CN117819256A

CN117819256A - Coating cloth winding device

Info

Publication number: CN117819256A
Application number: CN202310030843.5A
Authority: CN
Inventors: 黄美香
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2024-04-05

Abstract

The invention relates to the technical field of winding devices and discloses a coating cloth winding device which comprises a winding device, wherein the winding device comprises a box body and a pair of rotating holes which are vertically symmetrically formed in one side of the front surface of the box body, a circular arc-shaped rotating groove is formed above each rotating hole, a first underframe and a second underframe are fixedly arranged at the tail end of each rotating shaft, a first deflector rod is arranged at the back surface of each first underframe, a second deflector rod is arranged at one side of the back surface of each second underframe, the tail end of each second deflector rod extends to one side of each first deflector rod, a first cylinder rod is arranged in an inner cavity of each first cylinder, and clamping plates are fixedly arranged at opposite end surfaces of each pair of first cylinder rods.

Description

Coating cloth winding device

Technical Field

The invention relates to the technical field of winding devices, in particular to a coated fabric winding device.

Background

The coated fabric is mainly characterized in that a layer of material with special functions is coated on the basis of the fabric by adopting a special process, so that the special functions of the fabric are added. Therefore, the functional coating fabric is also called as functional coating fabric, and when the coating fabric is produced and manufactured, the produced coating fabric needs to be rolled into bundles through a rolling device, so that the subsequent processing and selling are convenient.

The current coating cloth coiling mechanism is when the rolling, rotate constantly through the wind-up roll and carry out the rolling, accomplish the rolling back at a set of wind-up roll, need through rotating the rotary disk, make reserve wind-up roll rotatory to the front end, cut coating cloth through the cutter afterwards, in order to realize the effect of changing the rolling of incessantly, because coating cloth when being rolled by the wind-up roll, its cloth itself can have certain tension, can take up the phenomenon that the fold appears in the cloth through tension, but in the moment that the cloth cuts off, the tension that exists in its cloth can lead to quick resilience because of not having the pulling power, and then the phenomenon that the fold appears easily to the cloth end that causes the rolling to accomplish easily.

The problems described above are addressed. For this purpose, a coating cloth winding device is proposed.

Disclosure of Invention

The invention aims to provide a coating cloth winding device, after a first winding roller material is wound, a rotating disc rotates anticlockwise at the moment, so that a second winding roller and the first winding roller are alternately positioned, a second air cylinder and a first air cylinder move upwards together, a pair of clamping plates are about to be attached to the surface of the material, and then the second air cylinder moves upwards continuously, so that a first push block pushes a second push block under the condition of moving upwards together, then a first underframe can rotate to one side, the first underframe rotates and then drives a second deflector rod to rotate together through a first deflector rod, and then the pair of clamping plates can actively clamp the cut material to feed to one side, so that tension generated by original winding of the material can be released, and further the phenomenon that the tail end surface of the material is wrinkled during winding can be prevented, and the problem in the background technology is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the coating cloth winding device comprises a winding device, the winding device comprises a box body and a backboard arranged on the front surface of the box body, a rotating disc is arranged on the front surface of the backboard, a pair of rotating holes are formed in the upper side and the lower side of the front surface of the box body symmetrically, a circular arc-shaped rotating groove is formed in the upper side of each rotating hole, a rotating shaft is arranged in an inner cavity of each rotating hole, a pair of first bottom frames and a second bottom frame are fixedly arranged at the tail end of each rotating shaft, a first deflector rod is arranged on the back surface of each first bottom frame, a second deflector rod is arranged on the back surface of each second bottom frame, the tail end of each second deflector rod extends to one side of each first deflector rod, a first spring is arranged between one side of the outer surfaces of the first deflector rods and the second deflector rods in the inner cavity of the rotating groove and the inner cavity wall of the rotating groove, the first bottom frames and the upper bottom surfaces of the second bottom frames are vertically symmetrically arranged in an L-shaped structure, and clamping plates capable of actively clamping the surface of the coating cloth for pushing and discharging are fixedly arranged at the opposite end surfaces of the first cylinder rods.

