CN114985187B

CN114985187B - Steel wire gluing equipment for steel wire mesh skeleton pipe

Info

Publication number: CN114985187B
Application number: CN202210672199.7A
Authority: CN
Inventors: 李伟利; 李静思; 廖晓峰; 杨林; 王莉莉; 李俊杰
Original assignee: Anhui Guodeng Pipe Industry Technology Co ltd
Current assignee: Anhui Guodeng Pipe Industry Technology Co ltd
Priority date: 2022-06-15
Filing date: 2022-06-15
Publication date: 2023-07-21
Anticipated expiration: 2042-06-15
Also published as: CN114985187A

Abstract

The invention relates to steel wire gluing equipment for a steel wire mesh framework pipe, which comprises a support frame, wherein a gluing frame is arranged on the support frame, a polishing device for treating the surface of a steel wire is arranged at the left end of the gluing frame, a heating device for heating the surface of the steel wire is arranged in the gluing frame, and a smearing device for gluing the surface of the steel wire is arranged in the gluing frame. The invention can solve the problems that the surface of the steel wire is not thoroughly cleaned in the gluing treatment process, rust and other impurities on the surface of the steel wire affect the uniformity of adhesive liquid on the surface of the steel wire, the adhesive liquid smeared on the surface of the steel wire cannot be in full gapless contact with the steel wire due to the rust and impurities on the surface of the steel wire, the heating speed cannot be adjusted according to the specification of a pipe fitting when the steel wire is heated, the heating degree of the steel wire cannot be ensured in the heating process of the steel wires with different specifications, the gluing quality of the steel wire is affected, and the like.

Description

Steel wire gluing equipment for steel wire mesh skeleton pipe

Technical Field

The invention relates to the technical field of pipe fitting production, in particular to steel wire gluing equipment for steel wire mesh skeleton pipes.

Background

The steel wire mesh skeleton pipe is an industry called simply called steel wire mesh skeleton plastic composite pipe, the pipe is formed by using high-strength steel wires subjected to superplastic cross weaving to form a net and fusing thermoplastic polyethylene, the steel wires are used as one of main materials of the steel wire mesh skeleton pipe, and in order to enable the steel wires to be tightly wound on a pipe fitting, resin glue solution or other adhesive materials are smeared on the surfaces of the steel wires to increase the quality of the steel wire mesh skeleton pipe.

However, the existing steel wire is not thoroughly cleaned on the surface of the steel wire in the gluing treatment process, rust and other impurities on the surface of the steel wire influence the uniformity of adhesive liquid on the surface of the steel wire, moreover, the rust and impurities on the surface of the steel wire lead to the fact that the adhesive liquid smeared on the surface of the steel wire cannot be in full gapless contact with the steel wire, so that the gluing on the surface of the steel wire is uneven, the quality of the steel wire after gluing is influenced, in addition, the steel wire cannot be heated according to the specification of a pipe fitting, the heating speed of the steel wire cannot be adjusted, the heating degree of the steel wire cannot be guaranteed in the heating process of the steel wire with different specifications, and the quality of the gluing of the steel wire can be influenced due to overheating of the steel wire or the fact that the heating is not up to the requirements.

In order to solve the problems, the invention provides a steel wire gluing device for a steel wire mesh framework pipe, which can solve the problems.

In order to achieve the above purpose, the present invention is implemented by adopting the following technical scheme: the steel wire gluing equipment for the steel wire mesh skeleton pipe comprises a support frame, wherein a gluing frame is arranged on the support frame, a polishing device for treating the surface of a steel wire is arranged at the left end of the gluing frame, a heating device for heating the surface of the steel wire is arranged in the gluing frame, a smearing device for gluing the surface of the steel wire is arranged in the gluing frame, and the smearing device is positioned on the right side of the heating device;

the left end of the gluing frame is uniformly provided with wire inlet holes along the circumferential direction of the gluing frame, the right end of the gluing frame is provided with wire outlet holes matched with the wire inlet holes, the left end of the gluing frame is uniformly provided with wire outlet holes matched with the wire inlet holes along the circumferential direction of the gluing frame, a partition plate is arranged in the gluing frame, threading holes matched with the wire inlet holes are uniformly formed in the partition plate, guide pipes matched with the threading holes are uniformly arranged on the partition plate, the guide pipes are connected with the wire outlet holes, an extrusion head is arranged at the wire outlet holes, and glue outlet grooves are uniformly formed in the positions, close to the wire outlet holes, of the guide pipes;

