CN112693107A - Equipment capable of tightly pasting polyethylene film on anti-corrosion pipeline - Google Patents

Abstract

The invention relates to equipment for pasting a polyethylene film, in particular to equipment capable of pasting the polyethylene film to an anticorrosive pipeline tightly, which comprises a square mounting plate, a long plate, a polyethylene film pasting mechanism, a polyethylene film ironing and shrinking mechanism and the like; the long plate is installed to square mounting panel bilateral symmetry, and the mechanism is posted to the polyethylene film is located on the square mounting panel, and the polyethylene film scalds the mechanism that contracts to square mounting panel one side is installed. Through the heating of high temperature heating strip release heat to the polyethylene film, the gear ring drives rotatory support cover and device on it through the swivel mount for the high temperature heating strip rotates thereupon, makes the polyethylene film surface that anticorrosive pipeline posted evenly scalded and contracts, and polyethylene film can effectively be posted to anticorrosive pipeline fully in mutually supporting of high-speed anticlockwise pivoted gear ring and slow pivoted rotatory drive roller.

Description

Equipment capable of tightly pasting polyethylene film on anti-corrosion pipeline

Technical Field

The invention relates to equipment for pasting a polyethylene film, in particular to equipment capable of tightly pasting the polyethylene film on an anticorrosive pipeline.

Background

The polyethylene film is mainly applied to the outer surface corrosion prevention of metal pipelines such as water supply and drainage and gas transmission in petroleum and natural gas transmission, chemical engineering and urban construction, has thicker glue layer, can resist the shelling phenomenon caused by expansion with heat and contraction with cold of the pipelines, has the characteristics of good insulativity, excellent corrosion prevention effect, collision resistance, aging resistance, convenient construction, long service life and the like, and is more and more widely used at present.

According to the prior invention patent, the publication number is CN210590575U, the polyethylene film is convenient to paste on the anti-corrosion pipeline, the main defect is that the pasted polyethylene film is not tightly attached to the anti-corrosion pipeline, and the anti-corrosion pipeline is easy to fall off through long-time contact with air after the polyethylene film is pasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide equipment which can quickly and comprehensively paste a polyethylene film on an anticorrosive pipeline tightly, so that the polyethylene film pasted on the anticorrosive pipeline is not easy to fall off and the polyethylene film can be pasted on the anticorrosive pipeline tightly.

The technical implementation scheme of the invention is as follows: the utility model provides an equipment that can closely put up polyethylene film to anticorrosive pipeline, including square mounting panel, long slab, polyethylene film posting mechanism, polyethylene film scald contract mechanism, speed reduction actuating mechanism and anticorrosive pipeline actuating mechanism, the long slab is installed to square mounting panel bilateral symmetry, and polyethylene film posts the mechanism and locates on the square mounting panel, and square mounting panel one side is installed the polyethylene film and is scalded contract the mechanism, and speed reduction actuating mechanism installs in square mounting panel lower part, installs anticorrosive pipeline actuating mechanism on two long slabs.

Optionally, mechanism is put up to polyethylene film is including the swivel sleeve, the ring gear, first drive shaft, the path gear, polyethylene winding up roller and servo motor, square mounting panel central authorities rotary type is connected with the swivel sleeve, swivel sleeve one side is equipped with the ring gear, square mounting panel distributed rotary type all around is connected with first drive shaft, the rigid coupling has the path gear in the first drive shaft, intermeshing between path gear and the ring gear, be equipped with the polyethylene winding up roller on ring gear one side, servo motor installs in square mounting panel one side upper portion, the servo motor output shaft is connected with a first drive shaft one end transmission.

Optionally, the polyethylene film ironing and shrinking mechanism comprises a power supply ring, a rotary support sleeve and a high-temperature heating strip, the power supply ring is arranged on one side of the square mounting plate, the rotary support sleeve is arranged on the rotary sleeve, the rotary support sleeve is in sliding contact with the power supply ring, and the high-temperature heating strip is arranged in the rotary support sleeve in a distributed mode.

Optionally, the speed reduction driving mechanism comprises a first supporting seat, a second driving shaft, a worm wheel, a second supporting seat and a worm, the first supporting seat is fixedly connected to the bottom end of the square mounting plate, the second driving shaft is rotatably connected to the first supporting seat, one end of the second driving shaft is connected with the worm wheel, the second supporting seat is fixedly connected to the lower portion of one side of the square mounting plate, the worm is connected between one end of the second supporting seat and the first driving shaft, and the worm is meshed with the worm wheel.