Further, a third underframe is arranged on one side of the outer surface of the first underframe, a second cylinder is fixedly arranged on the bottom surface of the upper end of the third underframe, a second cylinder rod is arranged at the output end of the inner cavity of the second cylinder, a first pushing block and a second pushing block which are arranged in opposite directions are respectively arranged on the opposite side walls of the second cylinder rod and the first cylinder rod, and a cutter capable of cutting the surface of the coated fabric is fixedly arranged at the top end of the second cylinder rod.

Further, an extension block is arranged on one side of the outer surface of the box body, a gas storage compression box with a hollow inner cavity is fixedly arranged on the front surface of the extension block, a pressurizing pipe is fixedly arranged on the upper end face and the lower end face of the gas storage compression box, and the center of the circle of the tail end of the pressurizing pipe is located at the center of the bottom surface of the clamping plate.

Further, the bottom surface of splint downwardly extending to the pressurized tube inner chamber is provided with first push rod, and the end of first push rod is provided with the second push rod, and the end of second push rod is fixed and is provided with the push pedal.

Further, the inner cavity of the pressurizing pipe is provided with a fixed plate, one side of the outer surface of the fixed plate is penetrated and provided with a first movable rod, one end of the outer surface of the first movable rod is fixedly provided with a first sealing plate, and the outer surface of the first movable rod is sleeved with a second spring.

Further, a base is fixedly arranged on one side of the upper end of the pressurizing pipe, a second moving rod is arranged at the upper end of the base in a penetrating mode to the inner cavity of the pressurizing pipe, and a second sealing plate is fixedly arranged at the tail end of the second moving rod arranged in the inner cavity of the pressurizing pipe.

Further, the outer surface side of gas storage compression case inwards sunken has seted up the arc wall, and the exhaust hole has been run through with the surface of arc wall to outer surface side lower limb of gas storage compression case, and the inner chamber wall of gas storage compression case is provided with the sealing strip, and outer surface side of sealing strip is provided with the rotary rod, and the end of rotary rod is fixed and is provided with first belt pulley.

Further, a rack in an arc-shaped structure is arranged on the bottom surface of the second deflector rod downwards.

Further, a gear capable of being meshed with the rack for rotation is arranged on the back of the inner cavity of the box body, a second belt pulley is fixedly arranged on the front face of the gear, and a belt is sleeved on the outer surfaces of the first belt pulley and the second belt pulley.

Further, the front bilateral symmetry of rotary disk is provided with first wind-up roll and second wind-up roll, and the back of rotary disk is provided with servo motor, and servo motor's upper and lower both ends are provided with the connecting rod relatively, and the end of connecting rod links to each other with the inner chamber back of box.

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

1. according to the coated fabric winding device, after the first winding roller material is wound, the rotating disc rotates anticlockwise, so that the second winding roller and the first winding roller are in alternate positions, then the second air cylinder and the first air cylinder move upwards together, a pair of clamping plates are about to be attached to the surface of the material, then the second air cylinder moves upwards continuously, the first push block pushes the second push block under the condition that the first push block moves upwards together, then the first underframe can rotate to one side, the first underframe rotates and then the first deflector rod drives the second deflector rod to rotate together, the pair of clamping plates can actively clamp the cut material to feed to one side, tension generated by original winding of the material can be relieved, and the phenomenon that the tail end face of the material is wrinkled during winding can be prevented.

2. According to the coated fabric winding device, when the material winding is completed, the clamping plates move downwards and push the push plate through the second push rod and the first push rod, then gas in the inner cavity of the pressurizing pipe is compressed and enters the inner cavity of the gas storage compression box, then when a pair of clamping plates are required to clamp and feed materials again, the rack arranged on the back surface of the second underframe can drive the gear to rotate along with the rotation of the second underframe, the second belt pulley can be driven to rotate after the rotation of the gear, the first belt pulley can be driven to rotate through the belt, the sealing strip can be automatically turned over through the rotary rod after the rotation of the first belt pulley, the gas compressed in the inner cavity of the gas storage compression box can be discharged through the exhaust hole along with the turning-over of the sealing strip, then the gas flow can be blown to the surface of the material after the feeding of the clamping plates, further counteracts the winding tension of the material, and meanwhile the gas flow has a certain smoothing effect on the tail end of the wound material, and wrinkles are prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the case of the present invention;

FIG. 3 is a schematic view of a second cylinder structure according to the present invention;

FIG. 4 is a schematic diagram of the front view of the case of the present invention;

FIG. 5 is a schematic view of the structure of the back side of the case of the present invention, partially in section;

FIG. 6 is a schematic view of a first chassis structure according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 5A according to the present invention;

FIG. 8 is a schematic cross-sectional view of a pressurized tube according to the present invention;

fig. 9 is an enlarged view of the structure of fig. 8B according to the present invention.