the polishing device comprises an actuating mechanism which is arranged at the left end of the gluing frame in a sliding fit manner and matched with the wire inlet hole, and a control mechanism for controlling the actuating mechanism to carry out reciprocating lifting and rotating operation is arranged in the middle of the left end of the gluing frame;

the heating device comprises a heating mechanism arranged between the gluing frame and the isolation plate in a sliding manner, the heating mechanism is matched with the wire inlet hole, a driving mechanism for controlling the heating mechanism to rotate at a uniform speed is arranged on the gluing frame, and an adjusting mechanism for adjusting the working state of the heating mechanism is arranged on the closing frame;

the coating device comprises an annular pipe arranged between the partition plate and the inner wall of the right end of the gluing frame, an air inlet groove is uniformly formed in one side, close to the partition plate, of the annular pipe, a partition plate is arranged between the outer wall of the annular pipe and the inner wall of the gluing frame, a moving hole is uniformly formed in the partition plate, a piston rod is arranged in the moving hole in a sliding mode, a first piston plate is arranged at the left end of the piston rod, a second piston plate is arranged at the right end of the piston rod, a reset spring is sleeved on the piston rod, a pressurizing cylinder is arranged on the partition plate, and a third piston plate is arranged at the left end of the pressurizing cylinder

Preferably, the actuating mechanism comprises a sliding block arranged at the left end of the gluing frame in a sliding manner, the sliding block and the wire inlet hole are of concentric circle structures, a lifting spring rod is uniformly arranged at the left end of the sliding block, an actuating pipe is arranged at the left end of the lifting spring rod, an installation hole is formed in the actuating pipe, an installation rod is arranged in the installation hole in a sliding manner, a supporting spring is sleeved between the installation rod and the outer wall of the actuating pipe, and a polishing plate is arranged at one end of the installation rod, which is positioned inside the actuating pipe.

Preferably, the control mechanism comprises a control bracket for connecting the execution pipes, the execution pipes are connected with the control bracket in a rotating way, rotating wheels are sleeved on the outer wall of the execution pipe and connected through rotating belts, a first motor is installed on the left end face of the control bracket through a motor seat, a driving wheel is installed on the output shaft of the first motor, a driven wheel is installed on one of the execution pipes, the driving wheel is connected with the driven wheel through a belt, a linkage rod is installed on the control bracket, a second motor is installed at the left end of the gluing frame through the motor seat, a rotary disk is installed on the output shaft of the second motor, and the linkage rod abuts against the left end face of the rotary disk;

preferably, the end surface of the rotating disc, which is contacted with the linkage rod, is of an inclined structure.

Preferably, the left end and the right end of the polishing plate are both inclined structures from inside to outside.

Preferably, the heating mechanism comprises a heating circular tube which is arranged on the inner wall of the gluing frame in a sliding manner and matched with the wire outlet hole, an adjusting groove is uniformly formed in the heating circular tube along the circumferential direction of the heating circular tube, an adjusting frame is arranged in the adjusting groove in a sliding manner, an adjusting spring is arranged between the adjusting frame and the outer wall of the heating circular tube, a heating pipe is arranged at one end of the heating circular tube, and a triangular block is arranged at one end of the heating circular tube.

Preferably, the adjusting mechanism comprises an adjusting cylinder arranged on the closed frame, an adjusting bracket is arranged on the adjusting cylinder, adjusting lantern rings matched with the heating round pipes are uniformly arranged on the adjusting bracket, and the adjusting lantern rings are slidably sleeved outside the heating round pipes.

Preferably, the driving mechanism comprises a motor III arranged on the isolation plate through a motor base, an output shaft of the motor III penetrates through the gluing frame through a bearing to be connected with the driving gear, a driven gear is sleeved on the outer wall of the heating circular tube, and the driven gear is meshed with the driving gear.

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

according to the invention, the surface of the steel wire can be polished through the polishing device in the operation, the cleaning degree of the surface of the steel wire is ensured, the impurity or rust on the surface of the steel wire is prevented from influencing the gluing quality of the steel wire, the heating device can heat the surface of the steel wire in the process of moving the steel wire, the temperature of the surface of the steel wire is increased, the smearing device synchronously operates in the process of moving the steel wire from left to right at uniform speed, the smearing device enables glue solution to be extruded and wrapped on the surface of the steel wire from a glue outlet groove in the operation, the steel wire can enable the glue solution on the surface of the steel wire to be rapidly melted in a high-temperature state, so that the problem that the glue solution falls off from the steel wire due to small viscosity between the glue solution and the steel wire is avoided.