Optionally, the anticorrosive pipeline driving mechanism comprises a rotary driving roller, a chain wheel, a chain, a belt pulley and a flat belt, the rotary driving roller is connected between the long plates on two sides of the square mounting plate in a distributed manner, one end of the rotary driving roller is connected with the chain wheel, the chain wheels are connected with each other through the chain, the belt pulley is fixedly connected to one end of the second driving shaft, the belt pulley is also arranged on one chain wheel, and the two belt pulleys are connected with each other through the flat belt.

Optionally, the square mounting plate further comprises guide plates, and the guide plates are symmetrically and fixedly connected to the top surfaces of the long plates on the two sides of the square mounting plate.

Optionally, the device further comprises a guide wheel, wherein a clamping groove is formed in the guide plate, and the guide wheel is arranged in the clamping groove in a distributed mode.

The invention has the beneficial effects that: through mutually supporting of high-speed anticlockwise pivoted ring gear and slow pivoted rotary drive roller, can effectively paste up the polyethylene film fully to the anticorrosive pipeline.

Through high temperature heating strip release heat to the polyethylene film heating, the gear ring drives rotatory support cover and last device through the swivel mount to rotate for high temperature heating strip rotates thereupon, makes the polyethylene film surface that anticorrosive pipeline posted evenly scalded and contracts.

The deflector is used for carrying out limiting displacement to anticorrosive pipeline, avoids it to receive the exogenic action and takes place the offset, causes anticorrosive pipeline to post the incomplete face of polyethylene film irregular.

Through the leading wheel, reduce the friction between anticorrosive pipeline and the leading wheel, the anticorrosive pipeline of being convenient for moves steadily under the drive of rotatory drive roller.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of the polyethylene film sticking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the polyethylene film ironing and shrinking mechanism of the present invention.

Fig. 6 is a schematic perspective view of the deceleration driving mechanism according to the present invention.

Fig. 7 is a schematic perspective view of the anticorrosion pipeline driving mechanism of the invention.

Fig. 8 is a schematic perspective view of the guide plate and the guide wheel of the present invention.

The meaning of the reference symbols in the figures: 1: square mounting plate, 2: long plate, 3: polyethylene film sticking mechanism, 301: rotating sleeve, 302: gear ring, 303: first drive shaft, 304: small-diameter gear, 305: polyethylene roll, 306: servo motor, 4: polyethylene film scalds mechanism that contracts, 401: power supply ring, 402: rotary support sleeve, 403: high-temperature heating strip, 5: deceleration drive mechanism, 501: first support seat, 502: second drive shaft, 503: worm gear, 504: second support seat, 505: worm, 6: anticorrosive pipeline actuating mechanism, 601: rotating drive roller, 602: sprocket, 603: chain, 604: pulley, 605: flat belt, 7: guide plate, 8: a guide wheel.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides an equipment that can closely put up polyethylene film to anticorrosive pipeline, as shown in fig. 1-8, including square mounting panel 1, long slab 2, mechanism 3 is puted up to the polyethylene film, polyethylene film scalds contract mechanism 4, speed reduction actuating mechanism 5 and anticorrosive pipeline actuating mechanism 6, long slab 2 is installed to square mounting panel 1 bilateral symmetry, mechanism 3 rotary type is put up to the polyethylene film is connected on square mounting panel 1, keep away from square mounting panel 1 one side that mechanism 3 was puted up to the polyethylene film and install polyethylene film and scald contract mechanism 4, polyethylene film scalds contract mechanism 4 and is used for evenly scalding the polyethylene film surface of putting up the anticorrosive pipeline and contract, speed reduction actuating mechanism 5 installs in square mounting panel 1 lower part, speed reduction actuating mechanism 5 is used for making swivelling drive roller slow motion, install anticorrosive pipeline actuating mechanism 6 on two long slabs 2.

Mechanism 3 is puted up to polyethylene film is including rotatory cover 301, gear ring 302, first drive shaft 303, path gear 304, polyethylene winding up roller 305 and servo motor 306, 1 central rotary type of square mounting panel is connected with rotatory cover 301, the rigid coupling of 301 one side of rotatory cover has gear ring 302, square mounting panel 1 distributed rotary type all around is connected with first drive shaft 303, the rigid coupling has path gear 304 on the first drive shaft 303, intermeshing between path gear 304 and the gear ring 302, the rigid coupling has polyethylene winding up roller 305 on gear ring 302 one side, polyethylene winding up roller 305 is used for puting up the polyethylene film to anticorrosive pipeline, keep away from 1 one side upper portion of square mounting panel of gear ring 302 and install servo motor 306 that is used for the starting equipment, servo motor 306 output shaft and the first drive shaft 303 one end transmission of a department are connected.

