CN115179566B

CN115179566B - Glass fiber reinforced plastic pipeline manufacturing device

Info

Publication number: CN115179566B
Application number: CN202210821826.9A
Authority: CN
Inventors: 王家昌
Original assignee: Jiangsu Longke Environmental Protection Equipment Manufacturing Co ltd
Current assignee: Jiangsu Longke Environmental Protection Equipment Manufacturing Co ltd
Priority date: 2022-07-13
Filing date: 2022-07-13
Publication date: 2023-08-01
Anticipated expiration: 2042-07-13
Also published as: CN115179566A

Abstract

The invention relates to the technical field of glass fiber reinforced plastic pipeline manufacturing, in particular to a glass fiber reinforced plastic pipeline manufacturing device which comprises a bottom plate, wherein two ends of the bottom plate are fixedly connected with side plates, one side of the bottom plate is fixedly connected with a collecting box, the top end of the collecting box is provided with a mold core, one end of the mold core is connected with a rotating piece in a sliding manner, one end of the rotating piece is fixedly connected with a first gear, the bottom ends of one group of side plates are provided with a first servo motor, one end of a first threaded rod is fixedly connected with a rotating hand, the other end of the first threaded rod is connected with a supporting piece through a bearing, and two ends of the moving block are provided with a discharging mechanism. The device can automatically wind and smear materials without manual winding and smearing materials, thereby greatly reducing the workload of users, reducing the fatigue of users, saving the working time of users, improving the working efficiency of users, further saving the production cost of users and improving the production benefit.

Description

Glass fiber reinforced plastic pipeline manufacturing device

Technical Field

The invention relates to the technical field of glass fiber reinforced plastic pipeline manufacturing, in particular to a glass fiber reinforced plastic pipeline manufacturing device.

Background

The glass fiber reinforced plastic pipeline is a light, high-strength and corrosion-resistant nonmetallic pipeline, glass fiber with resin matrix weight is wound on a rotary core mould layer by layer according to the technological requirements, quartz sand is uniformly paved between the fibers in a long distance as a sand inclusion layer, the pipe wall structure is reasonable and advanced, the effect of materials can be fully exerted, the rigidity is improved under the premise of meeting the use strength, the stability and the reliability of products are ensured, the glass fiber reinforced plastic pipeline in China is fast in production development, the number grows year by year, the application range and departments are wider and wider, part of small glass fiber reinforced plastic pipeline is formed by winding a plastic film on the core mould, then coating resin, winding polyester felt, then coating resin, winding knitting felt, then coating resin, winding grid cloth, then curing, winding alkali-free glass fiber yarns, and finally carrying out calendaring;

at present, the production device of the small glass fiber reinforced plastic pipeline in the market is characterized in that the production device is wound and coated with materials manually, so that the workload of a user is huge, the efficiency is quite low in a manual mode, and the production cost of the user is increased.

Disclosure of Invention

The invention aims to provide a glass fiber reinforced plastic pipeline manufacturing device, which solves the problems that the workload of a user is huge and the production cost of the user is increased due to the fact that the production device for part of small glass fiber reinforced plastic pipelines is manually wound and coated with materials, and the production cost of the user is quite low in a manual mode.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a glass steel pipeline manufacturing installation, includes the bottom plate, the both ends of bottom plate are all fixedly connected with curb plate, one side fixedly connected with collecting box of bottom plate, the top of collecting box is provided with the mold core, the one end sliding connection of mold core has changeing the piece, and the one end of changeing the piece runs through a set of curb plate, the one end fixedly connected with first gear of changeing the piece, a set of the bottom of curb plate is provided with first servo motor, the output fixedly connected with second gear of first servo motor, a set of one side of curb plate is provided with the toothed belt, a set of first screw hole has been seted up to the one end of bottom plate, the inside rotation of first screw hole is connected with first threaded rod, the one end fixedly connected with of first threaded rod changes the hand, the other end of first threaded rod is connected with the support piece through the bearing, and the one end sliding connection of support piece, the one end of bottom plate is provided with the movable block, two sets of spouts have been seted up to one side of bottom plate, the inside all sliding connection of spout has the slider, and the bottom all is connected with the movable block's bottom fixedly with the second gear, a set of second screw rod and the second threaded rod has the second threaded rod to pass through the inside the second threaded rod and the second threaded rod is connected with the first end of second threaded rod.

Preferably, the control ends of the first servo motor and the second servo motor are electrically connected with an external power supply through an external switch, so that a user can conveniently control the device to work.

Preferably, the inner walls at two ends of the toothed belt are meshed with the first gear and the second gear, and one end of the second threaded rod is fixedly connected with a group of side plates through bearings, so that the device can work conveniently.