Drawings

The invention will be further described with reference to the drawings and examples.

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

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

FIG. 3 is a schematic view of the structure of the glue frame, actuator and control mechanism of the present invention;

FIG. 4 is a cross-sectional view of the invention between the glue frame, actuator and control mechanism;

FIG. 5 is a schematic view of the structure between the separator and the heating device of the present invention;

fig. 6 is a cross-sectional view between the separator and the heating device of the present invention.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

As shown in fig. 1-6, a steel wire gluing device for a steel wire mesh skeleton pipe comprises a support frame, wherein a gluing frame 2 is arranged on the support frame 1, a polishing device 3 for treating the surface of a steel wire is arranged at the left end of the gluing frame 2, a heating device 4 for heating the surface of the steel wire is arranged in the gluing frame 2, a smearing device 5 for gluing the surface of the steel wire is arranged in the gluing frame 2, and the smearing device 5 is positioned at the right side of the heating device 4;

the left end of rubber coating frame 2 evenly is provided with into silk hole along its circumference, the right-hand member of rubber coating frame 2 be provided with advance silk hole complex play silk hole, be provided with division board 51 in the rubber coating frame 2, evenly seted up on the division board 51 with advance silk hole complex threading hole, evenly be provided with on the division board 51 with threading hole complex guide pipe 52, guide pipe 52 with go out the silk hole and link to each other, it is provided with extrusion head 53 through threaded connection to go out silk hole department, just guide pipe 52 peg graft in the extrusion head 53, evenly seted up out the glue groove along its circumference on the extrusion head 53, be provided with the check valve on the rubber coating frame 2, inject the glue solution of preparing into in the rubber coating frame 2 through the check valve

According to the technical scheme, in specific operation, the steel wire to be glued passes through the wire inlet hole and the wire outlet hole from left to right, then the steel wire is pulled to pass through the gluing frame 2 at a constant speed, the steel wire is polished through the polishing device 3 in the process of movement, the cleanliness of the surface of the steel wire is guaranteed, impurities or rust on the surface of the steel wire are prevented from affecting the gluing quality of the steel wire, the heating device 4 can heat the surface of the steel wire in the process of movement of the steel wire, the temperature of the surface of the steel wire is improved, the smearing device 5 synchronously operates in the process of uniform movement of the steel wire from left to right, the smearing device 5 enables glue solution to be extruded from the glue outlet groove to wrap the surface of the steel wire in operation, the steel wire can be melted rapidly in a high-temperature state, and therefore the glue solution of the steel wire which is directly contacted with the steel wire can be adhered to the surface of the steel wire rapidly, the problem that the glue solution falls off from the steel wire due to small viscosity between the glue solution and the steel wire is avoided, in addition, the glue coating treatment can be carried out on the surface of the steel wire simultaneously, the steel wire can be carried out on the steel wire, the steel wire with different specifications, the glue coating quality and the steel wire can be adjusted when the surface treatment and automatic heating quality of the steel wire is improved.

The polishing device 3 comprises an actuating mechanism 31 which is arranged at the left end of the gluing frame 2 in a sliding fit manner and matched with the wire inlet hole, and a control mechanism 32 for controlling the actuating mechanism 31 to carry out reciprocating lifting and rotating operation is arranged in the middle of the left end of the gluing frame 2;

the actuating mechanism 31 comprises a sliding block 311 which is arranged at the left end of the gluing frame 2 in a sliding manner, the sliding block 311 and a wire inlet hole are of a concentric circle structure, a lifting spring rod 312 is uniformly arranged at the left end of the sliding block 311, an actuating pipe 313 is arranged at the left end of the lifting spring rod 312, a mounting hole is formed in the actuating pipe 313, a mounting rod 314 is arranged in the mounting hole in a sliding manner, a tight supporting spring 315 is sleeved between the mounting rod 314 and the outer wall of the actuating pipe 313, a polishing plate 316 is arranged at one end of the mounting rod 314 inside the actuating pipe 313, the left end and the right end of the polishing plate 316 are of an inclined structure from inside to outside, the elastic tension of the tight supporting spring 315 in the operation enables the two polishing plates 316 to abut against each other in an initial state, when a traction steel wire passes through, the polishing plate 316 is controlled to abut against the steel wire, and then the actuating pipe 313 is controlled to reciprocate and rotate through a control mechanism 32, so that the polishing plate 316 is driven to polish the steel wire left and right, and the circumferential polishing treatment is carried out, and the overall polishing treatment of the steel wire surface is guaranteed, and the quality of gluing of the surface is guaranteed.