In the figure: 1. a winding device; 11. a case; 111. a gear; 112. a second pulley; 113. a belt; 12. a back plate; 121. a rotating disc; 122. a first wind-up roll; 123. a second wind-up roll; 124. a servo motor; 125. a connecting rod; 13. a third chassis; 131. a second cylinder; 132. a second cylinder rod; 133. a cutter; 134. a first push block; 14. a first chassis; 141. a rotation shaft; 142. a first deflector rod; 143. a first cylinder; 144. a first cylinder rod; 145. a second push block; 146. a clamping plate; 15. a rotation hole; 16. a rotary groove; 161. a first spring; 17. an extension block; 18. a gas storage compression box; 181. an arc-shaped groove; 182. an exhaust hole; 183. a pressurizing tube; 1831. a fixing plate; 1832. a first moving lever; 1833. a second spring; 1834. a first sealing plate; 1835. a base; 1836. a second moving lever; 1837. a second sealing plate; 184. a sealing strip; 1841. a rotating rod; 1842. a first pulley; 185. a push plate; 1851. a second push rod; 1852. a first push rod; 19. a second chassis; 191. a second deflector rod; 192. a rack.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

For a further understanding of the present invention, the present invention will be described in detail with reference to the drawings.

Referring to fig. 1-2, the coating cloth winding device of the invention, the winding device 1 comprises a box 11 for supporting winding and a back plate 12 fixedly arranged on the front surface of the box 11, a rotary disc 121 capable of rotating is arranged on the front surface of the back plate 12, a first winding roller 122 and a second winding roller 123 capable of rotating and winding are symmetrically arranged on two sides of the front surface of the rotary disc 121 along the circle center of the rotary disc, a servo motor 124 is arranged on the back surface of the rotary disc 121, connecting rods 125 are oppositely arranged at the upper end and the lower end of the servo motor 124, and the tail ends of the connecting rods 125 are connected with the back surface of an inner cavity of the box 11.

The invention is further described below with reference to examples.

Example 1:

referring to fig. 1-6, a pair of rotating holes 15 are symmetrically formed on one side of the front side of the case 11 along the center of the rotating disc 121, a circular arc-shaped rotating groove 16 is formed on the center of the inner cavity of the rotating hole 15, a rotatable rotating shaft 141 is arranged in the inner cavity of the rotating hole 15, a first chassis 14 and a second chassis 19 are fixedly arranged at the tail end of the rotating shaft 141, a first deflector rod 142 capable of penetrating the inner cavity of the rotating groove 16 is arranged at the back side of the first chassis 14, a second deflector rod 191 capable of penetrating the inner cavity of the rotating groove 16 is arranged at one side of the back side of the second chassis 19, and the tail end of the second deflector rod 191 extends to one side of the first deflector rod 142, so that the first deflector rod 142 can synchronously stir the second deflector rod 191 to rotate together in a rotating state.

A first spring 161 capable of deforming and rebounding is arranged between the outer surface side of the first deflector rod 142 and the outer surface side of the second deflector rod 191 which are positioned in the inner cavity of the rotary groove 16 and the inner cavity wall of the rotary groove 16, so that after the first chassis 14 and the second chassis 19 rotate, the first spring 161 can automatically return. The first chassis 14 and the second chassis 19 are vertically and symmetrically arranged, the bottom surfaces of the upper ends of the first chassis 14 and the second chassis 19 which are in an L-shaped structure are fixedly provided with a first air cylinder 143, the inner cavity of the first air cylinder 143 is provided with a first air cylinder rod 144 capable of moving in a telescopic manner, the opposite end surfaces of the first air cylinder rods 144 are fixedly provided with clamping plates 146 capable of actively clamping the surface of the coating cloth to push and release force, one side of the outer surface of the first chassis 14 is provided with a third chassis 13 which is parallel to the same, the bottom surface of the upper end of the third chassis 13 is fixedly provided with a second air cylinder 131, the output end of the inner cavity of the second air cylinder 131 is provided with a second air cylinder rod 132 capable of moving in a telescopic manner along the inner cavity of the second air cylinder rod 132, the opposite side walls of the second air cylinder rod 132 and the first air cylinder rod 144 are respectively provided with a first push block 134 and a second push block 145 which are arranged in opposite directions, and the top ends of the second air cylinder rod 132 are fixedly provided with cutters 133 capable of cutting the surface of the coating cloth.

