CN113385944A - Automatic processing machine and method for production and manufacturing of composite heat-insulating pipe - Google Patents

Abstract

The invention provides an automatic processing machine and a processing method for production and manufacturing of a composite heat-insulating pipe, which relate to the technical field of manufacturing and processing of composite heat-insulating pipes and comprise a base plate, a fixing device and a cutting device, wherein the fixing device is arranged on the base plate, and the cutting device is arranged on the fixing device, so that the following problems can be solved: a. at first traditional compound incubation pipe adds man-hour, and the insulating layer and the protective layer on insulating tube surface pass through the glue solution and firmly post on the steel pipe surface of transport medium, when clearing up insulating layer and protective layer on insulating tube surface, insulating layer and protective layer on its surface of unable thorough condition to can influence the subsequent reutilization of the steel pipe of transport medium. b. And secondly, the traditional composite heat-insulating pipe has poor clamping stability to the composite heat-insulating pipe during processing, and the pipe can be separated during processing.

Description

Automatic processing machine and method for production and manufacturing of composite heat-insulating pipe

Technical Field

The invention relates to the technical field of manufacturing and processing of composite heat-insulating pipes, and particularly provides automatic processing machinery and a processing method for manufacturing and processing a composite heat-insulating pipe.

Background

The heat preservation pipe is a short for heat insulation pipeline, and is mainly used for conveying liquid, gas and other media, and simultaneously maximally keeps the conveyed media at the temperature just beginning to be conveyed, so that the use effect of the heat preservation pipe is ensured.

The composite heat preservation pipe is mainly manufactured by attaching a plurality of layers of heat preservation and insulation aluminum silicate fiber felts on the surface of a steel pipe for conveying a medium, and then sleeving an outer anti-corrosion protective layer on the outermost layer of the aluminum silicate fiber felts, so that the composite heat preservation pipe is manufactured, the composite heat preservation pipe generally has a certain service life, after the composite heat preservation pipe is used for a period of time, the heat preservation effect is increasingly poor, so that an old part needs to be removed, the old heat preservation pipe is peeled, and then a new heat preservation layer is covered on the surface of the old heat preservation pipe, so that the secondary utilization of the composite heat preservation pipe is realized, the surface of the old heat preservation pipe is cut through equipment in the existing treatment method for the old heat preservation pipe, and then the heat preservation layer and the protective layer on the surface of the heat preservation pipe are manually peeled off, but the following problems exist in the manufacturing process of the traditional heat preservation pipe:

firstly, when a traditional composite heat-insulating pipe is manufactured, a heat-insulating layer and a protective layer on the surface of the heat-insulating pipe are firmly pasted on the surface of a steel pipe for conveying a medium through glue solution, and the heat-insulating layer and the protective layer on the surface of the heat-insulating pipe cannot be thoroughly removed when the heat-insulating layer and the protective layer on the surface of the heat-insulating pipe are cleaned, so that the subsequent secondary utilization of the steel pipe for conveying the medium can be influenced.

Secondly, the clamping stability of the conventional composite heat-insulating pipe is poor during processing, and the pipe can be separated during processing.

Aiming at the situation, the invention provides automatic processing machinery and a processing method for the production and the manufacture of a composite heat-insulating pipe.

Disclosure of Invention

Problems to be solved

The present invention can solve all the problems mentioned in the background art described above.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the automatic processing machine for producing and manufacturing the composite heat-insulating pipe comprises a base plate, a fixing device and a cutting device, wherein the fixing device is arranged on the base plate, and the cutting device is arranged on the fixing device.

The cutting device comprises a sliding lead screw, a lead screw motor, a vertical plate, a moving block, a connecting plate, Contraband-shaped blocks, a second moving block, a cutting mechanism, a scraping mechanism and a polishing mechanism, the vertical plate is symmetrically and fixedly mounted on a bottom plate, the sliding lead screw is rotatably arranged on one side, opposite to the lower end of the vertical plate, of the side end of the sliding lead screw and connected with the output end of the lead screw motor, the lead screw motor is fixedly mounted at the side end of the vertical plate, the first moving block is screwed on the sliding lead screw, the connecting plate is fixedly mounted at the upper end of the first moving block, the Contraband-shaped block is fixedly mounted at the upper end of the connecting plate, the cutting mechanism is arranged on the Contraband-shaped block, the second moving block is screwed on the sliding lead screw, the polishing mechanism is fixedly arranged at the upper end of the second moving block, and the scraping mechanism is fixedly mounted at the side end of the connecting plate.