The control mechanism 32 comprises a control bracket 321 used for connecting the execution pipes 313, the execution pipes 313 are connected with the control bracket 321 in a rotating way, rotating wheels 322 are sleeved on the outer wall of the execution pipes 313, the rotating wheels 322 are connected through rotating belts 323, a first motor 324 is installed on the left end face of the control bracket 321 through a motor seat, a driving wheel 325 is installed on the output shaft of the first motor 324, a driven wheel 326 is installed on one of the execution pipes 313, the driving wheel 325 is connected with the driven wheel 326 through a belt 327, a linkage rod 328 is installed on the control bracket 321, a second motor 329 is installed at the left end of the gluing frame 2 through a motor seat, a rotating disc 320 is installed on the output shaft of the second motor 329, and the linkage rod 328 abuts against the left end face of the rotating disc 320; the end surface of the rotating disk 320 contacting the linkage rod 328 is in an inclined structure.

After the wire is pulled well, the motor one 324 and the motor two 329 are synchronously started, the motor two 329 controls the rotating disc 320 to rotate in the process of rotating, the rotating disc 320 drives the control bracket 321 to adjust through extrusion of the linkage rod 328 in the process of rotating, the control bracket 321 and the lifting spring rod 312 are mutually matched to drive the execution pipe 313 to lift and reciprocate, so that the polishing plate 316 is controlled to complete reciprocating lifting polishing operation on the surface of the wire, the motor one 324 controls the driving wheel 325 to rotate in the process of rotating, the driving wheel 325 controls one of the execution pipes 313 to circumferentially rotate through cooperation between the driven wheel 326 and the belt 327 in the process of rotating, and the rotating execution pipe 313 drives all the execution pipes 313 to synchronously rotate through mutual cooperation between the rotating wheel 322 and the rotating belt 323, and the execution pipe 313 drives the polishing plate 316 to circumferentially rotate in the rotating operation, so that the wire surface is comprehensively polished

The heating device 4 comprises a heating mechanism 41 which is arranged on the inner wall of the right end of the isolation plate 51 in a sliding manner and matched with the wire outlet, a driving mechanism 42 for controlling the heating mechanism 41 to rotate at a constant speed is arranged on the gluing frame 2, and an adjusting mechanism 43 for adjusting the working state of the heating mechanism 41 is arranged on the closing frame 21.

The heating mechanism 41 comprises a heating circular tube 411 which is arranged on the inner wall of the gluing frame 2 in a sliding manner and matched with a wire outlet hole, an adjusting groove is uniformly formed in the heating circular tube 411 along the circumferential direction of the heating circular tube 411, an adjusting frame 412 is arranged in the adjusting groove in a sliding manner, an adjusting spring 413 is arranged between the adjusting frame 412 and the outer wall of the heating circular tube 411, a heating tube 414 is arranged at one end of the heating circular tube 411, and a triangular block 415 is arranged at one end of the heating circular tube 411, positioned at the adjusting frame 412.

The adjusting mechanism 43 comprises an adjusting cylinder 431 arranged on the closing frame 21, an adjusting bracket 432 is arranged on the adjusting cylinder 431, adjusting lantern rings 433 matched with the heating round tubes 411 are uniformly arranged on the adjusting bracket 432, and the adjusting lantern rings 433 are slidably sleeved outside the heating round tubes 411.

Through adopting above-mentioned technical scheme in actual operation heating pipe 411 circular telegram back start heating and improve the inside temperature of heating pipe 411, for quick improvement steel wire's temperature, carry out automatic clearance between adjustment heating pipe 411 and the steel wire according to the actual specification of steel wire, make heating pipe 411 can be quick with the heat transfer to the steel wire on, make the quick intensification of steel wire, start adjusting cylinder 431 and drive adjusting bracket 432 and go up and down to adjust, adjusting bracket 432 drives adjusting collar 433 in this in-process and extrudees triangle 415, triangle 415 receives and drives adjusting bracket 412 after the extrusion and adjusts, change the clearance between heating pipe 411 and the steel wire through the motion of adjusting bracket 412, thereby guarantee that heating pipe 411 can carry out quick efficient heating treatment to the steel wire table in suitable position.

