporting object is arranged at the bottom of the paper tube, hot air cannot be uniformly covered on the bottom of the paper tube, and the paper tube dryer generally supplies hot air through a hot air circulation system, and the hot air is blown to a drying area, however, due to the shielding of the supporting object, the hot air cannot smoothly reach the bottom of the paper tube, so that the bottom is insufficiently heated, and shrinkage deformation is caused;

because the hot air causes disturbance and drift of the scraps when blowing the scraps, the dryer blows the scraps in the paper tube area to the inside of the collecting device through the air flow generated by the fan, however, part of the scraps are carried up under the action of the hot air, and are difficult to fix and thoroughly collect.

Disclosure of Invention

The invention provides a deformation-preventing paper tube drying device, which aims to overcome the defect that hot air cannot smoothly reach the bottom of a paper tube, so that the bottom is heated insufficiently and shrinkage deformation is caused.

The technical scheme is as follows: the deformation-preventing paper tube drying device comprises a cabin body, an air heater, a mounting rack, an anti-splashing assembly and a door; the left side of the cabin body is fixedly connected with a plurality of air heaters; the right side of the cabin body is fixedly connected with a plurality of mounting frames, the odd mounting frames are respectively connected with an anti-splashing assembly towards the front side of the cabin body from top to bottom, the even mounting frames are respectively connected with an anti-splashing assembly towards the rear side of the cabin body, and the right side of each mounting frame is provided with a plurality of protruding blocks; the joint of each mounting frame and the splash-proof assembly is provided with an air outlet pipe respectively; the convex blocks on the same mounting frame are detachably connected with a door together; the device also comprises a separation plate, an arc-shaped plate, an annular guide rail and a moving block; the inside of the cabin body is fixedly connected with a plurality of isolation plates, the inside of the cabin body is divided into a plurality of spaces by the plurality of isolation plates, and each space is communicated with one hot air blower; each isolation plate is fixedly connected with a plurality of arc plates; the left side of each isolation plate is fixedly connected with a plurality of annular guide rails, and each annular guide rail is aligned with the center of the corresponding arc plate; each annular guide rail is slidably connected with a moving block, and a tough clip for fixing the paper tube is arranged inside each moving block.

Optionally, the inner cambered surface of the arc plate is provided with a plurality of air guide grooves.

Optionally, a scraping unit is also included; the scraping unit comprises a motor, an air bag, a pump and a guide pipe; the left side of the cabin body is fixedly connected with a plurality of motors with the number corresponding to the number of the arc-shaped plates, and the rotating shaft of each motor is aligned with the center of the corresponding arc-shaped plate; the rotating shaft of each motor penetrates through the left side of the cabin body, and each motor is fixedly connected with an air bag respectively; the right side of each door is fixedly connected with a pump; the exhaust port of each pump machine is fixedly connected and communicated with a guide pipe, each guide pipe is provided with a plurality of branch pipes corresponding to the number of the air bags, and each branch pipe is communicated with the right end of the corresponding air bag.

Optionally, the balloon is helical.

Optionally, the balloon is provided with roughness.

Optionally, the splash-proof assembly comprises a baffle, a first filter screen, a wind shield, a collecting box and a protective assembly; a frame body is fixedly connected to the side face of each mounting frame, and each frame body is communicated with a corresponding air outlet pipe; a baffle is rotatably connected in each frame body, one side of each baffle facing the mounting frame is in a groove shape, and the baffles are made of light materials; the bottom of each baffle is fixedly connected with a first filter screen; one end of a wind shield is fixedly connected to the upper side of each baffle, the other end of the wind shield is fixedly connected with the mounting frame, the wind shield is in an inverted U shape, and the wind shield is made of elastic materials; the bottom of the mounting frame is fixedly connected with a collecting box, the collecting box is communicated with an inner space formed by the baffle plate, the wind shield and the mounting frame, a plurality of blocking plates are fixedly connected in the collecting box, and all the blocking plates are obliquely downward and are staggered; the splash-proof assembly is connected with a protection assembly for preventing the first filter screen from being blocked.

Optionally, the device also comprises an inclined plate; the bottom of the air outlet pipe is fixedly connected with an inclined plate, and the upper surface of the inclined plate is flush with the inlet of the collecting box.

Optionally, the guard assembly includes a support plate and a spring; the left side and the right side of each air outlet pipe are fixedly connected with a supporting plate; the left side bottom and the right side bottom of the baffle are fixedly connected with springs, and each spring is contacted with a corresponding supporting plate; one side of each frame body, which is back to the mounting frame, is provided with an air outlet, and each air outlet is fixedly connected with a second filter screen with the same size.