Fixing device includes circular frame, the fixed block, the shifting chute, the dead lever, the joint groove, the stopper, driving motor, support spring pole and spacing module, the relative one side in vertical plate upper end is rotated and is provided with circular frame, the inboard fixed mounting of circular frame has the fixed block, the shifting chute has been seted up along the even running through of central line direction on the fixed block, it is provided with the dead lever to slide in the shifting chute, the opposite side of dead lever all is connected with the support spring pole, the inside at the fixed block is fixed to the support spring pole, the joint groove has been seted up to the looks dorsal part equidistant of dead lever, the joint inslot joint has the stopper, outside fixed mounting on vertical plate upper end has driving motor, driving motor's output is rotated and is run through the vertical plate and link to each other with circular frame, the one end that the dead lever is close to circular frame is provided with spacing module.

As a preferred technical scheme of the invention, the cutting mechanism comprises a movable rod, an adjusting threaded rod, an auxiliary rod, a cutting knife, a wedge rod, a wedge block and a cutting spring rod, wherein the Contraband-shaped block is of a hollow structure, the adjusting threaded rod is screwed in the middle of the Contraband-shaped block, the auxiliary rod is fixedly installed at one end of the adjusting threaded rod close to the Contraband-shaped block, the auxiliary rod penetrates through the Contraband-shaped block in a sliding manner, the cutting knife is fixedly installed at one end of the auxiliary rod far away from the adjusting threaded rod, the movable rod is fixedly connected at the position of the auxiliary rod in the Contraband-shaped block, symmetrical wedge rods are arranged at the upper end and the lower end of the Contraband-shaped block in a sliding manner, the cutting spring rod is connected at one end of the wedge rod far away from the movable rod, the cutting spring rod is fixedly installed on the inner wall of the Contraband-shaped block, the wedge block is abutted against and provided with, one end of the wedge-shaped block far away from the Contraband-shaped block is fixedly provided with a cutting knife.

As a preferred technical scheme of the invention, the scraping mechanism comprises a clip frame, an adjusting rod, a clamping plate, a scraping rod, a scraping knife, an adjusting plate, a guide rod and a centering spring rod, wherein the clip frame is fixedly installed at the side end of the connecting plate, symmetrical adjusting rods are slidably arranged on the inner side of the clip frame, the clamping plate is fixedly installed at one end, far away from the clip frame, of the adjusting rod, the scraping knife is fixedly installed at one side, close to an Contraband-shaped block, of the upper end of the clamping plate through the scraping rod, the adjusting plate is fixedly installed in the middle of the clip frame, the centering spring rod is symmetrically installed at one end, far away from the clip frame, of the adjusting plate, one end, far away from the adjusting plate, of the centering spring rod is fixedly connected with the adjusting rod, and the symmetrical guide rod is fixedly installed at one side of the vertical plate.

As the preferred technical proposal of the invention, the grinding mechanism comprises an installation plate, an execution plate, a rotary threaded rod, an installation block and an arc-shaped plate, the utility model provides a direction telescopic link, the cylinder piece, place the piece, No. two direction telescopic links and fastening components, the upper end fixed mounting of No. two movable blocks has the mounting panel, the upper end symmetry of mounting panel slides and is provided with the execution board, the lower side of execution board is rotated and is connected with rotatory threaded rod, the spiro union is provided with the installation piece on the rotatory threaded rod, the fixed setting on the mounting panel of installation piece, the upper end fixed mounting of execution board has the arc, the upper and lower both ends fixed mounting of arc has a direction telescopic link, the equal fixed mounting in the back of the body side of arc places the piece, the upper and lower both ends symmetry of placing the piece articulates there is No. two direction telescopic links, equal fixed mounting has the cylinder piece on a direction telescopic link and No. two direction telescopic links, the side of placing the piece is provided with fastening components.

When the thermal insulation layer on the surface of the composite thermal insulation pipe is scraped by the scraping mechanism, the rotary threaded rod is rotated at first, the rotary threaded rod drives the execution plate to move towards the composite thermal insulation pipe simultaneously, the polishing belt on the arc plate and the arc plate on the arc plate supports against the surface of the composite thermal insulation pipe, then the whole polishing belt is driven to move on the surface of the composite thermal insulation pipe through the movement of the second movable block, the rotating composite thermal insulation pipe is polished by the polishing belt, the residual colloid on the surface of the composite thermal insulation pipe is polished, the processing efficiency of the composite thermal insulation pipe is further improved, the composite thermal insulation pipe can be reutilized, the first guide telescopic rod and the second guide telescopic rod mainly start tensioning, and the polishing belt can deform after being extruded through the elasticity of the composite thermal insulation pipe.

According to the preferred technical scheme, the fastening assembly comprises a fastening block, a fastening threaded rod and a polishing belt, wherein the fastening block is fixedly installed at one end, away from the arc-shaped plate, of the placing block, a square groove penetrates through the fastening block, the fastening threaded rod is screwed at one end, away from the placing block, of the fastening block, the polishing belt penetrates through the square groove, and the polishing belt is sleeved on the cylindrical block; the concrete during operation rotates the fastening threaded rod, through fastening threaded rod extrusion polishing area to guarantee that polishing area is pushed and is leaned on the inboard that leans on at the fastening block, thereby prevent that polishing area from taking place to rotate at will when polishing, further assurance polishing area efficiency of polishing.

