CN116619731A - Winding forming equipment for Kela pipe and implementation method thereof - Google Patents

Abstract

The invention discloses a winding forming device of a Kela pipe and an implementation method thereof, and belongs to the technical field of Kela pipe winding. The winding and forming equipment for the Kela pipe comprises a placing base, wherein a winding pipe body is arranged on the placing base, and rotary driving assemblies are arranged at two ends of the placing base. The invention solves the problems that the suitability is low because the driving interval can not be adjusted according to the long distance of the pipe body in the prior art, and the demoulding is difficult because the internal winding pipe can not be contracted after the pipe body is formed; the invention can adjust according to the length of the winding tube body to realize the winding driving of the winding tube body with multiple sizes, and the split ring plate retracts to thoroughly separate the winding tube body from the formed Kraft pipe, thereby facilitating the quick demoulding of the formed Kraft pipe and increasing the convenience of taking out.

Description

Winding forming equipment for Kela pipe and implementation method thereof

Technical Field

The invention relates to the technical field of winding of a Kela pipe, in particular to a winding forming device of the Kela pipe and an implementation method thereof.

Background

The wall pipe is a special structure wall pipe with higher external pressure resistance and is manufactured by taking high-density polyethylene resin as a main raw material and adopting a hot winding poplar type process and taking a polypropylene (PP) single-wall corrugated pipe as a supporting structure, and the Clar pipe product can be divided into PR, OP, SQ, VW four series.

Chinese patent with publication number CN210362453U discloses a clara pipe winding former, this patent is provided with the stirring bucket, the stirring bucket can be with the required material stirring of preparation clara pipe even, the in-process of making can not take place to precipitate, the quality of clara pipe has been guaranteed, the feed inlet of stirring bucket is provided with the filter vat, the filter vat can filter out the impurity in the material, the mounting means of filter vat is simple, convenient to detach washs it, be provided with air cooling device, can carry out forced air cooling to the clara pipe that makes, cooling rate is faster, thereby the efficiency of manufacturing clara pipe has been improved.

The clara pipe winding and forming in the patent cannot adjust the driving interval according to the long distance of the pipe body in the actual use process, so that the adaptability is low, the internal winding pipe cannot shrink after the pipe body is formed, and the demoulding is difficult; secondly, the existing winding device cannot conduct material and wind rapidly, and influences the winding efficiency, so that the existing requirements are not met, and a winding forming device of a Kela tube and an implementation method thereof are provided.

Disclosure of Invention

The invention aims to provide winding forming equipment and an implementation method thereof for a clara pipe, which can be used for adjusting the length of the winding pipe body to realize winding driving of the winding pipe body with multiple sizes, and a split ring plate is retracted to thoroughly separate the winding pipe body from a formed clara pipe, so that the formed clara pipe is convenient to rapidly demould, the convenience in taking out is improved, an external chuck and the side end face of a fixed ring plate are clamped, the driving efficiency is improved, the winding pipe body is effectively driven to rotate, winding forming of the clara pipe is realized, a die body is pressed on the surface of the winding pipe body by a material pressing roller body, the winding smoothness of the die body is improved, the winding efficiency is improved, the clamping rings at two sides are used for limiting, the displacement of the clara pipe is prevented, the winding uniformity of the clara pipe is ensured, and the problems in the background technology are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the winding and forming equipment for the Kela pipe comprises a placing base, wherein a winding pipe body is arranged on the placing base, rotary driving assemblies are arranged at two ends of the placing base, and winding assemblies are connected with side ends of the placing base;

the winding assembly comprises a film pasting assembly, a heating assembly, a winding assembly and a moving assembly, wherein the film pasting assembly, the heating assembly and the winding assembly are all arranged on the moving assembly, and the film pasting assembly, the heating assembly and the winding assembly are arranged side by side and are movably attached to the outer surface of the winding tube body.