Optionally, a puncture needle is also included; one side of the second filter screen, which faces the air outlet pipe, is fixedly connected with a plurality of needles which face the rear side.

Optionally, the lancet is provided with a collar.

Compared with the prior art, the invention has the following advantages: the invention solves the problems that the hot air cannot be uniformly covered on the bottom of the paper tube due to the fact that the support is arranged at the bottom of the paper tube, the paper tube dryer generally supplies hot air through the hot air circulation system, and the hot air is blown to a drying area, however, the hot air cannot smoothly reach the bottom of the paper tube due to the shielding of the support, so that the bottom is insufficiently heated, and shrinkage deformation is caused; the left end of the paper tube is clamped by the flexible clip inside the moving block, and then the annular guide rail is started to drive the moving block to rotate, so that the moving block drives the clamped paper tube to rotate together, the bottom surface of the paper tube can rotate with other surfaces to be in contact with hot air, and the paper tube is heated uniformly.

The invention solves the problems that scraps remained in the production process of the paper tube are separated from the surface of the paper tube in the drying process, and the subsequent drying effect of the paper tube is affected after a large amount of scraps are piled up; when the movable block drives the clamped paper tube to rotate and dry, the paper tube scrapes off scraps on the outer surface of the paper tube through friction with the air guide groove, the scraped scraps can fall into the air guide groove, meanwhile, the scraped scraps are blown from the air heater through hot air, and then blown to the inside of the mounting frame along with the blowing of the hot air, and then blown out from the air outlet pipe and collected by the corresponding splash-proof assembly.

The invention solves the problems that the hot air causes disturbance and drift of the scraps when blowing the scraps, the dryer blows the scraps in the paper tube area to the inside of the collecting device through the air flow generated by the fan, however, part of the scraps are carried up under the action of the hot air, and are difficult to fix and thoroughly collect; when the baffle is blown by the hot air of outlet duct spun, the baffle can upwards rotate, can pull the weather shield when the baffle rotates, will stretch the weather shield to lengthen, and the weather shield can block hot-blast, and the hot air of blowing off can see through filter screen one and flow, and the piece that is scraped off by gasbag and air guide groove then can be blown by hot-blast and the adhesion is on a surface of filter screen, when the hot-blast fan stops blowout hot-blast, the baffle can lose hot-blast blowing, reset through baffle elasticity, when the baffle returns to normal position, the piece of adhesion on a surface of filter screen can drop to the collection box downwards because of gravity's reason.

Drawings

FIG. 1 is a schematic diagram of a structure of an anti-deformation paper tube drying apparatus according to the present invention;

FIG. 2 is a schematic view showing a part of the structure of the anti-deformation paper tube drying device disclosed by the invention;

fig. 3 is a schematic view showing a part of a structure of a scraping unit disclosed in the anti-deformation paper tube drying apparatus of the present invention;

FIG. 4 is an exploded view of the mounting bracket and door of the disclosed anti-deformation paper tube drying apparatus of the present invention;

FIG. 5 is a schematic view of the structure of the splash guard disclosed in the present invention;

FIG. 6 is a schematic view of a protective assembly of the anti-deformation paper tube drying apparatus according to the present invention;

fig. 7 is an enlarged view at a of fig. 6.

Wherein the above figures include the following reference numerals: 1-cabin body, 2-air heater, 3-mounting rack, 4-door, 5-frame body, 101-isolation board, 102-arc board, 103-annular guide rail, 104-movable block, 201-motor, 202-gasbag, 203-pump, 204-conduit, 301-baffle, 302-filter screen I, 303-windshield, 304-sloping plate, 305-collecting box, 401-backup pad, 402-spring, 403-felting needle, 3 a-lug, 3 b-outlet pipe, 5 a-outlet, 102 a-air guide groove, 202 a-roughness, 204 a-branch pipe, 305 a-blocking board, 4031-filter screen II, 403 a-bulge loop.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The deformation-preventing paper tube drying device comprises a cabin body 1, a hot air blower 2, a mounting frame 3, an anti-splashing component and a door 4, as shown in figures 1-4; the left side of the cabin body 1 is connected with three air heaters 2 through bolts; the right side of the cabin body 1 is connected with three mounting frames 3 which are distributed up and down through bolts, the odd mounting frames 3 are respectively connected with an anti-splashing component towards the front side of the cabin body 1 from top to bottom, the even mounting frames 3 are respectively connected with an anti-splashing component towards the rear side of the cabin body 1, and the right side of each mounting frame 3 is provided with two convex blocks 3a; the joint of each mounting frame 3 and the splash-proof assembly is provided with an air outlet pipe 3b; the convex blocks 3a on the same mounting frame 3 are connected with a door 4 in a bolt mode;