Preferably, the discharging mechanism comprises a material disc, a material roll, a moving groove, a machine bin, a third servo motor, a distance plate, a third threaded hole, a third threaded rod, a squeeze roller and a distance controller, wherein two groups of material discs are connected to two ends of the moving block through bearings, one end of the material roll is provided with the material roll, two groups of moving grooves are formed in two ends of the moving block, the inner wall of one end of the moving groove is provided with the machine bin, the third servo motor is arranged in the machine bin, one end of the moving groove is slidably connected with the distance plate, one end of the distance plate is provided with the third threaded hole, the output end of the third servo motor is fixedly connected with the third threaded rod, one end of the third threaded rod is connected with the inner wall of one end of the moving groove through a bearing, one end of the distance plate is connected with the squeeze roller through a bearing, the top end of the squeeze roller is attached to the material roll, one end of the distance plate is provided with the distance controller, the two ends of the distance plate are located at the two ends of the threaded rod are convenient to be clamped by the two ends of the device.

Preferably, the control ends of the distance controllers are electrically connected with an external power supply through external switches, and the control ends of the third servo motors are respectively connected with the distance controllers, so that the device can be controlled to work conveniently.

Preferably, the clamping mechanism comprises a fixed roller, a first movable groove, a first movable block, a first compression roller, a first movable plate, a first spring, a fourth threaded hole, a fourth threaded rod, a second movable groove, a second movable block, a second compression roller, a connecting groove, a second movable plate, a second spring, a fifth threaded hole and a fifth threaded rod, wherein the fixed rollers are connected with the two ends of the movable block through bearings, the fixed rollers are respectively positioned on one side of the material disc, the top ends of the movable block are provided with two groups of first movable grooves, the first movable blocks are connected with the first movable block in a sliding manner, one end of each first movable block is connected with the first compression roller through a bearing, the bottom ends of each first compression roller are respectively attached to the fixed roller, the top ends of each first movable block are respectively provided with the first movable plate, the bottom ends of each first movable block are respectively attached to the first threaded rod through the two ends of the second movable block, the top ends of each movable block are respectively attached to the second movable block through the inner wall of the second movable block, the top ends of each second movable block are respectively attached to the threaded rod through the two ends of the second movable block, the top ends of each second movable block are respectively attached to the threaded rod through the first movable block, the top ends of the first movable block are respectively connected with the threaded rod through the first movable block, the utility model discloses a material roll clamping device, including first fly leaf, second fly leaf, movable block, bearing, second fly leaf, movable block, first fly leaf, second fly leaf, first spring of one end all fixedly connected with, and the bottom of second spring all is with the top fixed connection of second fly leaf respectively, two sets of fifth screw holes have been seted up on the top of movable block, the inside of fifth screw hole all has the fifth threaded rod through threaded connection, and the bottom of fifth threaded rod all is connected with the one end of second fly leaf through the bearing, the one end of movable block is provided with feeding mechanism, the clamping material roll of being convenient for.

Preferably, the dimensions of the second movable grooves are respectively matched with the dimensions of the second movable blocks, the dimensions of the first movable grooves are respectively matched with the dimensions of the first movable blocks, and the matched dimensions facilitate the movement of the first movable blocks and the second movable blocks.

Preferably, the feeding mechanism comprises a discharging box, a metering pump, a first connecting pipe, a second connecting pipe, a connecting sleeve, a moving pipe, a collecting groove and a scraping plate, wherein the discharging box is arranged in the middle of the bottom plate, the metering pump is arranged at the top end of the discharging box, one end of the metering pump is connected with the first connecting pipe, the other end of the metering pump is connected with the second connecting pipe, one end of the second connecting pipe penetrates through the moving block, one end of the first connecting pipe is connected with the bottom end of the discharging box, one end of the moving block is connected with the connecting sleeve through a rotary sealing piece, one end of the second connecting pipe extends to the inside of the connecting sleeve, one end of the connecting sleeve is connected with the moving pipe through a thread, one end of the moving pipe is close to the mold core, the collecting groove is arranged in the middle of one end of the moving block, one end of the collecting groove is connected with the scraping plate in a sliding mode, one end of the scraping plate is close to the mold core, and the scraping plate is located at the bottom end of the moving pipe, and the top end of the scraping plate is fixedly connected with the moving pipe, and resin liquid is convenient to paint.

Preferably, the control end of the metering pump is electrically connected with an external power supply through an external switch, and one end of the moving pipe is flat, so that the device can work conveniently.