Preferably, the supporting seats are respectively installed on two sides of the upper end of the placement base, the arc placement plates are connected above the two supporting seats, the winding pipe body is placed above the arc placement plates, the side connection motor is installed at one end of the supporting seat, the output end of the side connection motor is connected with the movable screw rod, the side end of the movable screw rod is provided with the guide rod, the movable screw rod and the guide rod are installed between the two supporting seats, the movable plate is sleeved on the movable screw rod and the guide rod, and the rotary driving assembly is fixed on the movable plate.

Preferably, the winding tube body is formed by splicing eight split ring plates, two ends of each split ring plate are respectively connected with a fixed ring plate, and the center of the winding tube body is provided with an adjusting assembly.

Preferably, the adjusting part comprises an inner connecting rod, an air connecting groove, an external air pipe and a telescopic inner rod, wherein two ends of the inner connecting rod are respectively fixed on the fixed annular plate, the air connecting groove is formed in the inner connecting rod, one section of the inner connecting rod is connected with an air transmission pipeline of the air pump, the external air pipe is installed on the outer annular wall of the inner connecting rod, the telescopic groove is formed in the inner part of the external air pipe, the telescopic inner rod is inserted into the telescopic groove, the bottom end of the telescopic inner rod is attached to the inner wall of the telescopic groove through a piston, the bottom end of the external air pipe is connected with a split connecting pipe communicated with the air connecting groove, an electromagnetic valve is installed on the split connecting pipe, the external air pipe and the telescopic inner rod are all arranged on the outer surface of the inner connecting rod in an annular mode, and the upper end of the telescopic inner rod is connected with the inner wall of the split annular plate.

Preferably, the rotary driving assembly comprises an arc-shaped fixing plate, a left driving roll shaft, a right driving roll shaft, a side connection support and driving motors, wherein the arc-shaped fixing plate is fixed on the moving plate, the side connection support is respectively fixed on two sides of the upper end of the arc-shaped fixing plate, the driving motors are fixed at the side ends of the side connection support, the left driving roll shaft and the right driving roll shaft are respectively sleeved on output rods of the two driving motors, the outer side walls of the left driving roll shaft and the right driving roll shaft are attached to the outer side wall of the winding tube body, one ends of the left driving roll shaft and the right driving roll shaft are provided with an external chuck, and the external chuck is clamped with the side end face of the winding tube body.

Preferably, the film pasting component comprises a supporting plate, a pressing roller body, a guiding roller body, a fixing rod and a raw material roller body, wherein the pressing roller body is arranged below the supporting plate through a shaft rod, the guiding roller body is arranged at the upper end of the supporting plate through the shaft rod, the supporting plate is fixed on the fixing rod, the bottom end of the fixing rod is connected with the moving component, and the raw material roller body is arranged at the rear of the fixing rod through the shaft rod.

Preferably, the heating element includes installing support, spray gun head, gas transmission pipeline and arc mounting panel, and the one end of installing support is fixed with the arc mounting panel, installs three spray gun head on the arc mounting panel, and spray gun head one end is connected with the gas transmission pipeline, and the gas transmission pipeline inserts combustion gas, and the installing support bottom end is fixed on moving assembly.

Preferably, the winding assembly comprises a guide sleeve, a discharge plate, a pressing ring, an adjusting bracket and an adjusting motor, wherein the upper end of the guide sleeve is connected with the discharge plate, a clara tube is sleeved in the guide sleeve, the two ends of the discharge plate are provided with the adjusting bracket, the adjusting bracket is arranged on the discharge plate through the output end of the adjusting motor, the pressing ring is arranged on the adjusting bracket, the two ends of the pressing ring are provided with clamping rings, and the surface of the pressing ring is provided with an arc-shaped groove.

Preferably, the movable assembly comprises an electric sliding seat, sliding grooves, limiting blocks and limiting grooves, wherein corresponding sliding grooves are formed in a placing base below the electric sliding seat, the limiting grooves are formed in two sides of the placing base, and the limiting blocks corresponding to the limiting grooves are arranged on two sides below the electric sliding seat.