According to the preferred technical scheme, the limiting module comprises a limiting threaded rod, a limiting plate, a trapezoidal block and a fixing plate, a limiting groove is formed in the upper end of the circular frame in a penetrating mode, the limiting plate is arranged inside the limiting groove in a sliding mode, the lower end of the limiting plate is connected with the trapezoidal block, one end, away from the limiting plate, of the trapezoidal block abuts against the fixing rod, the fixing plate is fixedly installed at the upper end of the circular frame, the limiting threaded rod is connected onto the fixing plate in a threaded mode, and one end, away from the fixing plate, of; during specific work, the limiting threaded rod is rotated, then the limiting threaded rod drives the limiting plate to move towards the direction of the fixing rod, and then the limiting plate drives the trapezoidal block to abut against the fixing rod, so that the composite heat-insulating pipe is internally supported by extruding the fixing rod through the trapezoidal block, and the composite heat-insulating pipe is fixed.

As a preferable technical scheme of the invention, one end of the lower end of the clamping plate, which is close to the clip frame, is fixedly provided with a triangular guide block, and the triangular guide block has a guiding function, so that the triangular guide block can drive the clamping plate to adjust.

In addition, the invention can provide an automatic processing machine for the production and the manufacture of the composite heat-insulating pipe, and the automatic processing method for the production and the manufacture of the composite heat-insulating pipe comprises the following steps:

s1, fixing the product: manually placing the composite heat-insulating pipe into a fixing device for fixing;

s2, cutting the product: cutting the heat-insulating layer on the surface of the composite heat-insulating pipe by using a cutting device, and scraping the cut heat-insulating layer by using a scraping mechanism;

s3, polishing the product: after the heat-insulating layer on the surface of the composite heat-insulating pipe is scraped, polishing the residual glue solution on the surface of the composite heat-insulating pipe and scratches caused by cutting by using a polishing device;

s4, product collection: and inspecting the ground composite heat-insulating pipes, and uniformly collecting the qualified composite heat-insulating pipes.

(III) advantageous effects

1. The invention provides automatic processing machinery and a processing method for production and manufacturing of a composite heat-insulation pipe.

2. The invention provides an automatic processing machine and a processing method for production and manufacturing of a composite heat-insulating pipe.

3. The invention provides automatic processing machinery and a processing method for production and manufacturing of a composite heat-insulating pipe.

4. The invention provides an automatic processing machine and a processing method for production and manufacturing of a composite heat-insulating pipe, which can solve the following problems: a. at first traditional compound incubation pipe adds man-hour, and the insulating layer and the protective layer on insulating tube surface pass through the glue solution and firmly post on the steel pipe surface of transport medium, when clearing up insulating layer and protective layer on insulating tube surface, can't thorough clear away insulating layer and protective layer on its surface to can influence the subsequent reutilization of the steel pipe of transport medium. b. And secondly, the traditional composite heat-insulating pipe has poor clamping stability to the composite heat-insulating pipe during processing, and the pipe can be separated during processing.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the cutting mechanism of the present invention;

FIG. 3 is a schematic view of the cutting apparatus of the present invention;

FIG. 4 is a schematic view of the construction of the fastening device of the present invention;

FIG. 5 is a cross-sectional view of the fastening device of the present invention;

FIG. 6 is a schematic diagram of the construction of the grinding mechanism of the present invention;

FIG. 7 is a cross-sectional view of a sanding structure of the present invention;

FIG. 8 is a schematic structural view of the composite insulating pipe of the present invention;

FIG. 9 is a flow chart of the automated processing method for manufacturing composite thermal insulation pipes according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, an automatic processing machine for manufacturing composite heat preservation pipes comprises a base plate 1, a fixing device 2 and a cutting device 3, wherein the fixing device 2 is arranged on the base plate 1, and the cutting device 3 is arranged on the fixing device 2; the concrete during operation is fixed compound incubation pipe through fixing device 2, cuts the surface insulation layer of the compound incubation pipe who fixes through cutting device 3 afterwards to scrape away the heat preservation on compound incubation pipe surface afterwards, polish compound incubation pipe at last.