the device also comprises a separation plate 101, an arc-shaped plate 102, an annular guide rail 103 and a moving block 104; three isolation plates 101 which are distributed up and down are fixedly connected in the cabin body 1, the inside of the cabin body 1 is divided into a plurality of spaces by the plurality of isolation plates 101, and each space is communicated with one hot air blower 2; six arc plates 102 are fixedly connected to each isolation plate 101; six annular guide rails 103 are connected to the left side of each isolation plate 101 through bolts, and each annular guide rail 103 is aligned with the center of the corresponding arc-shaped plate 102; each annular guide rail 103 is slidably connected with a moving block 104, and a ductile clip for fixing the paper tube is arranged inside each moving block 104.

Five air guide grooves 102a are formed in the inner cambered surface of the arc-shaped plate 102, and hot air blown out by the air heater 2 is guided into the bottom of the paper tube through the air guide grooves 102a, so that the problem that the hot air cannot be blown due to the fact that the bottom of the paper tube is attached to the arc-shaped plate 102 is avoided.

The device also comprises a scraping unit; the scraping unit comprises a motor 201, an air bag 202, a pump 203 and a guide pipe 204; the left side of the cabin body 1 is connected with a plurality of motors 201 corresponding to the number of the arc plates 102 through bolts, and the rotating shaft of each motor 201 is aligned with the center of the corresponding arc plate 102; the rotating shaft of each motor 201 penetrates through the left side of the cabin body 1, each motor 201 is fixedly connected with an air bag 202, and the air bags 202 are driven to rotate by the motors 201; a pump 203 is connected to the right side of each door 4 through bolts; the exhaust port of each pump 203 is fixedly connected and communicated with a conduit 204, each conduit 204 is provided with a plurality of branch pipes 204a corresponding to the number of the air bags 202, and each branch pipe 204a is also communicated when being connected with the right end of the corresponding air bag 202.

The air bag 202 is spiral, and the hot air blown out by the air heater 2 is guided to the inside of the paper tube along the spiral channel, so that the hot air is in contact with the inner wall of the paper tube more fully, and the drying effect of the hot air on the inner wall of the paper tube is enhanced.

The air bag 202 is provided with the roughness 202a, and when the motor 201 drives the air bag 202 to rotate, the rough part 202a polishes the inner wall of the paper tube, so that scraps on the inner wall of the paper tube are polished down, and the appearance quality of the paper tube is improved.

The following is the working mode of the above embodiment:

after the cylindrical paper tube is manufactured, the plug pin is pulled out by a worker, then the door 4 is pulled out to the right side along the convex block 3a, after the door 4 is taken down, the paper tube is put into the arc plate 102, at the moment, the air bag 202 is not inflated yet, the paper tube is attached to the inner wall surface of the arc plate 102, then the worker picks up the door 4 and inserts the door along the convex block 3a, at the moment, the branch pipes 204a on the door 4 are connected and communicated with the right ends of the corresponding air bags 202, then the door 4 is locked by the plug pin, then the hot air blower 2 is started to blow hot air into the cabin 1, the paper tube is dried, in the process of drying the paper tube, the bottom surface of the paper tube is blocked by a supporting object, and therefore, the hot air cannot blow the bottom surface of the paper tube, and the paper tube is heated unevenly, so that the paper tube is contracted and deformed, when the worker puts the paper tube into the arc plate 102, the paper tube is continuously pushed to the left side, the paper tube is inserted into the moving block 104, the paper tube is clamped by the left end 103 of the corresponding clamp button inside the moving block 104, then the circular guide rail 104 is started to lock the door 4, the hot air blower 2 is started to blow hot air into the cabin body 1, the paper tube is dried, and the paper tube is heated, and the bottom surface is prevented from being uniformly deformed, and the bottom surface of the paper tube is heated by the hot air, and the paper tube is not uniformly rotates, and the paper tube is deformed due to the fact that the bottom surface is heated by the hot air is heated;