The invention provides another technical scheme that: a method of implementing a coil forming apparatus for a clara tube, comprising the steps of:

step one: placing the winding tube body on an arc-shaped placing plate, and driving a left driving roll shaft and a right driving roll shaft to rotate by a driving motor, wherein the left driving roll shaft and the right driving roll shaft drive the winding tube body to rotate;

step two: when the winding tube body rotates, the spray gun heads spray fire to heat the surface of the winding tube body, the film body on the raw material roller body moves while heating, passes through the material guiding roller body, is guided by the supporting plate, and is pressed and attached on the surface of the winding tube body by the material pressing roller body;

step three: and the material guide sleeve is internally penetrated with a clar pipe, the clar pipe penetrates out and is guided by the discharge plate, and the clar pipe is pressed on the winding pipe body by the material pressing ring to realize the winding of the clar pipe.

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

1. according to the invention, the movable screw rod and the guide rod are sleeved with the movable plate, the rotary driving assembly is fixed on the movable plate, and the side motor drives the movable screw rod to rotate, so that the movable plate is driven to move, the distance between the rotary driving assemblies is adjusted, and the winding driving of the multi-size winding pipe body can be realized according to the length of the winding pipe body.

2. The upper end of the telescopic inner rod is connected with the inner wall of the split ring plate, after the clary pipe is wound and formed, the air pump pumps air into the air receiving groove through the air transmission pipeline, and the electromagnetic valve is controlled to be opened in a staggered mode, so that the staggered external air pipe is communicated with the air receiving groove, the telescopic inner rod in the external air pipe is moved to retract, the staggered four split ring plates are driven to retract and are demoulded from the inner wall of the formed clary pipe, the rest four split ring plates are slightly retracted, the winding pipe body is thoroughly separated from the formed clary pipe, the formed clary pipe is convenient to demould quickly, and the convenience in taking out is improved.

3. According to the invention, one ends of the left driving roll shaft and the right driving roll shaft are arranged on the external chuck, the external chuck is clamped with the side end surface of the winding tube body, the winding tube body is placed on the arc-shaped placing plate, the driving motor drives the left driving roll shaft and the right driving roll shaft to rotate, the left driving roll shaft and the right driving roll shaft drive the winding tube body to rotate, the external chuck is clamped with the side end surface of the fixed ring plate, the driving efficiency is improved, the winding tube body is effectively driven to rotate, and the winding forming of the Clar tube is realized.

4. According to the invention, the die body on the raw material roller body is guided by the guide roller body, then the die body is spread by the supporting plate and is attached to the outer surface of the winding pipe body, and finally the die body is pressed on the surface of the winding pipe body by the pressing roller body, so that the winding smoothness of the die body is improved, and the winding efficiency is improved.

5. According to the invention, the spray gun heads are connected with combustion gas through the gas pipeline to perform flame spraying combustion, the surface of the winding pipe body is heated, the die body and the Clar pipe which are convenient for rear winding can be in hot melting lamination on the surface of the winding pipe body, so that hot melting rapid forming is realized, and the three spray gun heads are placed on the surface of the winding pipe body in an arc shape, so that the combustion is more uniform, and the heated uniformity is ensured.

6. According to the invention, the material guide sleeve is used for carding the clary pipe, so that the coiled clary pipe is prevented from being distorted, the discharge plate is used for guiding the carded clary pipe, the arc-shaped groove at the center of the material pressing ring is used for pressing the clary pipe, and the clamping rings at the two sides are used for limiting, so that the displacement of the clary pipe is prevented, and the coiling uniformity of the clary pipe is ensured.