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

when the device is used by a user, the mold core is firstly hung between the side plates, one end of the rotating piece is inserted into the mold core, then the user rotates the rotating hand, the first threaded rod drives the abutting piece to move, one end of the abutting piece is inserted into one end of the mold core, the mold core is fixed, the user adds resin liquid into the discharging box, the user rotates the connecting sleeve to enable the moving pipe to extend out, the user enables one end of the moving pipe and one end of the scraping plate to be close to the mold core, then the user respectively covers various required material rolls at one end of the material disc, then the distance controller and the third servo motor are controlled to work, the distance controller is used for controlling the third servo motor to work, the distance between the distance plate and the material rolls is enabled to be in a fixed value, the extruding roller is enabled to be tightly attached with the material rolls all the time, the material rolls are fixed, and material rolls are prevented from being scattered due to loosening and rotation, one end of the material roll passes through the space between the first compression roller and the fixed roller and the space between the second compression roller and the fixed roller respectively, then the user rotates the fourth threaded rod and the fifth threaded rod respectively, at the moment, the first movable plate and the second movable plate move downwards respectively through the fourth threaded rod and the fifth threaded rod so as to compress the first spring and the second spring respectively, at the moment, the first movable block and the second movable block move downwards under the action of the resilience force of the first spring and the second spring, so as to drive the first compression roller and the second compression roller to move downwards, one end of the material roll is compressed through the first compression roller and the second compression roller, thus, when the mold core winds the material roll, the material roll is in a tightening state, the material roll is convenient to wind, the resin liquid lamination of the material roll is convenient, the user controls the first servo motor, the second servo motor and the third threaded rod to work, the first servo motor drives the rotating part to rotate through the second gear, the toothed belt and the first gear, the rotating part drives the mold core and the abutting part to rotate, the second servo motor drives the second threaded rod to rotate, the moving block is enabled to move through the second threaded rod, a user fixes the first layer of material roll at one end of the mold core, meanwhile, the output end of the second servo motor drives the second threaded rod to rotate, the moving block is enabled to move to one side close to the first threaded rod through the second threaded hole and the rotating second threaded rod, at the moment, the first layer of material roll is wound on the surface of the mold core, at the moment, resin liquid enters the inside of the connecting sleeve through the first connecting pipe, the metering pump and the second connecting pipe, the resin liquid is sprayed to the surface of the mold core through the moving pipe, the rotating mold core drives the resin liquid to rotate, at the moment, the resin liquid is scraped evenly through the scraping plate at the bottom end of the moving pipe, and the resin liquid is enabled to be smeared on the surface of the mold core, when the moving block moves to one end of the first threaded rod, the user controls the output end of the second servo motor to reverse, so that the moving block moves towards one end of the rotating piece, simultaneously, the user winds the second layer of material roll on the surface of the resin liquid smearing mold core, then performs second resin liquid smearing, when the moving block moves towards one end of the rotating piece, then controls the output end of the second servo motor to reverse, so that the moving block moves towards one end of the first threaded rod, simultaneously winds the third layer of material roll and smears the third layer of resin liquid, repeatedly works until the surface of the mold core winds and smears the required material roll and the resin liquid, finally, after smearing is finished, the user reverses the rotating hand, so that the propping piece is separated from the mold core, then the user hangs the mold core for solidification, finally, and the alkali-free glass fiber silk winding and calendaring are finished, thereby the production work of the glass fiber reinforced plastic pipe is completed, through the unnecessary resin liquid of collecting box collection, the user of being convenient for cleans, this device can twine and paint the material voluntarily, need not the manual work and twine and paint the material to greatly reduced user's work load reduces user's tired, and practices thrift user's operating time, improves user's work efficiency, and then practices thrift user's manufacturing cost, improves the productivity effect.

Drawings

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

FIG. 2 is a schematic perspective view of a side panel and a collection box according to the present invention;

FIG. 3 is a schematic perspective view of a moving block and a chute according to the present invention;

FIG. 4 is a schematic perspective view of a moving block and a moving slot according to the present invention;

FIG. 5 is a schematic perspective view of a moving block, a first movable slot and a second movable slot according to the present invention;

FIG. 6 is a schematic perspective view of a moving block, a second movable plate and a fourth threaded rod according to the present invention;

FIG. 7 is a schematic perspective view of a moving block, a connecting sleeve and a receiving groove according to the present invention;

fig. 8 is an exploded perspective view of the present invention.

In the figure: 1. a bottom plate; 2. a side plate; 3. a collection box; 4. a mold core; 5. a rotating member; 6. a first gear; 7. a first servo motor; 8. a second gear; 9. a toothed belt; 10. a first threaded hole; 11. a first threaded rod; 12. a supporting piece; 13. turning hands; 14. a moving block; 15. a chute; 16. a slide block; 17. a second threaded hole; 18. a second threaded rod; 19. a second servo motor; 20. a material tray; 21. a material roll; 22. a moving groove; 23. a machine cabin; 24. a third servo motor; 25. a distance plate; 26. a third threaded hole; 27. a third threaded rod; 28. a squeeze roll; 29. a distance controller; 30. a fixed roller; 31. a first movable groove; 32. a first movable block; 33. a first pinch roller; 34. a first movable plate; 35. a first spring; 36. a fourth threaded hole; 37. a fourth threaded rod; 38. a second movable groove; 39. a second movable block; 40. a second pinch roller; 41. a connecting groove; 42. a second movable plate; 43. a second spring; 44. a fifth threaded hole; 45. a fifth threaded rod; 46. a discharging box; 47. a metering pump; 48. a first connection pipe; 49. a second connection pipe; 50. connecting sleeves; 51. a moving tube; 52. a groove is collected; 53. a scraper.