The working process comprises the following steps: after the material is wound on the first winding roller 122, the rotating disc 121 rotates anticlockwise, so that the second winding roller 123 and the first winding roller 122 are replaced at alternate positions, then the second air cylinder 131 and the first air cylinder 143 move upwards together, so that the pair of clamping plates 146 are about to be attached to the surface of the material, then the second air cylinder 131 moves upwards continuously, so that the first push block 134 pushes the second push block 145 under the condition of moving upwards together, then the first chassis 14 can rotate to one side, the first chassis 14 rotates and then drives the second shifting rod 191 to rotate together through the first shifting rod 142, the pair of clamping plates 146 can actively clamp the cut material to feed to one side, tension generated by original winding of the material can be removed, and the phenomenon that the tail end surface of the material is wrinkled during winding can be prevented.

Example 2:

referring to fig. 5-9, an extension block 17 which is leveled with the center of the rotary disk 121 is disposed on one side of the outer surface of the case 11, a gas storage compression case 18 with a hollow inner cavity is fixedly disposed on the front surface of the extension block 17, a pressurizing tube 183 communicated with the inner cavity of the gas storage compression case 18 is fixedly disposed on the upper and lower end surfaces of the gas storage compression case 18, the center of the tail end of the pressurizing tube 183 is located at the center of the bottom surface of the clamping plate 146, a first push rod 1852 capable of moving along with the clamping plate 146 is disposed on the inner cavity of the pressurizing tube 183, a rotatable second push rod 1851 is disposed at the tail end of the first push rod 1852, a push plate 185 matched with the inner cavity of the pressurizing tube 183 is fixedly disposed at the tail end of the second push rod 1851, and when the clamping plate 146 is retracted by the first cylinder 143, the push plate 185 can move downward through the first push rod 1852 and the second push rod 1851, so that gas is compressed to the inner cavity of the gas storage compression case 18 to form a certain compressed gas.

The inner cavity of the pressurizing tube 183 is fixedly provided with a fixed plate 1831 along the air inlet direction, one side of the outer surface of the fixed plate 1831 is penetrated with a first moving rod 1832 capable of moving in a telescopic way, one end of the outer surface of the first moving rod 1832 is fixedly provided with a first sealing plate 1834 capable of blocking the penetrating position of the fixed plate 1831, the outer surface of the first moving rod 1832 is sleeved with a second spring 1833, after the first sealing plate 1834 is pushed away by compressed air, then under the rebound of the second spring 1833, the penetrating position of the fixed plate 1831 can be blocked by the first sealing plate 1834, and sealing and air leakage prevention can be achieved, and pressurization is convenient. A base 1835 is fixedly arranged on one side of the upper end of the pressurizing tube 183, a second moving rod 1836 capable of moving in a telescopic manner is arranged at the upper end of the base 1835 penetrating through the inner cavity of the pressurizing tube 183, and a second sealing plate 1837 is fixedly arranged at the tail end of the second moving rod 1836 arranged in the inner cavity of the pressurizing tube 183.

An arc-shaped groove 181 is formed on one side of the outer surface of the gas storage compression box 18 in an inward concave manner, an exhaust hole 182 is formed on the lower edge of one side of the outer surface of the gas storage compression box 18 and the surface of the arc-shaped groove 181 in a penetrating manner, a rotatable sealing strip 184 is arranged on the upper edge of the inner cavity wall of the gas storage compression box 18 in a downward extending manner, a rotating rod 1841 capable of penetrating the outer surface of the gas storage compression box 18 is arranged at the axle center of the upper edge of one side of the outer surface of the sealing strip 184, the penetrating position of the rotating rod 1841 and the gas storage compression box 18 is sealed, a first belt pulley 1842 is fixedly arranged at the tail end of the rotating rod 1841, a rack 192 in an arc-shaped structure is arranged on the bottom surface of the second deflector rod 191 in a downward manner, a gear 111 capable of being meshed and rotating with the rack 192 is arranged on the back of the inner cavity of the box 11, the front of gear 111 is fixed and is provided with second belt pulley 112, but first belt pulley 1842 cup joints synchronous drive's belt 113 with the surface of second belt pulley 112, therefore when a pair of splint 146 centre gripping pushes away the material, rack 192 can drive gear 111 and rotate this moment, can drive second belt pulley 112 through belt 113 after the gear 111 rotates, can make sealing strip 184 rotate the upset along its top edge through rotary rod 1841 after second belt pulley 112 rotates, and then make the gas of gas storage compression case 18 inner chamber compression blow to the coating surface through exhaust hole 182, and then further offset the coating because of the tension that the rolling produced, and the air current can play the effect of smoothing the coating.