Drawings

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

FIG. 2 is a schematic view of a placement base structure according to the present invention;

FIG. 3 is a schematic view of a coiled tubing structure according to the present invention;

FIG. 4 is a schematic view of an adjusting assembly according to the present invention;

FIG. 5 is an enlarged view of the invention at A of FIG. 2;

FIG. 6 is a schematic view of a winding assembly according to the present invention;

FIG. 7 is a schematic view of a film-sticking assembly according to the present invention;

FIG. 8 is a schematic view of a heating assembly according to the present invention;

FIG. 9 is a schematic view of a winding assembly according to the present invention;

fig. 10 is a schematic diagram of a moving assembly according to the present invention.

In the figure: 1. placing a base; 11. winding a tube body; 111. a split ring plate; 112. a fixed ring plate; 12. a support base; 121. a motor is connected in a side way; 122. moving the screw rod; 123. a guide rod; 124. a moving plate; 13. an arc-shaped placing plate; 2. a rotary drive assembly; 21. an arc-shaped fixing plate; 22. a left driving roll shaft; 23. right driving roll shaft; 231. an external chuck; 24. a side connection bracket; 25. a driving motor; 3. a winding assembly; 31. a film pasting component; 311. a support plate; 312. a pressing roller body; 313. a material guiding roller body; 314. a fixed rod; 315. a raw material roller body; 32. a heating assembly; 321. a mounting bracket; 322. a lance head; 323. a gas line; 324. an arc-shaped mounting plate; 33. a winding assembly; 331. a guide sleeve; 332. a discharge plate; 333. a material pressing ring; 334. adjusting the bracket; 335. adjusting a motor; 34. a moving assembly; 341. an electric slide; 342. a chute; 343. a limiting block; 344. a limit groove; 4. an adjustment assembly; 41. an inner connecting rod; 42. an air receiving groove; 43. externally connected air pipes; 44. and (5) telescoping the inner rod.

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.

In order to solve the problem that the existing driving space cannot be adjusted according to the long distance of the pipe body, so that the adaptability is low, the inner winding pipe cannot be contracted after the pipe body is formed, so that the demoulding is difficult, please refer to fig. 1-3, the embodiment provides the following technical scheme:

the winding forming equipment of the Kela pipe comprises a placing base 1, wherein a winding pipe body 11 is arranged on the placing base 1, two ends of the placing base 1 are provided with rotary driving assemblies 2, and the side ends of the placing base 1 are connected with winding assemblies 3; the supporting seats 12 are respectively installed on two sides of the upper end of the placement base 1, the arc placement plates 13 are connected above the two supporting seats 12, the winding pipe body 11 is placed above the arc placement plates 13, the side connection motor 121 is installed at one end of the supporting seat 12, the moving screw rod 122 is connected to the output end of the side connection motor 121, the side end of the moving screw rod 122 is provided with the guide rod 123, the moving screw rod 122 and the guide rod 123 are installed between the two supporting seats 12, the moving screw rod 122 and the guide rod 123 are sleeved with the moving plate 124, the rotary driving assembly 2 is fixed on the moving plate 124, the side connection motor 121 drives the moving screw rod 122 to rotate, the moving plate 124 is driven to move, the distance between the rotary driving assemblies 2 is adjusted, and the winding pipe body 11 can be adjusted according to the length of the winding pipe body 11, so that winding driving of multiple sizes is realized.

The winding tube body 11 is a circular tube body formed by splicing eight split ring plates 111, two ends of the split ring plates 111 are respectively connected with a fixed ring plate 112, the center of the winding tube body 11 is provided with an adjusting assembly 4, the split ring plates 111 can be respectively adjusted through the adjusting assembly 4, and two ends of the split ring plates are provided with the fixed ring plates 112 for linkage rotation, so that the whole winding tube body 11 can be driven to rotate.