Detailed Description

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

Referring to fig. 1-8, an embodiment of the present invention is provided:

the glass fiber reinforced plastic pipeline manufacturing device comprises a bottom plate 1, side plates 2 are fixedly connected to two ends of the bottom plate 1, a collecting box 3 is fixedly connected to one side of the bottom plate 1, a mold core 4 is arranged at the top end of the collecting box 3, one end of the mold core 4 is slidably connected with a rotating piece 5, one end of the rotating piece 5 penetrates through one group of side plates 2, one end of the rotating piece 5 is fixedly connected with a first gear 6, the bottom end of one group of side plates 2 is provided with a first servo motor 7, the output end of the first servo motor 7 is fixedly connected with a second gear 8, one side of one group of side plates 2 is provided with a toothed belt 9, one end of one group of bottom plates 1 is provided with a first threaded hole 10, the interior of the first threaded hole 10 is rotatably connected with a first threaded rod 11, one end of the first threaded rod 11 is fixedly connected with a rotating hand 13, the other end of the first threaded rod 11 is connected with a supporting piece 12 through a bearing, one end of the supporting piece 12 is slidably connected with one end of the mold core 4, one end of the bottom plate 1 is provided with a moving block 14, one side of the bottom plate 1 is provided with two groups of sliding grooves 15, the interior of sliding grooves 15 are slidably connected with a sliding blocks 16, the top ends of the sliding blocks 16 are all the sliding blocks 14 are fixedly connected with the second threaded rod 18, the bottom ends of the moving blocks 14 are fixedly connected with the second threaded rod 18, the other end of the other side plates 2 is provided with the second threaded rod 18, and the other end of the threaded rod is fixedly connected with the first threaded rod 18 through the threaded rod 18;

referring to fig. 4, in the present embodiment, the discharging mechanism includes a material tray 20, a material roll 21, a moving slot 22, a machine bin 23, a third servo motor 24, a distance plate 25, a third threaded hole 26, a third threaded rod 27, a squeeze roller 28 and a distance controller 29, two groups of material trays 20 are connected to two ends of the moving block 14 through bearings, one end of the material roll 21 is provided with the material roll 21, two groups of moving slots 22 are provided at two ends of the moving block 14, the inner wall of one end of the moving slot 22 is provided with the machine bin 23, the third servo motor 24 is provided inside the machine bin 23, one end of the moving slot 22 is slidably connected with the distance plate 25, one end of the distance plate 25 is provided with the third threaded hole 26, the output end of the third servo motor 24 is fixedly connected with the third threaded rod 27, one end of the third threaded rod 27 is connected with the inner wall of one end of the moving slot 22 through bearings, one end of the third threaded rod 27 is connected with the third threaded hole 26 through threads, one end of the distance plate 25 is connected with the squeeze roller 28 through a bearing, the top ends of the squeeze roller 28 are respectively attached to the material roll 21, one end of the distance plate 25 is provided with the distance controller 29, the distance controllers 29 are respectively positioned at the bottom ends of the material roll 21, two ends of the moving block 14 are provided with clamping mechanisms, a user respectively sleeves the material roll 21 on one end of the material disc 20, then controls the distance controller 29 and the third servo motor 24 to work, at the moment, the working distance controller 29 controls the third servo motor 24 to work, the output end of the third servo motor 24 drives the third threaded rod 27 to rotate, the distance plate 25 is enabled to move upwards through the third threaded hole 26, the distance plate 25 drives the squeeze roller 28 to move until the squeeze roller 28 is abutted against the material roll 21, the distance between the distance plate 25 and the material roll 21 is kept at a fixed value through the distance controller 29, when the size of the material roll 21 is reduced, the user controls the third servo motor 24 to work again through the distance controller 29, the squeeze roll 28 is abutted against the material roll 21 again through the third threaded rod 27 and the distance plate 25, and the squeeze roll 28 is tightly attached to the material roll 21 all the time through the distance controller 29, so that the material roll 21 is fixed, and the material roll 21 is prevented from being scattered due to loosening and rotation;