The working process comprises the following steps: when the material rolling is completed, when the first air cylinder 143 retracts, the clamping plate 146 moves downwards and then pushes the push plate 185 through the second push rod 1851 and the first push rod 1852, then the gas in the inner cavity of the pressurizing pipe 183 is compressed and enters the inner cavity of the gas storage compression box 18, then when a pair of clamping plates 146 need to clamp and feed materials again, the rack 192 arranged on the back of the second bottom frame 19 can drive the gear 111 to rotate along with the rotation of the second bottom frame 19, the gear 111 can drive the second belt pulley 112 to rotate after rotating, the second belt pulley 112 can drive the first belt pulley 1842 to rotate through the belt 113, the first belt pulley 1842 automatically overturns through the rotary rod 1841 after rotating, the gas compressed in the inner cavity of the gas storage compression box 18 can be discharged through the exhaust hole 182 after the sealing strip 184 overturns, then the gas flow can be blown to the surface of the material after the feeding of the clamping plate 146, further counteracts the rolling tension of the material, and meanwhile the gas flow plays a certain smooth effect on the tail end of the rolled material, and wrinkles are prevented.

To sum up: in the coated fabric winding device of the invention, after the material of the first winding roller 122 is wound, the rotating disc 121 rotates anticlockwise at this moment, so that the second winding roller 123 and the first winding roller 122 are in alternate positions, then the second air cylinder 131 and the first air cylinder 143 move upwards together, so that a pair of clamping plates 146 are about to be attached to the surface of the material, then the second air cylinder 131 moves upwards continuously, so that the first push block 134 pushes the second push block 145 under the condition of moving upwards together, then the first underframe 14 can rotate to one side, the first underframe 14 rotates and then drives the second deflector rod 191 to rotate together through the first deflector rod 142, so that the pair of clamping plates 146 can actively clamp and feed the cut material to one side, further the tension generated by the original winding of the material can be released, further the phenomenon that the end face of the tail end of the material is wrinkled during winding can be prevented, when the material is rolled up, the first air cylinder 143 retracts, the clamping plate 146 moves downwards, the pushing plate 185 is pushed by the second pushing rod 1851 and the first pushing rod 1852, then the gas in the inner cavity of the pressurizing pipe 183 is compressed into the inner cavity of the gas storage compression box 18, then when the clamping feeding is needed again by the pair of clamping plates 146, the rack 192 arranged on the back of the second bottom frame 19 can drive the gear 111 to rotate along with the rotation of the second bottom frame 19, the gear 111 can drive the second belt pulley 112 to rotate after rotating, the second belt pulley 112 can drive the first belt pulley 1842 to rotate through the belt 113, the sealing strip 184 is automatically turned through the rotating rod 1841 after the first belt pulley 1842 rotates, the gas compressed in the inner cavity of the gas storage compression box 18 can be discharged through the exhaust hole 182 after the sealing strip 184 is turned open, then the gas flow can be blown to the surface of the material after the feeding of the clamping plate 146 is completed, further offset the rolling tension of material, the air current plays certain effect of smoothing to the end of rolling material simultaneously, prevents to appear the fold.

