CN111015407A - Shaping and trimming equipment for processing glass fiber reinforced plastic top pipe sleeve and working method thereof - Google Patents

Abstract

The invention discloses a shaping and trimming device for processing a glass fiber reinforced plastic top pipe sleeve and a working method thereof. The invention has the beneficial effects that: the first driving cylinder drives the second motor to move up and down through the first hydraulic shaft, the equipment is guaranteed to be maintained and deburred on the glass fiber reinforced plastic top pipe sleeve with different heights, the universality of the work adaptation of the equipment is guaranteed, on the other hand, in the process that the glass fiber reinforced plastic top pipe sleeve is conveyed and moved, the fourth motor is matched to be driven on the first sleeve rail through the second idler wheels to turn over the plate, the glass fiber reinforced plastic top pipe sleeve is matched to be movably polished and maintained, and the deburring processing efficiency of the equipment on the glass fiber reinforced plastic top pipe sleeve is greatly improved.

Description

Shaping and trimming equipment for processing glass fiber reinforced plastic top pipe sleeve and working method thereof

Technical Field

The invention relates to shaping and finishing equipment, in particular to shaping and finishing equipment for processing a glass fiber reinforced plastic top pipe sleeve and a working method thereof, and belongs to the technical field of application of shaping and finishing equipment.

Background

The glass fiber reinforced plastic top pipe sleeve is a pipe jacking tool made of glass fiber reinforced plastic materials, is increasingly used in the field of building decoration, and is used for clamping and fixing two sides of a pipe fitting so as to improve the stability and the service life of the pipe fitting in use.

In the processing process of the glass fiber reinforced plastic top pipe sleeve, moulding finishing equipment is indispensable, the outer wall of the glass fiber reinforced plastic top pipe sleeve is subjected to grinding and deburring treatment through the moulding finishing equipment, and then flat pressing and moulding processing are carried out, so that the outer wall of the glass fiber reinforced plastic top pipe sleeve is ensured to be more smooth and flat, and the glass fiber reinforced plastic top pipe sleeve is convenient to assemble and use at the later stage.

The existing shaping and trimming equipment for processing the glass fiber reinforced plastic top pipe sleeve still has many defects when in use, the working position of the grinding and deburring processing of the glass fiber reinforced plastic top pipe sleeve by the existing shaping and trimming equipment is not accurate enough, the glass fiber reinforced plastic top pipe sleeve with the same width and height can only be trimmed, the working adaptability range is small, the efficiency of the shaping and trimming processing of the glass fiber reinforced plastic top pipe sleeve by the shaping and trimming equipment is low, the stability of the glass fiber reinforced plastic top pipe sleeve when being placed on the shaping and trimming equipment for deburring trimming processing is poor, the glass fiber reinforced plastic top pipe sleeve is easy to shake or shake when being trimmed, the trimming quality of the glass fiber reinforced plastic top pipe sleeve is seriously influenced, the flat pressing and shaping efficiency of the shaping and the glass fiber reinforced plastic top pipe sleeve by the shaping and trimming equipment cannot grind and flatten the glass fiber reinforced plastic top pipe sleeve simultaneously, and the flat pressing and shaping of the shaping and trimming equipment on the glass fiber reinforced plastic top, Moulding quality is not high, and glass steel top pipe box is not convenient for to be collected the processing by moulding finishing after, and moulding finishing work's degree of automation is low, uses and wastes time and energy.

Disclosure of Invention

The invention aims to solve the problems that the working positions of the existing shaping and trimming equipment for polishing and deburring the glass fiber reinforced plastic top pipe sleeve are not accurate enough, the glass fiber reinforced plastic top pipe sleeve with the same width and height can only be trimmed, and the working adaptability range is small; the efficiency of trimming and deburring the glass fiber reinforced plastic top pipe sleeve by the shaping trimming equipment is low; the stability of the glass fiber reinforced plastic top pipe sleeve when the glass fiber reinforced plastic top pipe sleeve is placed on shaping finishing equipment for deburring finishing is poor, so that the glass fiber reinforced plastic top pipe sleeve is easy to shake or shake when being finished, and the quality of the finished glass fiber reinforced plastic top pipe sleeve is seriously influenced; the efficiency of flat pressing and shaping processing of the glass fiber reinforced plastic top pipe sleeve by shaping and trimming equipment is low; the glass fiber reinforced plastic top pipe sleeve cannot be subjected to grinding and flattening processing while flat pressing and shaping are carried out, so that the quality of flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve by shaping and finishing equipment is not high; after the glass fiber reinforced plastic top pipe sleeve is shaped and finished, the glass fiber reinforced plastic top pipe sleeve is inconvenient to collect and treat, the automation degree of shaping and finishing work is low, and the use is time-consuming and labor-consuming.