referring to fig. 5 and 6, in the present embodiment, the clamping mechanism includes a fixed roller 30, a first movable slot 31, a first movable block 32, a first pressing roller 33, a first movable plate 34, a first spring 35, a fourth threaded hole 36, a fourth threaded rod 37, a second movable slot 38, a second movable block 39, a second pressing roller 40, a connecting slot 41, a second movable plate 42, a second spring 43, a fifth threaded hole 44 and a fifth threaded rod 45, both ends of the movable block 14 are connected with the fixed roller 30 through bearings, the fixed roller 30 is respectively located at one side of the material tray 20, two groups of first movable slots 31 are provided at the top end of the movable block 14, the first movable block 32 is slidably connected in the first movable slot 31, one end of the first movable block 32 is connected with the first pressing roller 33 through bearings, the bottom ends of the first pressing roller 33 are respectively attached to the fixed roller 30, the first movable plate 34 is provided at the top end of the first movable block 32, the bottom end of the first movable plate 34 is fixedly connected with a first spring 35, the bottom ends of the first springs 35 are fixedly connected with the first movable block 32 respectively, two groups of fourth threaded holes 36 are formed at the top end of the movable block 14, the bottom ends of the fourth threaded holes 36 are connected with the first movable groove 31 respectively, the inside of the fourth threaded holes 36 is connected with a fourth threaded rod 37 through threads, the bottom ends of the fourth threaded rod 37 are connected with the top end of the first movable plate 34 through bearings respectively, the middle parts of the two sides of the movable block 14 are provided with a second movable groove 38, the inside of the second movable groove 38 is connected with a second movable block 39 in a sliding manner, one end of the second movable block 39 is connected with a second pressing roller 40 through bearings, the bottom ends of the second pressing roller 40 are respectively attached to the top ends of the fixed roller 30, the inner wall of the top end of the second movable groove 38 is provided with a connecting groove 41, the inside of the connecting groove 41 is slidably connected with a second movable plate 42, one end of the second movable plate 42 is fixedly connected with a second spring 43, the bottom end of the second spring 43 is fixedly connected with the top end of a second movable block 39 respectively, two groups of fifth threaded holes 44 are formed in the top end of the movable block 14, the inside of the fifth threaded holes 44 is connected with a fifth threaded rod 45 through threads, the bottom end of the fifth threaded rod 45 is connected with one end of the second movable plate 42 through a bearing, one end of the movable block 14 is provided with a feeding mechanism, one end of a material roll 21 passes through the space between the first pressing roller 33 and the fixed roller 30 and between the second pressing roller 40 and the fixed roller 30 respectively, then the user rotates a fourth threaded rod 37 and the fifth threaded rod 45 respectively, the fourth threaded rod 37 and the fifth threaded rod 45 move downwards under the action of the fourth threaded hole 36 and the fifth threaded hole 44, at this time, the first movable plate 34 and the second movable plate 42 are respectively moved downwards by the fourth threaded rod 37 and the fifth threaded rod 45, the first spring 35 and the second spring 43 are respectively compressed by the first movable plate 34 and the second movable plate 42 which are moved downwards, at this time, the first movable block 32 and the second movable block 39 are moved downwards under the action of the resilience of the first spring 35 and the second spring 43, the first movable block 32 and the second movable block 39 which are moved downwards drive the first pressing roller 33 and the second pressing roller 40 to be attached to the fixed roller 30, and one end of the material roll 21 is pressed by the first pressing roller 33 and the second pressing roller 40 which are respectively pressed with the fixed roller 30, so that when the material roll 21 is wound by the mold core 4, the material roll 21 is in a tight state, which is convenient for winding the material roll 21 and resin liquid attaching of the material roll 21;

referring to fig. 3 and 7, in this embodiment, the feeding mechanism includes a discharge box 46, a metering pump 47, a first connecting pipe 48, a second connecting pipe 49, a connecting sleeve 50, a moving pipe 51, a collecting groove 52 and a scraper 53, the middle part of the bottom plate 1 is provided with the discharge box 46, the top end of the discharge box 46 is provided with the metering pump 47, one end of the metering pump 47 is connected with the first connecting pipe 48, the other end of the metering pump 47 is connected with the second connecting pipe 49, one end of the second connecting pipe 49 penetrates through the moving block 14, one end of the first connecting pipe 48 is connected with the bottom end of the discharge box 46, one end of the moving block 14 is connected with the connecting sleeve 50 through a rotary sealing piece, one end of the second connecting pipe 49 extends to the inside of the connecting sleeve 50, one end of the connecting sleeve 50 is connected with the moving pipe 51 through threads, one end of the moving pipe 51 is close to the mold core 4, the middle part of one end of the moving block 14 is provided with the collecting groove 52, one end of the collecting tank 52 is slidably connected with a scraping plate 53, one end of the scraping plate 53 is close to the mold core 4, the scraping plate 53 is positioned at the bottom end of the moving pipe 51, the top end of the scraping plate 53 is fixedly connected with the moving pipe 51, a user adds resin liquid into the discharging tank 46, the user rotates the connecting sleeve 50 to enable the moving pipe 51 to extend out, the moving pipe 51 drives the scraping plate 53 to move in the collecting tank 52, the user only needs to enable one ends of the moving pipe 51 and the scraping plate 53 to be close to the mold core 4, the working metering pump 47 sucks the resin liquid in the discharging tank 46 into the first connecting pipe 48, then the resin liquid enters the connecting sleeve 50 through the second connecting pipe 49, the resin liquid is sprayed to the surface of the mold core 4 through the moving pipe 51, the rotating mold core 4 drives the resin liquid to rotate, the scraping plate 53 at the bottom end of the moving pipe 51 scrapes the resin liquid at the moment, the resin liquid is uniformly smeared on the surface of the mold core 4, thereby being convenient for coating resin liquid;