meanwhile, the scraps left in the production process of the paper tube are separated from the surface of the paper tube in the drying process, a large amount of scraps are accumulated to influence the subsequent drying effect of the paper tube, so that when the moving block 104 drives the clamped paper tube to rotate and dry, the scraps on the outer surface of the paper tube are scraped off through friction with the air guide groove 102a, the scraped scraps fall into the air guide groove 102a, meanwhile, the scraped scraps are blown from the left end to the right end of the air guide groove 102a by hot air blown by the hot air blower 2, then the scraps are blown into the mounting frame 3 along with the blowing of the hot air, and then blown out from the air outlet pipe 3b, and are collected by the corresponding anti-splashing assembly, so that the problems that the scraps left in the production process of the paper tube are separated from the surface of the paper tube in the drying process, and the subsequent drying effect of the paper tube is influenced after a large amount of accumulation are avoided;

in the process of drying the inner wall surface of the paper tube, a large amount of hot air flows through the middle of the paper tube, and the hot air in contact with the inner wall surface of the paper tube is less, so that the drying effect is low, when the door 4 is closed, the branch pipe 204a is inserted into the right end of the air bag 202 and is communicated with the inside of the air bag 202, then the pump 203 is started to pump air into the air bag 202, so that the air bag 202 is expanded and stopped when the air is attached to the inner wall surface of the paper tube, when the air flows into the inner wall of the paper tube, the motor 201 drives the spiral air bag 202 to guide the air and scraps to move from left to right, and the direction of the moving block 104 drives the paper shell to move is opposite, so that the hot air flows along the spiral channel between the air bag 202 and the inner wall surface of the paper tube, more hot air is in contact with the inner wall surface of the paper tube, the drying effect of the hot air on the paper tube is enhanced, and the scraps are discharged from the inner wall surface of the paper tube conveniently;

in the paper tube production process, the inner wall surface of the paper tube also has the adhesion of scraps, therefore when the motor 201 drives the corresponding air bag 202 to rotate, the inner wall surface of the paper tube is polished through the rough part 202a, scraps adhered to the inner wall surface of the paper tube are scraped off, meanwhile, the scraped scraps are pushed to the right end through the spiral air bag 202 and matched with hot air, scraps are blown to the inside of the mounting frame 3 and then collected by the corresponding splash-proof assembly, and then blown out from the air outlet pipe 3b, so that the problem that scraps are adhered to the inner wall surface of the paper tube after the paper tube is dried is avoided.

Example 2

On the basis of the embodiment 1, as shown in fig. 1 and fig. 5 to 6, the splash prevention assembly comprises a baffle 301, a first filter screen 302, a wind shield 303, a collecting box 305 and a protection assembly; a frame body 5 is fixedly connected to the side face of each mounting frame 3, and each frame body 5 is communicated with a corresponding air outlet pipe 3b; a baffle 301 is rotatably connected in each frame body 5, one side of each baffle 301 facing the mounting frame 3 is in a groove shape, and the baffle 301 is made of light materials; the bottom of each baffle 301 is fixedly connected with a first filter screen 302; one end of a wind shield 303 is fixedly connected to the upper side of each baffle 301, the other end of the wind shield 303 is fixedly connected with the mounting frame 3, the wind shield 303 is in an inverted U shape, and the wind shield 303 is made of elastic materials; the bottom of the mounting frame 3 is fixedly connected with a collecting box 305, the collecting box 305 is communicated with an inner space formed by the baffle 301, the wind shield 303 and the mounting frame 3, three blocking plates 305a distributed up and down are fixedly connected in the collecting box 305, and all the blocking plates 305a are obliquely downward and are mutually staggered; the splash guard assembly is coupled to a guard assembly for preventing clogging of the first screen 302.

Also included is a swash plate 304; the bottom of the air outlet pipe 3b is fixedly connected with an inclined plate 304, and the upper surface of the inclined plate 304 is flush with the inlet of the collecting box 305.