The fixing device 2 comprises a circular frame 21, a fixing block 22, a moving groove 23, a fixing rod 24, a clamping groove 25, a limiting block 26, a driving motor 27, a supporting spring rod 28 and a limiting module 29, relative one side rotation in vertical plate 33 upper end is provided with circular frame 21, the inboard fixed mounting of circular frame 21 has fixed block 22, the shifting chute 23 has been seted up along the even running through of central line direction on the fixed block 22, it is provided with dead lever 24 to slide in the shifting chute 23, the opposite side of dead lever 24 all is connected with supporting spring pole 28, supporting spring pole 28 is fixed in the inside of fixed block 22, joint groove 25 has been seted up to the dorsal part of dead lever 24 equidistant, the joint has stopper 26 in joint groove 25, the outside fixed mounting of vertical plate 33 upper end has driving motor 27, driving motor 27's output rotates and runs through vertical plate 33 and links to each other with circular frame 21, the one end that dead lever 24 is close to circular frame 21 is provided with spacing module 29: when the composite heat-insulating pipe is sleeved on the fixed rod 24, the fixed rod 24 is inserted into the composite heat-insulating pipe through the inclined structure on the fixed rod 24, then the fixed rod 24 is abutted against the inner wall of the composite heat-insulating pipe, the composite heat-insulating pipe is internally supported through the fixed rod 24, the limit block 26 is inserted into the clamping groove 25 after the composite heat-insulating pipe is sleeved on the fixed rod 24, the left end and the right end of the composite heat-insulating pipe are fixed through the limit block 26, the situation that the composite heat-insulating pipe shakes left and right when rotating is prevented, and then the fixed rod 24 is limited through the limit module 29, thereby further improvement compound incubation pipe fixed stability, after compound incubation pipe is fixed by fixing device 2, drive circular frame 21 through driving motor 27 control and drive compound incubation pipe and rotate.

The limiting module 29 comprises a limiting threaded rod 291, a limiting plate 292, a trapezoidal block 293 and a fixing plate 294, a limiting groove is formed in the upper end of the circular frame 21 in a penetrating mode, the limiting plate 292 is arranged in the limiting groove in a sliding mode, the lower end of the limiting plate 292 is connected with the trapezoidal block 293, one end, away from the limiting plate 292, of the trapezoidal block 293 is abutted to the fixing rod 24, the fixing plate 294 is fixedly installed at the upper end of the circular frame 21, the limiting threaded rod 291 is connected to the fixing plate 294 in a threaded mode, and one end, away from the fixing plate 294, of the limiting threaded rod 291 is rotatably connected with the limiting plate 292; during specific work, the limit threaded rod 291 is rotated, the limit threaded rod 291 drives the limit plate 292 to move towards the direction of the fixing rod 24, the limit plate 292 drives the trapezoidal block 293 to abut against the fixing rod 24, one end, matched with the fixing rod 24, of the trapezoidal block 293 is of an inclined plane structure, and therefore when the trapezoidal block 293 extrudes the fixing rod 24, the trapezoidal block 293 can limit the fixing rod 24, so that the fixing rod 24 is guaranteed to support the composite heat-insulating pipe in the inner mode, and the composite heat-insulating pipe is fixed.

The cutting device 3 comprises a sliding screw rod 31, a screw rod motor 32, a vertical plate 33, a first moving block 34, a connecting plate 35, a third moving block 21274, a shape block 36, a second moving block 37, a cutting mechanism 38, a scraping mechanism 39 and a polishing mechanism 30, the bottom plate 1 is symmetrically and fixedly provided with vertical plates 33, one side of the vertical plate 33, opposite to the lower end, is rotatably provided with a sliding lead screw 31, the side end of the sliding lead screw 31 is connected with the output end of a lead screw motor 32, the lead screw motor 32 is fixedly arranged at the side end of the vertical plate 33, a first moving block 34 is screwed on the sliding lead screw 31, the upper end of the first moving block 34 is fixedly provided with a connecting plate 35, the upper end of the connecting plate 35 is fixedly provided with an Contraband-shaped block 36, a cutting mechanism 38 is arranged on the shaped block 36, a second moving block 37 is screwed on the sliding lead screw 31, the upper end of the second moving block 37 is fixedly provided with a polishing mechanism 30, and the side end of the connecting plate 35 is fixedly provided with a scraping mechanism 39; when the composite heat preservation pipe is fixed by the fixing device 2, the composite heat preservation pipe is controlled to rotate through the driving motor 27, then the screw rod motor 32 is started, the output end of the screw rod motor 32 drives the sliding screw rod 31 to rotate, the sliding screw rod 31 rotates to drive the first moving block 34 and the second moving block 37 to move synchronously, when the first moving block 34 and the second moving block 37 move synchronously, the cutting mechanism 38 on the first moving block 34 cuts the heat preservation layer on the surface of the composite heat preservation pipe, then the heat preservation layer on the surface of the composite heat preservation pipe is scraped through the scraping mechanism 39, and finally the surface of the composite heat preservation pipe is polished through the polishing mechanism 30.