it should be noted that, the control end of the metering pump 47 is electrically connected with an external power supply through an external switch, one end of the moving tube 51 is flat, so that the device is convenient to work, the dimensions of the second movable groove 38 are respectively matched with the dimensions of the second movable block 39, the dimensions of the first movable groove 31 are respectively matched with the dimensions of the first movable block 32, the matched dimensions are convenient for the movement of the first movable block 32 and the second movable block 39, the control end of the distance controller 29 is electrically connected with the external power supply through an external switch, the control end of the third servo motor 24 is respectively connected with the distance controller 29, so that the device is convenient to control the device to work, the control ends of the first servo motor 7 and the second servo motor 19 are electrically connected with the external power supply through an external switch, so that the user can control the device to work, the inner walls at two ends of the toothed belt 9 are respectively meshed with the first gear 6 and the second gear 8, one end of the second threaded rod 18 is fixedly connected with a group of side plates 2 through bearings, so that the device is convenient to work.

Working principle: when the device is used by a user, the user firstly hangs the mold core 4 between the side plates 2, one end of the rotating piece 5 is inserted into the mold core 4, then the user rotates the rotating hand 13, the rotating hand 13 drives the first threaded rod 11 to rotate, the first threaded rod 11 moves through the first threaded hole 10, the first threaded rod 11 drives the abutting piece 12 to move, thereby inserting one end of the abutting piece 12 into one end of the mold core 4 and fixing the mold core 4, then the user adds resin liquid into the discharge box 46, the user rotates the connecting sleeve 50 to enable the moving pipe 51 to extend, the moving pipe 51 drives the scraping plate 53 to move in the collecting groove 52, the user only needs to enable one ends of the moving pipe 51 and the scraping plate 53 to be close to the mold core 4, then the user respectively covers various required material rolls 21 at one ends of the material disc 20, then the distance controller 29 and the third servo motor 24 are controlled to work, at this time, the third servo motor 24 is controlled to work by the working distance controller 29, the output end of the third servo motor 24 drives the third threaded rod 27 to rotate, the distance plate 25 moves upwards by the third threaded hole 26, the distance plate 25 drives the squeeze roller 28 to move until the squeeze roller 28 is in contact with the material roll 21, the distance between the distance plate 25 and the material roll 21 is at a fixed value by the distance controller 29, when the size of the material roll 21 becomes smaller, the user distance controller 29 controls the third servo motor 24 to work again, the squeeze roller 28 is in contact with the material roll 21 again by the third threaded rod 27 and the distance plate 25, the squeeze roller 28 is tightly attached to the material roll 21 all the time by the distance controller 29, so that the material roll 21 is fixed, the material roll 21 is prevented from being scattered due to loosening and rotation, one end of the material roll 21 passes through the space between the first compression roller 33 and the fixed roller 30 and the space between the second compression roller 40 and the fixed roller 30 respectively, then the user rotates the fourth threaded rod 37 and the fifth threaded rod 45 respectively, the fourth threaded rod 37 and the fifth threaded rod 45 move downwards under the action of the fourth threaded hole 36 and the fifth threaded hole 44, at the moment, the first movable plate 34 and the second movable plate 42 move downwards through the fourth threaded rod 37 and the fifth threaded rod 45 respectively, the first movable plate 34 and the second movable plate 42 which move downwards compress the first spring 35 and the second spring 43 respectively, at the moment, the first movable block 32 and the second movable block 39 move downwards under the action of the resilience of the first spring 35 and the second spring 43, the first movable block 32 and the second movable block 39 which move downwards drive the first compression roller 33 and the second compression roller 40 to move downwards until being attached to the fixed roller 30, the first and second pinch rollers 33 and 40 respectively pinch the fixed roller 30 to pinch one end of the material roll 21, so that the mold core 4 is in a tight state when the material roll 21 is wound, the material roll 21 is convenient to wind the material roll 21 and is convenient for resin liquid lamination of the material roll 21, then a user controls the first servo motor 7, the second servo motor 19 and the third threaded rod 27 to work, the output end of the first servo motor 7 drives the second gear 8 to rotate, the second gear 8 drives the toothed belt 9 to rotate, the toothed belt 9 drives the first gear 6 to rotate, the first gear 6 drives the rotating member 5 to rotate, the rotating member 5 drives the mold core 4 and the abutting member 12 to rotate, the user fixes the first layer of material roll 21 at one end of the mold core 4, the output end of the second servo motor 19 drives the second threaded rod 18 to rotate, the moving block 14 moves to one side close to the first threaded rod 11 through the second threaded hole 17 and the rotating second threaded rod 18, the moving block 14 drives the sliding block 16 to slide in the sliding groove 15, so that the moving stability of the moving block 14 is ensured, at the moment, the first layer of material roll 21 is wound on the surface of the mold core 4, meanwhile, the working metering pump 47 sucks the resin liquid in the discharge box 46 into the first connecting pipe 48, then the second connecting pipe 49 allows the resin