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

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Coating cloth coiling mechanism, including coiling mechanism (1), its characterized in that: the winding device (1) comprises a box body (11) and a backboard (12) arranged on the front surface of the box body (11), a rotary disc (121) is arranged on the front surface of the backboard (12), a pair of rotary holes (15) are formed in the upper side and the lower side of the front surface of the box body (11) symmetrically, a rotary groove (16) with an arc-shaped structure is formed above the rotary holes (15), a rotary shaft (141) is arranged in an inner cavity of the rotary holes (15), a first underframe (14) and a second underframe (19) are fixedly arranged at the tail end of the rotary shaft (141), a first deflector rod (142) is arranged on the back surface of the first underframe (14), a second deflector rod (191) is arranged on the back surface of the second underframe (19), the tail end of the second deflector rod (191) extends to one side of the first deflector rod (142), a first spring (161) is arranged between the first deflector rod (142) in the inner cavity of the rotary groove (16) and the inner cavity wall of the rotary groove (16), a first underframe (14) and a first cylinder (143) with a first cylinder (144) is arranged on the first underframe (19) in a symmetrical structure, clamping plates (146) capable of actively clamping the surface of the coating cloth to push and release force are fixedly arranged at the opposite end surfaces of the pair of first cylinder rods (144).

2. The coated fabric winding device of claim 1, wherein: the novel coating cloth cutting machine is characterized in that a third underframe (13) is arranged on one side of the outer surface of the first underframe (14), a second cylinder (131) is fixedly arranged on the bottom surface of the upper end of the third underframe (13), a second cylinder rod (132) is arranged at the output end of an inner cavity of the second cylinder (131), a first pushing block (134) and a second pushing block (145) which are arranged in opposite directions are respectively arranged on opposite side walls of the second cylinder rod (132) and the opposite side walls of the first cylinder rod (144), and a cutter (133) capable of cutting the surface of the coating cloth is fixedly arranged at the top end of the second cylinder rod (132).

3. The coated fabric take-up device of claim 2, wherein: an extension block (17) is arranged on one side of the outer surface of the box body (11), a gas storage compression box (18) with a hollow inner cavity is fixedly arranged on the front surface of the extension block (17), a pressurizing pipe (183) is fixedly arranged on the upper end face and the lower end face of the gas storage compression box (18), and the center of the circle of the tail end of the pressurizing pipe (183) is located at the center of the bottom surface of the clamping plate (146).

4. A coated fabric wind-up device according to claim 3, wherein: the bottom surface downwardly extending to pressurization pipe (183) inner chamber of splint (146) is provided with first push rod (1852), and the end of first push rod (1852) is provided with second push rod (1851), and the end of second push rod (1851) is fixed and is provided with push pedal (185).

5. The coated fabric wind-up device of claim 4, wherein: the inner cavity of the pressurizing pipe (183) is provided with a fixed plate (1831), one side of the outer surface of the fixed plate (1831) is penetrated and provided with a first moving rod (1832), one end of the outer surface of the first moving rod (1832) is fixedly provided with a first sealing plate (1834), and the outer surface of the first moving rod (1832) is sheathed with a second spring (1833).

6. The coated fabric wind-up device of claim 5, wherein: a base (1835) is fixedly arranged on one side of the upper end of the pressurizing pipe (183), a second moving rod (1836) is arranged at the upper end of the base (1835) penetrating through the inner cavity of the pressurizing pipe (183), and a second sealing plate (1837) is fixedly arranged at the tail end of the second moving rod (1836) arranged in the inner cavity of the pressurizing pipe (183).

7. The coated fabric wind-up device of claim 6, wherein: the inner cavity wall of the gas storage compression box (18) is provided with a sealing strip (184), one side of the outer surface of the sealing strip (184) is provided with a rotating rod (1841), and the tail end of the rotating rod (1841) is fixedly provided with a first belt pulley (1842).

8. The coated fabric wind-up device of claim 7, wherein: the bottom surface of second driving lever (191) is provided with rack (192) that are arc-shaped structure downwards.

9. The coated fabric wind-up device of claim 8, wherein: the back of the inner cavity of the box body (11) is provided with a gear (111) capable of being meshed with the rack (192) for rotation, the front of the gear (111) is fixedly provided with a second belt pulley (112), and the outer surfaces of the first belt pulley (1842) and the second belt pulley (112) are sleeved with a belt (113).

10. The coated fabric wind-up device of claim 9, wherein: the front bilateral symmetry of rotary disk (121) is provided with first wind-up roll (122) and second wind-up roll (123), and the back of rotary disk (121) is provided with servo motor (124), and the upper and lower both ends of servo motor (124) are provided with connecting rod (125) relatively, and the end of connecting rod (125) links to each other with the inner chamber back of box (11).