The following is the working mode of the above embodiment:

when the existing dryer blows the scraps in a drying area to the inside of the collecting device through hot air, the hot air can blow the scraps in the collecting device all the time, so that when the hot air is blown by the hot air, part of the scraps are blown back to the drying area by the hot air, therefore, when the baffle 301 is blown by the hot air sprayed by the air outlet pipe 3b, the baffle 301 can rotate upwards, the baffle 301 rotates and pulls the wind shield 303, the wind shield 303 stretches and lengthens, the wind shield 303 can block the hot air, the blown hot air flows out through the first filter screen 302, the scraps scraped by the air bag 202 and the air guide groove 102a are blown by the hot air and adhered to the surface of the first filter screen 302, when the hot air fan 2 stops blowing out the hot air, the baffle 301 can lose the blowing of the hot air, and is reset by the elasticity of the wind shield 303, and when the baffle 301 returns to the original position, the scraps adhered to the surface of the first filter screen 302 can drop downwards into the collecting box 305 due to gravity, part of the scraps can be blown by the hot air to the upper surface of the air outlet pipe 3b, so that the scraps can drop inside the collecting frame 3, the wind shield 303 is stretched and the residues can be left, the blown off the scraps can drop from the bottom of the air outlet pipe 3b, the hot air can flow through the bottom is blown off the air outlet pipe 3b, the hot air is blown off part is prevented from falling from the surface of the collecting device, and the hot air is blown back to the surface of the collecting device, and the scraps is blown off from the inside the collecting device, and the surface is prevented from falling down from the inside of the collecting device, and the hot air collecting device is blown back to the inside;

part of hot air can be blown in from the opening part of the collecting box 305, so that part of scraps in the collecting box 305 still have the condition of floating, and therefore, the blown scraps are blocked by the blocking plates 305a which are arranged in a staggered manner, so that the problem that part of the hot air can be blown in from the opening part of the collecting box 305, and part of scraps in the collecting box 305 still have the condition of floating is avoided.

Example 3

On the basis of the embodiment 2, as shown in fig. 1 and 5-7, the guard assembly comprises a support plate 401 and a spring 402; a supporting plate 401 is fixedly connected to the left side and the right side of each air outlet pipe 3b; the left bottom and the right bottom of the baffle 301 are fixedly connected with a spring 402, and each spring 402 is contacted with the corresponding supporting plate 401; one side of each frame body 5, which is away from the mounting frame 3, is provided with an air outlet 5a, and each air outlet 5a is fixedly connected with a filter screen II 4031 with the same size.

Also included is a lancet 403; a plurality of needles 403 facing the rear side are fixedly connected to one side of the second filter screen 4031 facing the air outlet pipe 3 b.

The spike 403 is provided with a convex ring 403a, when the spike 403 pierces the first filter screen 302, the spike 403 will push the chips adhered to the first filter screen 302 down, and when the convex ring 403a hits the first filter screen 302, the convex ring 403a will be blocked on the front side of the first filter screen 302, so that the first filter screen 302 vibrates, and the chips adhered to the first filter screen 302 are easier to fall off, so that the problem that the chips adhere to the first filter screen 302 is further avoided.

The following is the working mode of the above embodiment:

when the baffle 301 returns to the original position, the baffle 301 drives the spring 402 to strike the support plate 401 due to gravity, and under the extrusion of the gravity of the baffle 301 to the spring 402, the spring 402 drives the baffle 301 to shake up and down, so that the scraps on the surface of the first filter screen 302 can be shaken off, and the falling speed of the scraps into the collecting box 305 is enhanced;

after the baffle 301 is reset, part of the scraps can be inserted into and clamped in the meshes of the first filter screen 302, and cannot be separated from the meshes of the first filter screen 302, so that the first filter screen 302 is blocked to influence the discharge of hot air;

meanwhile, when the convex ring 403a impacts on the first filter screen 302, the convex ring 403a will be blocked on the front side of the first filter screen 302, so that the first filter screen 302 vibrates, and the scraps adhered to the first filter screen 302 are easier to drop, so that the problem that the scraps are blocked into the meshes of the first filter screen 302 is further avoided.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (10)

1. The anti-deformation paper tube drying device comprises a cabin body (1), a hot air blower (2), a mounting rack (3), an anti-splashing component and a door (4); the left side of the cabin body (1) is fixedly connected with a plurality of air heaters (2); the right side of the cabin body (1) is fixedly connected with a plurality of mounting frames (3), the odd mounting frames (3) are respectively connected with an anti-splashing assembly towards the front side of the cabin body (1) from top to bottom, the even mounting frames (3) are respectively connected with an anti-splashing assembly towards the rear side of the cabin body (1), and the right side of each mounting frame (3) is provided with a plurality of protruding blocks (3 a); the joint of each mounting frame (3) and the splash-proof assembly is provided with an air outlet pipe (3 b) respectively; the convex blocks (3 a) on the same mounting frame (3) are detachably connected with a door (4); the method is characterized in that: the device also comprises a separation plate (101), an arc-shaped plate (102), a ring-shaped guide rail (103) and a moving block (104); the inside of the cabin body (1) is fixedly connected with a plurality of isolation plates (101), the plurality of isolation plates (101) divide the inside of the cabin body (1) into a plurality of spaces, and each space is communicated with one hot air blower (2); each isolation plate (101) is fixedly connected with a plurality of arc plates (102); a plurality of annular guide rails (103) are fixedly connected to the left side of each isolation plate (101), and each annular guide rail (103) is aligned with the center of the corresponding arc plate (102); each annular guide rail (103) is slidably connected with a moving block (104), and a tough clip for fixing the paper tube is arranged inside each moving block (104).