The driving mechanism 42 comprises a motor III 421 arranged on the gluing frame 2 through a motor seat, an output shaft of the motor III 421 passes through the gluing frame 2 through a bearing and is connected with the driving gear 422, a driven gear 423 is sleeved on the outer wall of the heating round tube 411, and the driven gear 423 is meshed with the driving gear 422.

Through adopting above-mentioned technical scheme in the operation starter motor three 421 drive gear 422 carry out the circumference rotation, drive gear 422 carry out the circumference rotation through the meshing with driven gear 423 drive heating pipe 411 in pivoted in-process to make heating pipe 411 can be even heat the steel wire.

The smearing device 5 comprises an annular pipe 54 arranged between the isolation plate 51 and the inner wall of the right end of the gluing frame 2, an air inlet groove is uniformly formed in one side, close to the isolation plate 51, of the annular pipe 54, a partition plate 55 is arranged between the outer wall of the annular pipe 54 and the inner wall of the gluing frame 2, a moving hole is uniformly formed in the partition plate 55, a piston rod 56 is slidably arranged in the moving hole, a first piston plate 57 is arranged at the left end of the piston rod 56, a second piston plate 58 is arranged at the right end of the piston rod 56, a reset spring is sleeved on the piston rod 56, a pressurizing cylinder 59 is arranged on the isolation plate 51, and a third piston plate 50 is arranged at the left end of the pressurizing cylinder 59.

When the polished and heated steel wire uniformly moves from left to right, the pressurizing cylinder 59 is started to drive the third piston plate 50 to squeeze air in the annular tube 54, the air squeezed in the annular tube 54 enters between the partition plate and the gluing frame 2 through the air inlet groove, the second piston plate 58 is influenced by air pressure change to drive the third piston plate 50 to squeeze glue solution between the annular tube 54 and the gluing frame from left to right, the squeezed glue solution is squeezed from a glue outlet groove on the extrusion head 53 and wrapped on the steel wire, the steel wire uniformly passes through the extrusion head 53 after gluing treatment, and cooling and winding operations of the glued steel wire are completed in subsequent operations.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, and that the foregoing embodiments and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, and these changes and modifications fall within the scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a steel wire mesh skeleton pipe steel wire rubber coating equipment, includes support frame (1), be provided with rubber coating frame (2) on support frame (1), the left end of rubber coating frame (2) is provided with grinding device (3) that are used for carrying out the processing to the steel wire surface, be provided with in rubber coating frame (2) and be used for carrying out heating device (4) on the steel wire surface, be provided with in rubber coating frame (2) and be used for carrying out rubber coating smearing device (5) on the steel wire surface, and smearing device (5) are located the right side of heating device (4), its characterized in that;

the left end of the gluing frame (2) is uniformly provided with wire inlet holes along the circumferential direction of the gluing frame, the right end of the gluing frame (2) is provided with wire outlet holes matched with the wire inlet holes, a partition plate (51) is arranged in the gluing frame (2), the partition plate (51) is uniformly provided with wire through holes matched with the wire inlet holes, the partition plate (51) is uniformly provided with guide pipes (52) matched with the wire through holes, the guide pipes (52) are connected with the wire outlet holes, the wire outlet holes are provided with extrusion heads (53) in a threaded connection mode, the guide pipes (52) are inserted into the extrusion heads (53), and glue outlet grooves are uniformly formed in the extrusion heads (53) along the circumferential direction of the extrusion heads;

the polishing device (3) comprises an actuating mechanism (31) which is arranged at the left end of the gluing frame (2) in a sliding fit manner and matched with the wire inlet hole, and a control mechanism (32) for controlling the actuating mechanism (31) to perform reciprocating lifting and rotating operation is arranged in the middle of the left end of the gluing frame (2);

the heating device (4) comprises a heating mechanism (41) which is arranged between the gluing frame (2) and the isolation plate (51) in a sliding manner, the heating mechanism (41) is matched with the wire inlet hole, a driving mechanism (42) for controlling the heating mechanism (41) to rotate at a constant speed is arranged on the gluing frame (2), and an adjusting mechanism (43) for adjusting the working state of the heating mechanism (41) is arranged on the closing frame (21);