Polyethylene film scalds shrink mechanism 4 including power supply ring 401, rotary support cover 402 and high temperature heating strip 403, keep away from square mounting panel 1 one side of gear ring 302 and install the power supply ring 401 that is used for supplying power for high temperature heating strip 403, rotary support cover 402 is installed on rotary cover 301, rotary support cover 402 and power supply ring 401 sliding type contact, the distributed rigid coupling has high temperature heating strip 403 in the rotary support cover 402, high temperature heating strip 403 is used for releasing the heat to the polyethylene film heating.

The speed reduction driving mechanism 5 comprises a first supporting seat 501, a second driving shaft 502, a worm wheel 503, a second supporting seat 504 and a worm 505, the bottom end of the square mounting plate 1 far away from the servo motor 306 is fixedly connected with the first supporting seat 501 for fixing the worm wheel 503, the first supporting seat 501 is rotatably connected with the second driving shaft 502, one end of the second driving shaft 502 is connected with the worm wheel 503, the lower part of one side of the square mounting plate 1 close to the first supporting seat 501 is fixedly connected with the second supporting seat 504, one end of the second supporting seat 504 far away from the square mounting plate 1 is connected with the worm 505 between the first driving shaft 303, the worm 505 is meshed with the worm wheel 503, and the worm drives the worm wheel to perform slow speed.

Anticorrosive pipeline actuating mechanism 6 is including rotatory drive roller 601, sprocket 602, the chain 603, belt pulley 604 and flat belt 605, the distributed rotation is connected with the rotatory drive roller 601 that is used for driving anticorrosive pipeline removal between the long board 2 of square mounting panel 1 both sides, rotatory drive roller 601 one end is connected with sprocket 602, connect through chain 603 between the sprocket 602, chain 603 is used for driving sprocket 602 to rotate, the second drive shaft 502 one end rigid coupling that keeps away from worm wheel 503 has belt pulley 604, one of them is equipped with belt pulley 604 on being close to the sprocket 602 of rotary support cover 402 equally, connect through flat belt 605 between two belt pulleys 604.

When a polyethylene film needs to be pasted on an anticorrosive pipeline, a user puts the anticorrosive pipeline needing to be pasted with the polyethylene film on the rotary driving roller 601, the servo motor 306 is manually started, the servo motor 306 drives the small-diameter gear 304 on the first driving shaft 303 to rotate clockwise through the output shaft, the gear ring 302 rotates anticlockwise through the meshing between the small-diameter gear 304 and the gear ring 302, so that the polyethylene winding roller 305 on the gear ring 302 is driven to rotate, the polyethylene film on the polyethylene winding roller 305 is pasted on the anticorrosive pipeline, the gear ring 302 rotates anticlockwise to drive the small-diameter gear 304 below the square mounting plate 1 to rotate clockwise, the worm 505 rotates clockwise through the first driving shaft 303, the worm 505 drives the worm wheel 503 and the upper device thereof to slow down and slowly rotate anticlockwise, the belt pulley 604 on the lower side drives the upper belt pulley 604 and the upper device thereof to slowly rotate anticlockwise through the flat belt 605, make sprocket 602 on the belt pulley 604 drive chain 603 and the last device anticlockwise slow motion, anticorrosive pipeline is towards being close to worm wheel 503 direction slow movement, cooperation each other through high-speed anticlockwise pivoted gear ring 302 and slow pivoted rotary drive roller 601, polyethylene film can be puted up to anticorrosive pipeline effectively fully, heat is heated polyethylene film through high temperature heating strip 403 release, gear ring 302 passes through swivel mount 301 and drives rotatory support cover 402 and the last device rotation, make high temperature heating strip 403 rotate along with it, make the polyethylene film surface that anticorrosive pipeline was posted evenly scalded and contract, further realize closely posting the purpose with polyethylene film, when having posted polyethylene film to anticorrosive pipeline, user's manual servo motor 306 that closes, make equipment stop operation.

Example 2

On the basis of embodiment 1, as shown in fig. 2, the anti-corrosion pipeline installation structure further comprises guide plates 7, wherein the guide plates 7 are symmetrically and fixedly connected to the top surfaces of the long plates 2 on the two sides of the square installation plate 1, and the guide plates 7 are used for limiting the anti-corrosion pipeline.