Referring to fig. 4, the adjusting assembly 4 includes an inner connecting rod 41, an air connecting groove 42, an external air pipe 43 and a telescopic inner rod 44, two ends of the inner connecting rod 41 are respectively fixed on a fixed annular plate 112, the air connecting groove 42 is formed in the inner connecting rod 41, one section of the inner connecting rod 41 is connected with an air pipe of an air pump, the external air pipe 43 is mounted on the outer annular wall of the inner connecting rod 41, the telescopic groove is formed in the external air pipe 43, the telescopic inner rod 44 is inserted in the telescopic groove, the bottom end of the telescopic inner rod 44 is attached to the inner wall of the telescopic groove through a piston, the bottom end of the external air pipe 43 is connected with a branch connecting pipe communicated with the air connecting groove 42, an electromagnetic valve is mounted on the branch connecting pipe, the external air pipe 43 and the telescopic inner rod 44 are respectively arranged on eight branch connecting pipes, the upper ends of the telescopic inner rod 44 are connected with the inner wall of the split annular plate 111, after the clara pipe is wound and formed, the air pump is used for conducting air suction through the air pipe to the air connecting groove 42, the staggered external air pipe 43 and the telescopic inner connecting pipe 42 is communicated with the air connecting groove 42, accordingly, the clara pipe is retracted from the inner wall of the split annular plate 111 after the clara pipe is slightly retracted, the clara pipe is removed from the split annular plate is formed, the clara pipe is conveniently, the clara pipe is shaped, and the clara pipe is retracted from the annular plate is shaped conveniently, and the clara pipe is shaped.

Referring to fig. 5, the rotary driving assembly 2 includes an arc-shaped fixing plate 21, a left driving roller 22, a right driving roller 23, a lateral support 24 and a driving motor 25, wherein the arc-shaped fixing plate 21 is fixed on the moving plate 124, the lateral supports 24 are respectively fixed on two sides of the upper end of the arc-shaped fixing plate 21, the driving motors 25 are fixed on the lateral ends of the lateral supports 24, the left driving roller 22 and the right driving roller 23 are respectively sleeved on output rods of the two driving motors 25, the outer side walls of the left driving roller 22 and the right driving roller 23 are attached to the outer side wall of the winding tube 11, one ends of the left driving roller 22 and the right driving roller 23 are provided with an external chuck 231, the external chuck 231 is clamped with the lateral end surface of the winding tube 11, the winding tube 11 is placed on the arc-shaped placing plate 13, the driving motor 25 drives the left driving roller 22 and the right driving roller 23 to rotate, the external chuck 231 is clamped with the lateral end surface of the fixing ring plate 112, driving efficiency is improved, the winding tube 11 is effectively driven to rotate, and the winding tube 11 is formed.

In order to solve the problem that the existing driving space cannot be adjusted according to the long distance of the pipe body, so that the adaptability is low, the inner winding pipe cannot be contracted after the pipe body is formed, so that the demoulding is difficult, please refer to fig. 6, the following technical scheme is provided in this embodiment:

winding subassembly 3 includes pad pasting subassembly 31, heating element 32, winding subassembly 33 and remove subassembly 34, pad pasting subassembly 31, heating element 32 and winding subassembly 33 all establish on removing subassembly 34, pad pasting subassembly 31, heating element 32 and winding subassembly 33 set up side by side, and all laminate with winding body 11 surface activity, pad pasting subassembly 31 is with the basement membrane roll-up at winding body 11 surface, heating element 32 heats winding body 11 surface, realize die body and clara pipe at the rear and take shape, remove subassembly 34 and drive whole winding subassembly 3 and remove, realize quick winding.

Referring to fig. 7, the film pasting component 31 includes a supporting plate 311, a pressing roller 312, a guiding roller 313, a fixing rod 314 and a raw material roller 315, the pressing roller 312 is installed below the supporting plate 311 through a shaft rod, the guiding roller 313 is installed at the upper end of the supporting plate 311 through a shaft rod, the supporting plate 311 is fixed on the fixing rod 314, the bottom end of the fixing rod 314 is connected with the moving component 34, the raw material roller 315 is installed at the rear of the fixing rod 314 through a shaft rod, a die body on the raw material roller 315 is firstly guided by the guiding roller 313, then the die body is spread by the supporting plate 311 and attached to the outer surface of the winding pipe 11, finally the die body is pressed on the surface of the winding pipe 11 through the pressing roller 312, the winding flatness of the die body is improved, and the winding efficiency is improved.