The cutting mechanism 38 comprises a moving rod 381, an adjusting threaded rod 382, an auxiliary rod 383, a cutting knife 384, a wedge-shaped rod 385, a wedge-shaped block 386, a cutting spring rod 387, 21274, the shape block 36 is of a hollow structure, the middle of the shape block 36 is in threaded connection with the adjusting threaded rod 382, one end, close to the Contraband shape block 36, of the adjusting threaded rod 382 is fixedly provided with the auxiliary rod 383, the auxiliary rod 383 is arranged to penetrate through the Contraband shape block 36 in a sliding mode, one end, far away from the adjusting threaded rod 382, of the auxiliary rod 383 is fixedly provided with the cutting knife 384, the position, located inside the Contraband shape block 36, of the auxiliary rod 383 is fixedly connected with the moving rod 381, the 212747474747474, the upper end and the lower end, far away from the moving rod 381, of the wedge-shaped rod 385 are provided with symmetrical wedge-shaped rods 385 in a sliding mode, one end, far away from the moving rod 381, of the cutting spring rod 387, is fixedly arranged on the inner wall of the Contraband shape block 387, one end, close to the adjusting threaded rod 382, is abutted against the wedge-shaped block 386, the wedge block 386 is arranged by sliding penetrating the Contraband-shaped block 36, a telescopic spring is connected between the wedge block 386 and the v-21274, and a cutting knife 384 is fixedly arranged at one end of the wedge block 386 far away from the Contraband-shaped block 36; the cutting tools 384 arranged on the cutting mechanism 38 move synchronously and have the same moving distance, when in specific work, the cutting tools 384 are required to be abutted against the heat-insulating layer on the surface of the composite heat-insulating pipe before cutting, so that the adjusting threaded rod 382 is rotated, the adjusting threaded rod 382 drives the cutting tools 384 to move towards the direction of the composite heat-insulating pipe through the auxiliary rod 383, the auxiliary rod 383 drives the moving rod 381 to move synchronously when moving, then the moving rod 381 presses the wedge rod 385, the wedge rod 385 presses the wedge block 386, the wedge block 386 drives the cutting tools 384 to move towards the direction of the composite heat-insulating pipe synchronously, so that the cutting tools 384 are arranged on the heat-insulating layer on the surface of the composite heat-insulating pipe in three directions, finally, the heat-insulating layer on the surface of the composite heat-insulating pipe is cut through the cutting tools 384, and the cutting mechanism 38 mainly has the function of cutting the heat-insulating layer on the surface of the composite heat-insulating pipe in multiple directions through the cutting tools 384, thereby fall into the polylith with the heat preservation on compound incubation pipe surface, the in-process of being convenient for follow-up striking off mechanism 39 can guarantee that the heat preservation on compound incubation pipe surface drops fast to further efficiency that the heat preservation on compound incubation pipe surface was dismantled is improved, the integrality of dismantling is further guaranteed simultaneously.

The scraping mechanism 39 comprises a square frame 391, an adjusting rod 392, a clamping plate 393, a scraping rod 394, a scraping knife 395, an adjusting plate 396, a guide rod 397 and a centering spring rod 398, the side end of the connecting plate 35 is fixedly provided with the square frame 391, the inner side of the square frame 391 is provided with the symmetrical adjusting rod 392 in a sliding manner, one end of the adjusting rod 392 far away from the square frame 391 is fixedly provided with the clamping plate 393, one side of the upper end of the clamping plate 393 close to Contraband-shaped blocks 394 is fixedly provided with the scraping knife 395 through the scraping rod 394, the middle part of the square frame 391 is fixedly provided with the adjusting plate 396, one end of the adjusting plate 396 far away from the square frame 391 is symmetrically provided with the centering spring rod 398, one end of the centering spring rod 398 far away from the adjusting plate 396 is fixedly connected with the adjusting rod 392; a triangular guide block 399 is fixedly arranged at one end of the lower end of the clamping plate 393 close to the clip frame 391;

when the cutting mechanism 38 cuts along the direction of the sliding screw rod 31, the scraping mechanism 39 behind the cutting mechanism 38 scrapes the heat insulation layer on the surface of the cut composite heat insulation pipe, firstly, when the arc frame moves synchronously along with the connecting plate 35, the triangular guide block 399 fixedly connected with the lower end of the clamping plate 393 moves synchronously along with the arc frame, when the triangular guide block 399 moves to the guide rod 397, the triangular guide block 399 abuts against the guide rod 397, when the triangular guide block 399 continues to move forwards, the triangular guide block 399 is extruded by the symmetrical guide rods 397, so that the triangular guide block 399 is ensured to synchronously contract inwards under the action of the centered spring rod 398, then the triangular guide block 399 abuts against the inner side of the guide rod 397, and meanwhile, the triangular guide block 399 drives the clamping plate 393 to synchronously move inwards, so that the clamping plate 393 drives the scraping knife 395 to move inwards further, the scraping knife 395 is of a semicircular structure and is in a trapezoid shape, when the symmetrical scraping knife 395 is combined into a whole, the left end of the scraping knife 395 is tightly abutted against the heat-insulating layer on the surface of the composite heat-insulating pipe, and then the scraping knife 395 scrapes the heat-insulating layer on the surface of the cut composite heat-insulating pipe under the movement of the first moving block 34.