When anticorrosive pipeline slowly moved towards worm wheel 503 direction, deflector 7 on the long board 2 was used for carrying out limiting displacement to anticorrosive pipeline, avoided it to receive the exogenic action and take place the offset, caused anticorrosive pipeline to post the polyethylene membrane not totally unordered.

Example 3

On the basis of embodiment 2, as shown in fig. 8, the corrosion-resistant pipeline protection device further comprises a guide wheel 8, a clamping groove is formed in the guide plate 7 far away from the long plate 2, the guide wheels 8 are distributed in the clamping groove, and when the guide wheel 8 is used for being in contact with the corrosion-resistant pipeline, friction between the corrosion-resistant pipeline and the guide wheel 8 is reduced.

When anticorrosive pipeline slowly moved towards worm wheel 503 direction, it has the draw-in groove to open on the deflector 7, and leading wheel 8 in the draw-in groove makes the friction reduction between anticorrosive pipeline and the leading wheel 8 with anticorrosive pipeline contact, and the anticorrosive pipeline of being convenient for steadily moves under the drive of rotatory drive roller 601.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (7)

1. The utility model provides a can closely put up equipment of polyethylene film to anticorrosive pipeline, characterized by: put up mechanism, polyethylene film boiling hot shrink mechanism, speed reduction actuating mechanism and anticorrosive pipeline actuating mechanism including square mounting panel, long board, polyethylene film, the long board is installed to square mounting panel bilateral symmetry, and the mechanism is put up to the polyethylene film on locating square mounting panel, and square mounting panel one side is installed the polyethylene film and is scalded the mechanism that contracts, and speed reduction actuating mechanism installs in square mounting panel lower part, installs anticorrosive pipeline actuating mechanism on two long boards.

2. The apparatus of claim 1, wherein the apparatus is adapted to tightly stick the polyethylene film to the anti-corrosive pipeline, and further comprises: mechanism is put up to polyethylene film is including the swivel housing, the gear ring, first drive shaft, the path gear, polyethylene winding up roller and servo motor, square mounting panel central authorities rotary type is connected with the swivel housing, swivel housing one side is equipped with the gear ring, square mounting panel distributed rotary type all around is connected with first drive shaft, the rigid coupling has the path gear in the first drive shaft, intermeshing between path gear and the gear ring, be equipped with the polyethylene winding up roller on gear ring one side, servo motor installs in square mounting panel one side upper portion, servo motor output shaft and the transmission of a first drive shaft one end are connected.

3. The apparatus of claim 2, wherein the apparatus is adapted to tightly stick the polyethylene film to the anti-corrosive pipeline, and further comprises: polyethylene membrane scalds shrink mechanism is equipped with the power supply ring including power supply ring, rotary support cover and high temperature heating strip, square mounting panel one side, and the rotary support cover is installed in the rotary support and is sheathe in, and the rotary support cover is equipped with the high temperature heating strip with power supply ring slidingtype contact, the interior distributing type of rotary support cover.

4. The apparatus of claim 3, wherein the apparatus is further characterized in that: the speed reduction driving mechanism comprises a first supporting seat, a second driving shaft, a worm wheel, a second supporting seat and a worm, the bottom end of the square mounting plate is fixedly connected with the first supporting seat, the first supporting seat is rotatably connected with the second driving shaft, one end of the second driving shaft is connected with the worm wheel, the second supporting seat is fixedly connected to the lower portion of one side of the square mounting plate, the worm is connected between one end of the second supporting seat and the first driving shaft, and the worm is meshed with the worm wheel.

5. The apparatus of claim 4, wherein the apparatus is further characterized in that: anticorrosive pipeline actuating mechanism is including rotatory drive roller, sprocket, chain, belt pulley and flat belt, and the distributing type rotates between the long slab of square mounting panel both sides to be connected with rotatory drive roller, and rotatory drive roller one end is connected with the sprocket, connects through the chain between the sprocket, and second drive shaft one end rigid coupling has the belt pulley, and one of them is equipped with the belt pulley on the sprocket equally, connects through flat belt between two belt pulleys.

6. The apparatus of claim 5, wherein the apparatus is further characterized in that: the square mounting plate is characterized by further comprising guide plates, wherein the guide plates are symmetrically and fixedly connected to the top surfaces of the long plates on the two sides of the square mounting plate.

7. The apparatus of claim 6, wherein the apparatus comprises: the guide wheel is further included, a clamping groove is formed in the guide plate, and the guide wheels are arranged in the clamping groove in a distributed mode.

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