Referring to fig. 8, the heating assembly 32 includes a mounting bracket 321, a spray gun head 322, a gas pipeline 323 and an arc mounting plate 324, one end of the mounting bracket 321 is fixed with the arc mounting plate 324, three spray gun heads 322 are mounted on the arc mounting plate 324, one end of the spray gun head 322 is connected with the gas pipeline 323, the gas pipeline 323 is connected with combustion gas, the bottom end of the mounting bracket 321 is fixed on the moving assembly 34, the spray gun head 322 performs flame spraying combustion through the combustion gas connected with the gas pipeline 323 to heat the surface of the winding tube 11, a die body and a carat tube which are convenient for rear winding can be attached to the surface of the winding tube 11 in a hot melting manner, hot melting rapid forming is realized, and the three spray gun heads 322 are placed on the surface of the winding tube 11 in an arc manner, so that combustion is more uniform, and heating uniformity is ensured.

Referring to fig. 9, the winding assembly 33 includes a guide sleeve 331, a discharge plate 332, a pressing ring 333, an adjusting bracket 334 and an adjusting motor 335, wherein the upper end of the guide sleeve 331 is connected with the discharge plate 332, a clara tube is sleeved in the guide sleeve 331, the adjusting brackets 334 are arranged at two ends of the discharge plate 332, the adjusting brackets 334 are arranged on the discharge plate 332 through the output ends of the adjusting motor 335, the pressing ring 333 is arranged on the adjusting brackets 334, clamping rings are arranged at two ends of the pressing ring 333, arc grooves are formed in the surfaces of the pressing ring 333, the guide sleeve 331 combs the clara tube, the clara tube is prevented from being distorted, the arc grooves at the center of the pressing ring 333 guide the carded clara tube, and the clamping rings at two sides are used for limiting the clara tube to prevent the clara tube from moving and ensure the winding uniformity of the clara tube.

Referring to fig. 10, the moving assembly 34 includes an electric sliding seat 341, sliding grooves 342, limiting blocks 343 and limiting grooves 344, the placement base 1 below the electric sliding seat 341 is provided with corresponding sliding grooves 342, two sides of the placement base 1 are provided with limiting grooves 344, and two sides below the electric sliding seat 341 are provided with limiting blocks 343 corresponding to the limiting grooves 344.

In order to better demonstrate the winding process of the clara tube, the embodiment provides a winding forming method of the clara tube, which comprises the following steps:

placing the winding tube body 11 on the arc-shaped placing plate 13, and driving the left driving roll shaft 22 and the right driving roll shaft 23 to rotate by the driving motor 25, wherein the left driving roll shaft 22 and the right driving roll shaft 23 drive the winding tube body 11 to rotate; when the winding pipe body 11 rotates, the plurality of spray gun heads 322 spray fire to heat the surface of the winding pipe body 11, the film body on the raw material roller body 315 moves while heating, passes through the material guiding roller body 313, is guided by the supporting plate 311, and is pressed and attached on the surface of the winding pipe body 11 by the material pressing roller body 312; and the clara tube is penetrated and arranged in the material guide sleeve 331, the clara tube penetrates out and is guided by the discharging plate 332, and the clara tube is pressed and placed on the winding tube body 11 by the pressing ring 333, so that the clara tube is wound.