The purpose of the invention can be realized by the following technical scheme: a shaping and trimming device for processing a glass fiber reinforced plastic top pipe sleeve comprises a workbench, a first conveying platform, a trimming seat and a pressing platform which are horizontally arranged, wherein the first conveying platform is horizontally arranged at one end above the workbench, the trimming seat is vertically arranged on one side of the first conveying platform, the pressing platform is arranged above the first conveying platform, a rear conveying disc is horizontally arranged below the middle part of the pressing platform, and second conveying platforms are arranged at two ends of the bottom of the rear conveying disc;

rectangular side supporting plates are vertically arranged on two sides of the first conveying table, a first conveying belt of an annular structure is arranged between the two side supporting plates, and top clamping plates are horizontally arranged above the two side supporting plates;

the two ends of the tops of the two side supporting plates are respectively provided with a transmission block, a motor ten is sleeved in the transmission blocks, and a rolling crawler belt with an annular structure is rotatably connected onto the motor ten through a transmission shaft;

a transverse mounting plate is vertically arranged on the trimming seat, a first sleeve rail is arranged at the upper end and the lower end of the side wall of the transverse mounting plate in parallel, a vertically-arranged vertical carrying frame is hung on the first sleeve rail, a first driving cylinder is vertically arranged above one end of the vertically-arranged carrying frame, a second motor with a rectangular structure is connected below the first driving cylinder in a stretching mode through a first hydraulic shaft, two ends of the bottom of the second motor are rotatably connected with a turning plate with a rectangular structure through rotating shafts, buckling frames with hollow U-shaped structures are horizontally arranged at the upper end and the lower end of the side wall of the turning plate, a fourth motor is sleeved at the upper end and the lower end of the buckling frame, one end of the middle of the fourth motor is rotatably connected with a second roller, a vertical fulcrum shaft is vertically arranged below one end of the trimming seat, a third motor is vertically arranged below the vertical fulcrum shaft;

the middle part of the turning plate is sleeved with a motor five, one end of the middle part of the motor five is rotatably connected with a cylindrical grinding column through a transmission shaft, the motor five drives the grinding column to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top sleeve, the motor four drives a turning plate left-right adjusting movable motor three to drive a gear to drive the turning plate to move back and forth, the turning plate is driven by a motor two to turn downwards, and the working position of the device for polishing and deburring the glass fiber reinforced plastic top sleeve is ensured to be more accurate;

a clamping frame with a hollow cuboid structure is horizontally arranged below the motor III, a rolling groove matched with the gear is formed in the middle of the clamping frame, a plurality of hobbing teeth are arranged on the inner wall of one end of the rolling groove at equal intervals, and the gear is meshed with the hobbing teeth;

the middle part of the rear feeding disc is provided with a loading frame with a hollow cuboid structure;

two ends of the second conveying table are provided with a motor six, and the two motors six are rotatably connected with an annular second conveying belt through a transmission shaft;

a flat supporting plate with a cuboid structure is horizontally arranged on the flat pressing platform, a second sleeve rail is horizontally arranged below one end of the bottom of the flat supporting plate, a third sleeve rail is horizontally arranged below the other end of the bottom of the flat supporting plate, the other end of the bottom of the flat supporting plate is connected to the third sleeve rail through a seventh motor sleeve, a grinding press mechanism is vertically arranged in the middle of the flat supporting plate, a rear supporting plate is vertically arranged on one side of the grinding press mechanism, a second driving cylinder is vertically sleeved on the other side of the grinding press mechanism, a bottom connecting plate is connected below the second driving cylinder in an extending mode through a second hydraulic shaft, the bottom connecting plate is horizontally arranged, and a lower pressing plate with a cuboid structure is horizontally arranged below the bottom connecting plate;