the coating device (5) comprises an annular pipe (54) arranged between the isolation plate (51) and the inner wall at the right end of the gluing frame (2), wherein the annular pipe (54) is close to one side of the isolation plate (51) and is uniformly provided with an air inlet groove, a partition plate (55) is arranged between the outer wall of the annular pipe (54) and the inner wall of the gluing frame (2), a moving hole is uniformly formed in the partition plate (55), a piston rod (56) is arranged in the moving hole in a sliding mode, a first piston plate (57) is arranged at the left end of the piston rod (56), a second piston plate (58) is arranged at the right end of the piston rod (56), a reset spring is sleeved on the piston rod (56), and a pressurizing cylinder (59) is arranged on the isolation plate (51), and a third piston plate (50) is arranged at the left end of the pressurizing cylinder (59).

2. The steel wire gluing device for the steel wire mesh skeleton pipes according to claim 1, wherein the actuating mechanism (31) comprises a sliding block (311) which is arranged at the left end of the gluing frame (2) in a sliding manner, the sliding block (311) and the wire inlet holes are of a concentric circle structure, lifting spring rods (312) are uniformly arranged at the left end of the sliding block (311), actuating pipes (313) are arranged at the left end of the lifting spring rods (312), mounting holes are formed in the actuating pipes (313), mounting rods (314) are arranged in the mounting holes in a sliding manner, a propping spring (315) is sleeved between the mounting rods (314) and the outer walls of the actuating pipes (313), and polishing plates (316) are arranged at one ends of the mounting rods (314) located inside the actuating pipes (313).

3. A steel wire gluing device for steel wire mesh skeleton pipes according to claim 2, characterized in that the control mechanism (32) comprises a control bracket (321) for connecting the execution pipe (313), the execution pipe (313) is connected with the control bracket (321) in a rotating manner, a rotating wheel (322) is sleeved on the outer wall of the execution pipe (313), the rotating wheels (322) are connected through a rotating belt (323), a first motor (324) is installed on the left end surface of the control bracket (321) through a motor base, a driving wheel (325) is installed on the output shaft of the first motor (324), a driven wheel (326) is installed on one of the execution pipes (313), a linkage rod (328) is installed on the control bracket (321), a second motor (329) is installed on the left end of the gluing frame (2) through a motor base, a rotating disc (320) is installed on the output shaft of the second motor (329), and the linkage rod (328) abuts against the left end surface (320).

4. A wire-mesh skeleton tube wire gluing device according to claim 3, characterized in that the end face of the rotating disc (320) contacting the linkage rod (328) is of an inclined structure.

5. A steel wire gluing device for steel wire mesh skeleton pipes according to claim 4, wherein the left and right ends of the polishing plate (316) are inclined from inside to outside.

6. A steel wire gluing device for steel wire mesh skeleton pipes according to claim 1, characterized in that the heating mechanism (41) comprises a heating circular pipe (411) which is arranged on the inner wall of the gluing frame (2) in a sliding manner and matched with the wire inlet hole, an adjusting groove is uniformly formed in the heating circular pipe (411) along the circumferential direction of the heating circular pipe, an adjusting bracket (412) is arranged in the adjusting groove in a sliding manner, an adjusting spring (413) is arranged between the adjusting bracket (412) and the outer wall of the heating circular pipe (411), a heating pipe (414) is arranged at one end of the adjusting bracket (412) positioned on the heating circular pipe (411), and a triangular block (415) is arranged at one end of the heating circular pipe (411).

7. A steel wire gluing device for steel wire mesh skeleton pipes according to claim 6, characterized in that the adjusting mechanism (43) comprises an adjusting cylinder (431) mounted on the closing frame (21), an adjusting bracket (432) is mounted on the adjusting cylinder (431), adjusting collars (433) matched with the heating round pipe (411) are uniformly arranged on the adjusting bracket (432), and the adjusting collars (433) are slidably sleeved outside the heating round pipe (411).

8. A steel wire gluing device for steel wire mesh skeleton pipes according to claim 7, characterized in that the driving mechanism (42) comprises a motor III (421) arranged on the isolation plate (51) through a motor seat, an output shaft of the motor III (421) penetrates through the gluing frame (2) through a bearing to be connected with the driving gear (422), a driven gear (423) is sleeved on the outer wall of the heating round pipe (411), and the driven gear (423) is meshed with the driving gear (422).