Working principle: when the winding forming equipment of the Kela pipe is used, according to fig. 1 and 2, the side motor 121 drives the movable screw rod 122 to rotate, thereby driving the movable plate 124 to move, the distance between the rotary driving components 2 is adjusted, according to fig. 3, the split ring plates 111 can be respectively adjusted through the adjusting components 4, and the two ends of the split ring plates are provided with the fixed ring plates 112 for linkage rotation, so that the whole winding pipe 11 can be driven to rotate, according to fig. 4, after the Kela pipe is wound and formed, the air pump is used for exhausting air in the air receiving groove 42 through the air pipe, the electromagnetic valve is controlled to be opened in a staggered manner, the staggered external air pipe 43 is communicated with the air receiving groove 42, thereby the telescopic inner rod 44 in the external air pipe 43 is moved to retract, the staggered four split ring plates 111 are driven to retract, the inner wall of the formed Kela pipe is demolded, the rest four split ring plates 111 are slightly retracted, the winding pipe 11 and the formed Kela pipe are thoroughly separated, the film pasting component 31 is used for winding the bottom film on the surface of the winding pipe 11, the heating component 32 heats the surface of the winding pipe 11, and the whole winding component 34 drives the whole winding component 3 to move.

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 (10)

1. The utility model provides a winding former of kla pipe, includes places base (1), its characterized in that, place and be provided with winding body (11) on base (1), the both ends of placing base (1) are provided with rotary drive subassembly (2), and the side of placing base (1) is connected with winding subassembly (3), winding subassembly (3) are including pad pasting subassembly (31), heating element (32), winding subassembly (33) and remove subassembly (34), and pad pasting subassembly (31), heating element (32) and winding subassembly (33) all establish on removing subassembly (34), and pad pasting subassembly (31), heating element (32) and winding subassembly (33) set up side by side, and all laminate with winding body (11) surface activity.

2. The winding and forming apparatus of a clara tube according to claim 1, wherein: support base (12) are installed respectively to the upper end both sides of placing base (1), arc placing plate (13) are connected with to two support base (12) tops, winding body (11) have been placed to arc placing plate (13) top, side joint motor (121) are installed to support base (12) one end, the output of side joint motor (121) is connected with movable screw (122), the side of movable screw (122) is established and is being had guide bar (123), movable screw (122) and guide bar (123) are installed between two support base (12), movable screw (122) and guide bar (123) are gone up to cup joint movable plate (124), rotary driving assembly (2) are fixed on movable plate (124).

3. A winding and shaping apparatus for a clara tube according to claim 2, wherein: the winding pipe body (11) is formed by splicing eight split ring plates (111) to form a circular pipe body, two ends of each split ring plate (111) are respectively connected with a fixed ring plate (112), and the center of the winding pipe body (11) is provided with an adjusting component (4).

4. A winding and shaping apparatus for a clara tube according to claim 3, wherein: the adjusting component (4) comprises an inner connecting rod (41), an air receiving groove (42), an external air pipe (43) and a telescopic inner rod (44), wherein two ends of the inner connecting rod (41) are respectively fixed on a fixed annular plate (112), the air receiving groove (42) is formed in the inner connecting rod (41), one section of the inner connecting rod (41) is connected with an air transmission pipeline of an air pump, the external air pipe (43) is mounted on the outer annular wall of the inner connecting rod (41), the telescopic groove is formed in the inner part of the external air pipe (43), the telescopic inner rod (44) is inserted into the telescopic groove, the bottom end of the telescopic inner rod (44) is attached to the inner wall of the telescopic groove through a piston, the bottom end of the external air pipe (43) is connected with a tapping pipe communicated with the air receiving groove (42), an electromagnetic valve is mounted on the tapping pipe, the outer connecting pipe (43) and the telescopic inner rod (44) are all arranged on eight parts, the outer surface of the inner connecting rod (41) is mounted in an annular mode, and the upper end of the telescopic inner rod (44) is connected with the inner wall of the split annular plate (111).