liquid to enter the connecting sleeve 50, the moving pipe 51 sprays the resin liquid onto the surface of the mold core 4, the rotating mold core 4 drives the resin liquid to rotate, at the moment, the scraping plate 53 at the bottom end of the moving pipe 51 scrapes the resin liquid, so that the resin liquid is uniformly smeared on the surface of the mold core 4, when the moving block 14 moves to one end of the first threaded rod 11, a user controls the output end of the second servo motor 19 to reverse, the moving block 14 moves towards one end of the rotating piece 5 through the second threaded hole 17 and the second threaded rod 18, meanwhile, a user winds the second layer of material roll 21 on the surface of the resin liquid mold core 4 to be coated, then the second resin liquid coating is carried out through the metering pump 47, the first connecting pipe 48, the second connecting pipe 49, the connecting sleeve 50 and the moving pipe 51, when the moving block 14 moves towards one end of the rotating piece 5, the output end of the second servo motor 19 is controlled to reverse, the moving block 14 moves towards one end of the first threaded rod 11, meanwhile, the third layer of material roll 21 is wound and the third layer of resin liquid is coated, the operation is repeated until the surface of the mold core 4 is wound and coated with the required material roll 21 and the resin liquid, finally, after the coating is finished, the user closes the device, then reverses the rotating hand 13 to drive the first threaded rod 11 to rotate, make first threaded rod 11 keep away from mold core 4 through first threaded hole 10, make to support the inside that piece 12 breaks away from mold core 4 through the first threaded rod 11 of keeping away from mold core 4, then the user hangs away the solidification with mold core 4 again, last winding alkali-free glass fiber silk and press polish can, thereby accomplish the production work of glass steel pipeline, collect unnecessary resin liquid through collecting box 3, the user of being convenient for cleans, this device can twine and paint the material voluntarily, need not the manual work and twine and paint the material, thereby greatly reduced user's work load, reduce user's fatigue, and practice thrift user's operating time, and improve user's work efficiency, and then practice thrift user's manufacturing cost, and improvement productivity effect.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a glass steel pipeline manufacturing installation, its characterized in that, including bottom plate (1), the both ends of bottom plate (1) all fixedly connected with curb plate (2), one side fixedly connected with collecting box (3) of bottom plate (1), the top of collecting box (3) is provided with mold core (4), the one end sliding connection of mold core (4) has changeing piece (5), and the one end of changeing piece (5) runs through a set of curb plate (2), the one end fixedly connected with first gear (6) of changeing piece (5), a set of the bottom of curb plate (2) is provided with first servo motor (7), the output fixedly connected with second gear (8) of first servo motor (7), a set of one side of curb plate (2) is provided with toothed belt (9), a set of one end of bottom plate (1) has been seted up first screw hole (10), the inside rotation of first screw hole (10) is connected with first threaded rod (11), the one end fixedly connected with of first threaded rod (11) has changeing hand (13), the one end fixedly connected with first threaded rod (11) through the one end of first threaded rod (12) has one end (12) of propping piece (1) and one end (14) of moving bottom plate (1), the inside of the sliding groove (15) is connected with a sliding block (16) in a sliding manner, the top end of the sliding block (16) is fixedly connected with the bottom end of the moving block (14), a second threaded hole (17) is formed in the bottom end of the moving block (14), a second threaded rod (18) is connected in the second threaded hole (17) in a threaded manner, the other end of the second threaded rod (18) penetrates through the other group of side plates (2) and is rotationally connected with the other group of side plates, one end of one group of side plates (2) is provided with a second servo motor (19), the output end of the second servo motor (19) is fixedly connected with one end of the second threaded rod (18), and two ends of the moving block (14) are provided with discharging mechanisms;

the discharging mechanism comprises a material disc (20), a material roll (21), a moving groove (22), a machine bin (23), a third servo motor (24), a distance plate (25), a third threaded hole (26), a third threaded rod (27), a squeeze roller (28) and a distance controller (29), wherein two groups of material discs (20) are connected to two ends of the moving block (14) through bearings, one end of the material roll (21) is provided with the material roll (21), two groups of moving grooves (22) are formed in two ends of the moving block (14), the inner wall of one end of the moving groove (22) is provided with the machine bin (23), the third servo motor (24) is arranged in the machine bin (23), one end of the moving groove (22) is slidably connected with the distance plate (25), the third threaded hole (26) is formed in one end of the distance plate (25), the output end of the third threaded rod (24) is fixedly connected with the third threaded rod (27), one end of the third threaded rod (27) is connected with the inner wall of the moving groove (22) through bearings (22) respectively, the threaded rod (28) is connected with the threaded rod (25) through the first end of the threaded rod (26), the top ends of the squeeze rollers (28) are respectively attached to the material rolls (21), one ends of the distance plates (25) are respectively provided with a distance controller (29), the distance controllers (29) are respectively positioned at the bottom ends of the material rolls (21), and the two ends of the moving blocks (14) are respectively provided with a clamping mechanism;