The polishing mechanism 30 comprises a mounting plate 301, an execution plate 302, a rotary threaded rod 303, a mounting block 304, an arc-shaped plate 305, a first guide telescopic rod 306, a cylindrical block 307, a placing block 308, a second guide telescopic rod 309 and a fastening component 300, wherein the mounting plate 301 is fixedly mounted at the upper end of a second moving block 37, the execution plate 302 is symmetrically and slidably arranged at the upper end of the mounting plate 301, the rotary threaded rod 303 is rotatably connected at the lower side end of the execution plate 302, the mounting block 304 is screwed on the rotary threaded rod 303, the mounting block 304 is fixedly arranged on the mounting plate 301, the arc-shaped plate 305 is fixedly mounted at the upper end of the execution plate 302, the first guide telescopic rod 306 is fixedly mounted at the upper end and the lower end of the arc-shaped plate 305, the placing block 308 is fixedly mounted at the opposite side of the arc-shaped plate 305, the second guide telescopic rods are symmetrically hinged at the upper end and the lower end of the placing block 308, the cylindrical blocks 307 are fixedly mounted on the first guide telescopic rod 306 and the second guide telescopic rod 309, the side end of the placing block 308 is provided with a fastening component 300; when the composite heat-insulating pipe surface heat-insulating layer scraping mechanism 39 is used for scraping the heat-insulating layer on the surface of the composite heat-insulating pipe, firstly, the rotary threaded rod 303 is rotated, the rotary threaded rod 303 drives the execution plate 302 to simultaneously move towards the direction of the composite heat-insulating pipe until the arc-shaped plate 305 and the polishing belt 312 on the upper arc-shaped plate 305 abut against the surface of the composite heat-insulating pipe, then, the whole polishing belt 312 is driven to move on the surface of the composite heat-insulating pipe through the movement of the second moving block 37, thereby ensuring that the polishing belt 312 polishes the rotating composite heat-insulating pipe, thereby polishing away the colloid remained on the surface of the composite heat-insulating pipe, thereby further improvement compound insulating tube processing's efficiency, guarantee simultaneously that compound insulating tube can the reutilization, No. one direction telescopic link 306 and No. two direction telescopic links 309 mainly play the effect of tensioning, guarantee through its own elasticity that polishing belt 312 can take place to warp after receiving the extrusion.

The fastening assembly 300 comprises a fastening block 310, a fastening threaded rod 311 and a polishing belt 312, wherein the fastening block 310 is fixedly installed at one end, away from the arc-shaped plate 305, of the placing block 308, a square groove is formed in the fastening block 310 in a penetrating mode, the fastening threaded rod 311 is arranged at one end, away from the placing block 308, of the fastening block 310 in a threaded mode, the polishing belt 312 penetrates through the square groove, and the polishing belt 312 is sleeved on the cylindrical block 307; during specific work, the fastening threaded rod 311 is rotated, and the polishing belt 312 is extruded through the fastening threaded rod 311, so that the polishing belt 312 is guaranteed to be extruded to abut against the inner side of the fastening block 310, the polishing belt 312 is prevented from rotating randomly during polishing, and polishing efficiency of the polishing belt 312 is further guaranteed.

In addition, the invention also provides an automatic processing method for the production and the manufacture of the composite heat-insulating pipe, which comprises the following steps:

s1, fixing the product: the composite heat-insulation pipe is manually placed on the fixing rod 24, then the limiting block 26 is inserted into the clamping groove 25, the limiting block 26 is enabled to abut against the side face of the composite heat-insulation pipe, then the limiting threaded rod 291 is rotated, the limiting threaded rod 291 drives the trapezoidal block 293 to extrude the fixing rod 24 through the limiting plate 292, the fixing rod 24 is enabled to abut against the outer edge of the trapezoidal block 293, the fixing rod 24 is further enabled to support the composite heat-insulation pipe internally, and the composite heat-insulation pipe is further enabled to rotate synchronously along with the driving motor 27;

s2, cutting the product: the adjusting threaded rod 382 is rotated, the wedge-shaped rod 385 and the wedge-shaped block 386 are extruded mutually through the movement of the adjusting threaded rod 382, so that the cutting knife 384 is enabled to abut against the heat-insulating layer on the surface of the composite heat-insulating pipe at the same time, then the heat-insulating layer on the surface of the composite heat-insulating pipe is ensured to be cut uniformly by the cutting knife 384 through the movement of the first moving block 34 and the rotation of the composite heat-insulating pipe, and then the position of the scraping knife 395 is adjusted through the guide rod 397 and the triangular guide block 399, so that the scraping knife 395 is enabled to be tightly attached to the surface of the composite heat-insulating pipe and scrapes the cut heat-insulating layer on the surface of the composite heat-insulating pipe;