5. The winding and forming apparatus of a clara tube according to claim 4, wherein: the rotary driving assembly (2) comprises an arc-shaped fixing plate (21), a left driving roll shaft (22), a right driving roll shaft (23), a side connection support (24) and a driving motor (25), wherein the arc-shaped fixing plate (21) is fixed on the moving plate (124), the side connection support (24) is respectively fixed on two sides of the upper end of the arc-shaped fixing plate (21), the driving motor (25) is fixed on the side end of the side connection support (24), the left driving roll shaft (22) and the right driving roll shaft (23) are respectively sleeved on output rods of the two driving motors (25), the outer side walls of the left driving roll shaft (22) and the right driving roll shaft (23) are attached to the outer side wall of the winding tube body (11), one ends of the left driving roll shaft (22) and the right driving roll shaft (23) are provided with an external chuck (231), and the external chuck (231) is clamped with the side end face of the winding tube body (11).

6. The winding and forming apparatus of a clara tube according to claim 5, wherein: the film pasting component (31) comprises a supporting plate (311), a material pressing roller body (312), a material guiding roller body (313), a fixing rod (314) and a raw material roller body (315), wherein the material pressing roller body (312) is arranged below the supporting plate (311) through a shaft rod, the material guiding roller body (313) is arranged at the upper end of the supporting plate (311) through the shaft rod, the supporting plate (311) is fixed on the fixing rod (314), the bottom end of the fixing rod (314) is connected with the moving component (34), and the raw material roller body (315) is arranged at the rear of the fixing rod (314) through the shaft rod.

7. The winding and forming apparatus of a clara tube according to claim 6, wherein: heating element (32) are including installing support (321), spray gun head (322), gas-supply pipeline (323) and arc mounting panel (324), and the one end of installing support (321) is fixed with arc mounting panel (324), installs three spray gun head (322) on arc mounting panel (324), and spray gun head (322) one end is connected with gas-supply pipeline (323), and gas-supply pipeline (323) inserts combustion gas, and installing support (321) bottom mounting is on moving assembly (34).

8. The winding and forming apparatus of a clara tube according to claim 7, wherein: winding subassembly (33) are including guide sleeve (331), discharge plate (332), swage ring (333), adjustment support (334) and adjustment motor (335), the upper end and the discharge plate (332) of guide sleeve (331) are connected, the interior grafting of guide sleeve (331) is clara pipe, the both ends of discharge plate (332) are provided with adjustment support (334), adjustment support (334) are installed on discharge plate (332) through the output of adjustment motor (335), install swage ring (333) on adjustment support (334), swage ring (333) both ends are provided with the snap ring, the arc recess has been seted up on swage ring (333) surface.

9. The winding and forming apparatus of a clara tube according to claim 8, wherein: the moving assembly (34) comprises an electric sliding seat (341), sliding grooves (342), limiting blocks (343) and limiting grooves (344), wherein the corresponding sliding grooves (342) are formed in the lower side of the electric sliding seat (341) in the placement mode, the limiting grooves (344) are formed in the two sides of the placement base (1), and the limiting blocks (343) corresponding to the limiting grooves (344) are arranged in the two sides of the lower side of the electric sliding seat (341).

10. A method of implementing a winding forming apparatus for a clara tube according to claim 9, characterized in that: the method comprises the following steps:

step one: the winding tube body (11) is placed on the arc-shaped placing plate (13), the driving motor (25) drives the left driving roll shaft (22) and the right driving roll shaft (23) to rotate, and the left driving roll shaft (22) and the right driving roll shaft (23) drive the winding tube body (11) to rotate;

step two: when the winding pipe body (11) rotates, a plurality of spray gun heads (322) spray fire, heat the surface of the winding pipe body (11), move while heating, lead the membrane body on the raw material roller body (315) to pass through the material guiding roller body (313), lead the material by the supporting plate (311), then press the membrane body to attach on the surface of the winding pipe body (11) by the material pressing roller body (312);

step three: and the material guide sleeve (331) is internally penetrated with a Kram tube, the Kram tube penetrates out to be guided by the discharge plate (332), and the material pressing ring (333) presses the Kram tube on the winding tube body (11) to realize the winding of the Kram tube.