the clamping mechanism comprises a fixed roller (30), a first movable groove (31), a first movable block (32), a first compression roller (33), a first movable plate (34), a first spring (35), a fourth threaded hole (36), a fourth threaded rod (37), a second movable groove (38), a second movable block (39), a second compression roller (40), a connecting groove (41), a second movable plate (42), a second spring (43), a fifth threaded hole (44) and a fifth threaded rod (45), the two ends of the movable block (14) are connected with the fixed roller (30) through bearings, the fixed rollers (30) are respectively positioned on one side of the material disc (20), two groups of first movable grooves (31) are formed in the top end of the movable block (14), the first movable block (32) is connected with the first compression roller (33) in a sliding mode, the bottom ends of the first movable block (32) are respectively attached to the fixed roller (30), the first movable block (32) are respectively connected with the first movable plate (34), the first movable block (34) are respectively connected with the bottom ends of the first movable block (32), two groups of fourth threaded holes (36) are formed in the top end of the moving block (14), the bottom ends of the fourth threaded holes (36) are respectively connected with the first movable grooves (31), fourth threaded rods (37) are respectively connected with the inside of the fourth threaded holes (36) through threads, the bottom ends of the fourth threaded rods (37) are respectively connected with the top ends of the first movable plates (34) through bearings, second movable grooves (38) are respectively formed in the middle of two sides of the moving block (14), second movable blocks (39) are respectively connected with the inside of the second movable grooves (38) in a sliding mode, one ends of the second movable blocks (39) are respectively connected with a second compression roller (40) through bearings, the bottom ends of the second compression rollers (40) are respectively attached to the top ends of the fixed rollers (30), connecting grooves (41) are respectively formed in the inner walls of the top ends of the second movable grooves (38), second movable plates (42) are respectively connected with the inside of the connecting grooves in a sliding mode, one ends of the second movable plates (42) are respectively connected with the bottoms of the second movable blocks (43), the bottoms of the second movable blocks (43) are respectively connected with the top ends of the fifth threaded rods (44) through the five threaded holes (44), the bottom ends of the fifth threaded rods (45) are connected with one end of the second movable plate (42) through bearings, and a feeding mechanism is arranged at one end of the movable block (14);

the feeding mechanism comprises a discharging box (46), a metering pump (47), a first connecting pipe (48), a second connecting pipe (49), a connecting sleeve (50), a moving pipe (51), a collecting groove (52) and a scraping plate (53), wherein the discharging box (46) is arranged in the middle of the bottom plate (1), the metering pump (47) is arranged at the top end of the discharging box (46), one end of the metering pump (47) is connected with the first connecting pipe (48), the other end of the metering pump (47) is connected with the second connecting pipe (49), one end of the second connecting pipe (49) penetrates through a moving block (14), one end of the first connecting pipe (48) is connected with the bottom end of the discharging box (46), one end of the moving block (14) is connected with the connecting sleeve (50) through a rotary sealing piece, one end of the second connecting pipe (49) extends to the inside of the connecting sleeve (50), one end of the connecting sleeve (50) is connected with the moving pipe (51) through threads, one end of the moving pipe (51) is close to a mold core (4), one end of the moving block (14) is provided with the middle part of one end of the moving block (14) which is connected with the second connecting pipe (49), one end of the moving block (52) penetrates through the collecting groove (52), one end of the moving block (52) and one end of the moving block (53) is close to the sliding groove (53), the top end of the scraping plate (53) is fixedly connected with the moving pipe (51);

the control end of the metering pump (47) is electrically connected with an external power supply through an external switch, and one end of the movable pipe (51) is flat.

2. A glass fiber reinforced plastic pipeline manufacturing apparatus as claimed in claim 1, wherein: the control ends of the first servo motor (7) and the second servo motor (19) are electrically connected with an external power supply through an external switch.

3. A glass fiber reinforced plastic pipeline manufacturing apparatus as claimed in claim 1, wherein: the inner walls at two ends of the toothed belt (9) are meshed with the first gear (6) and the second gear (8), and one end of the second threaded rod (18) is fixedly connected with one group of side plates (2) through bearings.

4. A glass fiber reinforced plastic pipeline manufacturing apparatus as claimed in claim 1, wherein: the control ends of the distance controllers (29) are electrically connected with an external power supply through external switches, and the control ends of the third servo motors (24) are respectively connected with the distance controllers (29).

5. A glass fiber reinforced plastic pipeline manufacturing apparatus as claimed in claim 1, wherein: the dimensions of the second movable grooves (38) are respectively matched with those of the second movable blocks (39), and the dimensions of the first movable grooves (31) are respectively matched with those of the first movable blocks (32).