2. The deformation-preventing paper tube drying device according to claim 1, characterized in that: the inner cambered surface of the arc-shaped plate (102) is provided with a plurality of air guide grooves (102 a).

3. A deformation-preventing paper tube drying apparatus as claimed in any one of claims 1 to 2, wherein: the device also comprises a scraping unit; the scraping unit comprises a motor (201), an air bag (202), a pump (203) and a guide pipe (204); the left side of the cabin body (1) is fixedly connected with a plurality of motors (201) corresponding to the number of the arc plates (102), and the rotating shaft of each motor (201) is aligned with the center of the corresponding arc plate (102); the rotating shaft of each motor (201) penetrates through the left side of the cabin body (1), and each motor (201) is fixedly connected with an air bag (202) respectively; the right side of each door (4) is fixedly connected with a pump (203); the exhaust port of each pump (203) is fixedly connected and communicated with a conduit (204), each conduit (204) is provided with a plurality of branch pipes (204 a) corresponding to the number of the air bags (202), and each branch pipe (204 a) is also communicated when being connected with the right end of the corresponding air bag (202).

4. A deformation-preventing paper tube drying apparatus as claimed in claim 3, wherein: the balloon (202) is helical.

5. A deformation-preventing paper tube drying apparatus as claimed in claim 3, wherein: the airbag (202) is provided with a roughened portion (202 a).

6. The deformation-preventing paper tube drying device according to claim 1, characterized in that: the splash-proof assembly comprises a baffle plate (301), a first filter screen (302), a wind shield (303), a collecting box (305) and a protective assembly; a frame body (5) is fixedly connected to the side face of each mounting frame (3), and each frame body (5) is communicated with a corresponding air outlet pipe (3 b); a baffle (301) is rotatably connected in each frame body (5), one side of each baffle (301) facing the mounting frame (3) is in a groove shape, and the baffles (301) are made of light materials; the bottom of each baffle (301) is fixedly connected with a first filter screen (302); one end of a wind shield (303) is fixedly connected to the upper side of each baffle (301), the other end of the wind shield (303) is fixedly connected with the mounting frame (3), the wind shield (303) is in an inverted U shape, and the wind shield (303) is made of elastic materials; the bottom of the mounting frame (3) is fixedly connected with a collecting box (305), the collecting box (305) is communicated with an inner space formed by the baffle plate (301), the wind shield (303) and the mounting frame (3), a plurality of blocking plates (305 a) are fixedly connected in the collecting box (305), and all the blocking plates (305 a) are obliquely downward and are staggered with each other; the splash guard assembly is connected to a guard assembly for preventing clogging of the first screen (302).

7. The deformation-preventing paper tube drying device according to claim 1, characterized in that: the device also comprises a sloping plate (304); the bottom of the air outlet pipe (3 b) is fixedly connected with an inclined plate (304), and the upper surface of the inclined plate (304) is flush with the inlet of the collecting box (305).

8. The deformation-preventing paper tube drying apparatus as claimed in claim 7, wherein: the protection component comprises a supporting plate (401) and a spring (402); the left side and the right side of each air outlet pipe (3 b) are fixedly connected with a supporting plate (401); the left bottom and the right bottom of the baffle plate (301) are fixedly connected with a spring (402), and each spring (402) is contacted with a corresponding supporting plate (401); one side of each frame body (5) back to the mounting frame (3) is provided with an air outlet (5 a), and each air outlet (5 a) is fixedly connected with a filter screen II (4031) with the same size.

9. The deformation-preventing paper tube drying apparatus as claimed in claim 8, wherein: also comprises a puncture needle (403); one side of the second filter screen (4031) facing the air outlet pipe (3 b) is fixedly connected with a plurality of needles (403) facing the rear side.

10. The deformation-preventing paper tube drying apparatus as claimed in claim 9, wherein: the lancet (403) is provided with a collar (403 a).