s3, polishing the product: after the heat-insulating layer on the surface of the composite heat-insulating pipe is scraped, the rotary threaded rod 303 is rotated, the grinding belt 312 is driven by the rotary threaded rod 303 to move inwards at the same time, so that the grinding belt 312 is attached to the surface of the composite heat-insulating pipe, and then the surface of the composite heat-insulating pipe is ground by the grinding belt 312 through the rotation of the composite heat-insulating pipe, so that the residual glue solution on the surface of the composite heat-insulating pipe is completely ground by the grinding belt 312;

s4, product collection: and inspecting the ground composite heat-insulating pipes, and uniformly collecting the qualified composite heat-insulating pipes.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an automatic processing machinery is made in production of compound incubation pipe, includes bottom plate (1), fixing device (2) and cutting device (3), its characterized in that: the bottom plate (1) is provided with a fixing device (2), and the fixing device (2) is provided with a cutting device (3);

the cutting device (3) comprises a sliding screw rod (31), a screw rod motor (32), a vertical plate (33), a first moving block (34), a connecting plate (35), a lifting 21274, a shaped block (36), a second moving block (37), a cutting mechanism (38), a scraping mechanism (39) and a polishing mechanism (30), wherein the vertical plate (33) is symmetrically and fixedly installed on the bottom plate (1), the sliding screw rod (31) is rotatably arranged on one side of the vertical plate (33) opposite to the lower end, the side end of the sliding screw rod (31) is connected with the output end of the screw rod motor (32), the screw rod motor (32) is fixedly installed at the side end of the vertical plate (33), the first moving block (34) is screwed on the sliding screw rod (31), the connecting plate (35) is fixedly installed at the upper end of the first moving block (34), the Contraband (36) is fixedly installed at the upper end of the connecting plate (35), the lifting 21274is arranged on the shaped block (36), a second moving block (37) is screwed on the sliding screw rod (31), a polishing mechanism (30) is fixedly arranged at the upper end of the second moving block (37), and a scraping mechanism (39) is fixedly arranged at the side end of the connecting plate (35);

the fixing device (2) comprises a circular frame (21), a fixing block (22), a moving groove (23), a fixing rod (24), a clamping groove (25), a limiting block (26), a driving motor (27), a supporting spring rod (28) and a limiting module (29), wherein the circular frame (21) is rotatably arranged on one side, opposite to the upper end, of a vertical plate (33), the fixing block (22) is fixedly arranged on the inner side of the circular frame (21), the moving groove (23) is uniformly formed in the fixing block (22) in a penetrating mode along the direction of a central line, the fixing rod (24) is slidably arranged in the moving groove (23), the supporting spring rod (28) is connected to the opposite side of the fixing rod (24), the supporting spring rod (28) is fixed inside the fixing block (22), the clamping grooves (25) are formed in the opposite side of the fixing rod (24) at equal intervals, the limiting blocks (26) are clamped in the clamping grooves (25), and the outer side of the upper end of the vertical plate (33) is fixedly provided with the driving motor (27), the output end of the driving motor (27) rotates to penetrate through the vertical plate (33) and is connected with the circular frame (21), and a limiting module (29) is arranged at one end, close to the circular frame (21), of the fixing rod (24).

2. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe according to claim 1, characterized in that: the cutting mechanism (38) comprises a moving rod (381), an adjusting threaded rod (382), an auxiliary rod (383), a cutting knife (384), a wedge rod (385), a wedge block (386) and a cutting spring rod (387), the Contraband-shaped block (36) is of a hollow structure, the adjusting threaded rod (382) is screwed in the middle of the Contraband-shaped block (36), the auxiliary rod (383) is fixedly installed at one end, close to the Contraband-shaped block (36), of the adjusting threaded rod (382), the auxiliary rod (383) penetrates through the Contraband-shaped block (36) in a sliding mode, the cutting knife (384) is fixedly installed at one end, far away from the adjusting threaded rod (382), of the auxiliary rod (383), the moving rod (381) is fixedly connected at the position inside the Contraband-shaped block (36), the '\\\ 21274', symmetrical wedge rods (385) are arranged at the upper end and the lower end inside the shape block (36) in a sliding mode, one end, far away from the moving rod (381), of the wedge rod (385) is connected with the cutting spring rod (387), the cutting spring rod (387) is fixedly installed on the inner wall of the Contraband-shaped block (36), one end, close to the adjusting threaded rod (382), of the wedge-shaped rod (385) abuts against the wedge-shaped block (386), the wedge-shaped block (386) penetrates through the Contraband-shaped block (36) in a sliding mode, a telescopic spring is connected between the wedge-shaped block (386) and the Contraband-shaped block (36), and one end, far away from the Contraband-shaped block (36), of the wedge-shaped block (386) is fixedly provided with a cutting knife (384).

3. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe according to claim 2, characterized in that: the scraping mechanism (39) comprises a clip frame (391), an adjusting rod (392), a clamping plate (393), a scraping rod (394), a scraping knife (395), an adjusting plate (396), a guide rod (397) and a centering spring rod (398), wherein the clip frame (391) is fixedly installed at the side end of the connecting plate (35), the symmetrical adjusting rod (392) is arranged on the inner side of the clip frame (391) in a sliding mode, the clamping plate (393) is fixedly installed at one end, far away from the clip frame (391), of the adjusting rod (392), the scraping knife (395) is fixedly installed at one side, close to an Contraband-shaped block (36), of the upper end of the clamping plate (393) through the scraping rod (394), an adjusting plate (396) is fixedly installed in the middle of the clip frame (391), the centering spring rod (398) is symmetrically installed at one end, far away from the clip frame (391), of the centering spring rod (398) and the adjusting rod (392) are fixedly connected, symmetrical guide rods (397) are fixedly mounted on one side of the vertical plate (33).

4. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe according to claim 1, characterized in that: the polishing mechanism (30) comprises a mounting plate (301), an execution plate (302), a rotary threaded rod (303), a mounting block (304), an arc-shaped plate (305), a first guide telescopic rod (306), a cylindrical block (307), a placing block (308), a second guide telescopic rod (309) and a fastening assembly (300), wherein the mounting plate (301) is fixedly mounted at the upper end of the second movable block (37), the execution plate (302) is symmetrically and slidably arranged at the upper end of the mounting plate (301), the rotary threaded rod (303) is rotatably connected to the lower side end of the execution plate (302), the mounting block (304) is screwed on the rotary threaded rod (303), the mounting block (304) is fixedly arranged on the mounting plate (301), the arc-shaped plate (305) is fixedly mounted at the upper end of the execution plate (302), the first guide telescopic rod (306) is fixedly mounted at the upper end and the lower end of the arc-shaped plate (305), the placing block (308) is fixedly mounted at the opposite sides of the arc-shaped plate (305), the upper end and the lower end of the placing block (308) are symmetrically hinged with a second guiding telescopic rod (309), the first guiding telescopic rod (306) and the second guiding telescopic rod (309) are fixedly provided with cylindrical blocks (307), and the side end of the placing block (308) is provided with a fastening component (300).

5. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe as claimed in claim 4, wherein: fastening components (300) include fastening block (310), fastening threaded rod (311) and polishing area (312), place the one end fixed mounting that arc (305) were kept away from to piece (308) and have fastening block (310), run through on fastening block (310) and seted up square groove, the one end spiro union that placing piece (308) was kept away from in fastening block (310) is provided with fastening threaded rod (311), the area (312) of polishing is worn to be equipped with in the inside of square groove, and the area (312) of polishing is established on cylinder piece (307).

6. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe according to claim 1, characterized in that: spacing module (29) are including limit threaded rod (291), limiting plate (292), trapezoidal piece (293) and fixed plate (294), the upper end of circular frame (21) is run through and has been seted up the spacing groove, the inside slip of spacing groove is provided with limiting plate (292), the lower extreme of limiting plate (292) is connected with trapezoidal piece (293), the one end and dead lever (24) of keeping away from limiting plate (292) of trapezoidal piece (293) are supported and are leaned on the setting, the upper end fixed mounting of circular frame (21) has fixed plate (294), spiro union has limit threaded rod (291) on fixed plate (294), the one end that fixed plate (294) were kept away from in limit threaded rod (291) rotates with limiting plate (292) and is connected.

7. The automatic processing machinery for producing and manufacturing the composite heat preservation pipe according to claim 3, characterized in that: and a triangular guide block (399) is fixedly arranged at one end of the lower end of the clamping plate (393) close to the clip frame (391).

8. The automatic processing machine for producing and manufacturing composite heat-insulating pipes according to claim 7, characterized in that: the automatic processing method for the production and the manufacture of the composite heat-insulating pipe by the automatic processing machine for the production and the manufacture of the composite heat-insulating pipe specifically comprises the following steps:

s1, fixing the product: the composite heat-insulating pipe is manually placed in the fixing device (2) for fixing;

s2, cutting the product: the heat-insulating layer on the surface of the composite heat-insulating pipe is cut through a cutting device (3), and then the cut heat-insulating layer is scraped through a scraping mechanism (39);

s3, polishing the product: after the heat-insulating layer on the surface of the composite heat-insulating pipe is scraped, polishing the residual glue solution on the surface of the composite heat-insulating pipe and scratches caused by cutting by using a polishing device;

s4, product collection: and inspecting the ground composite heat-insulating pipes, and uniformly collecting the qualified composite heat-insulating pipes.

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