a plurality of motors eight are sleeved on the lower pressure plate at equal intervals, and a circular rotary grinding disc is rotatably connected below the motors eight through a transmission shaft;

the vertical driving cylinder three that is provided with in back support plate below, and the driving cylinder three below stretches to move through hydraulic shaft three and is connected with motor nine, motor nine below rotates to be connected with hollow clamp and send the frame, presss from both sides to send the frame both sides to be vertical setting, and the top is the level setting, and presss from both sides to send the frame both sides inner wall and all be provided with driving cylinder four, and driving cylinder four stretches to move through hydraulic shaft four and is connected with the circular shape and presss from both sides the pressure pad.

The invention has further technical improvements that: one end between the two side supporting plates is provided with a first motor, and the first motor is rotatably connected with the first conveying belt through a transmission shaft.

The invention has further technical improvements that: the height of transmission piece is greater than the height of side extension board, and top extension board bottom both ends all vertically are provided with the bolt, be provided with the thread groove with bolt looks adaptation on the rolling track at side extension board top both ends, the bolt at top extension board bottom both ends is respectively in the thread groove of the rolling track of side extension board top both ends.

The invention has further technical improvements that: the horizontal lower part of one end of the transverse loading plate is horizontally provided with a stretching piece, a first roller is sleeved in the stretching piece, the stretching piece and the first roller are connected to a first sleeve wheel groove at one end below the second sleeve wheel rail, the first roller rolls in the first sleeve wheel groove to match the movement of the transverse loading plate, and the transverse loading plate and the vertical loading frame are guaranteed to be moved and adjusted more stably and firmly.

The invention has further technical improvements that: the two buckling and hanging frames are respectively sleeved on the two first sleeve rails, the two idler wheels on the upper side and the lower side of the two buckling and hanging frames are respectively connected to the rail grooves on the upper side and the lower side of the two first sleeve rails, and the motor four-way is movably connected with the vertical carrying frame on the first sleeve rails through the two idler wheels.

The invention has further technical improvements that: the automatic glass steel top pipe sleeve conveying device is high in automation degree of operation and very convenient to use, the working distance between the two clamping pads for clamping the glass steel top pipe sleeves is adjusted by stretching and adjusting the four clamping pads of the two driving cylinders, and the device can clamp and convey the glass steel top pipe sleeves with different widths and shapes.

The invention has further technical improvements that: the height of the bottom of the rotary grinding disc is equal to that of the bottom of the lower pressure plate, so that the flat pressing and finishing quality of the device for the glass fiber reinforced plastic top pipe sleeve is better.

The invention has further technical improvements that: the second sleeve rail and the third sleeve rail are arranged in parallel, and the heights of the second sleeve rail and the tops of the third sleeve rail are the same, so that the pressing and grinding mechanism is more stable and firm when moving.

The invention has further technical improvements that: and position sensors are arranged below the middle part of the motor II, below the pressing and grinding mechanism and below the middle part of the clamping and conveying frame, are in communication connection with a PLC (programmable logic controller) arranged on the workbench, detect the passing position of the glass fiber reinforced plastic top pipe sleeve through the position sensors, and control components on the equipment to shape and finish the glass fiber reinforced plastic top pipe sleeve through the PLC.

A working method of shaping and finishing equipment for processing a glass fiber reinforced plastic top pipe sleeve specifically comprises the following steps:

the method comprises the following steps: the glass fiber reinforced plastic top pipe sleeve to be processed is placed on the first conveying belt to be conveyed, the motor on the transmission block drives the rolling crawler belt to roll, so that the two transverse mounting plates are driven to adjust back and forth, the two transverse plates are used for respectively blocking two sides of the bottom of the glass fiber reinforced plastic top sleeve, a motor IV on a trimming seat drives a roller II to roll on one side wall of a sleeve rail to drive a turning plate to perform left-right adjustment movement, a motor III drives a gear to roll in a rolling groove to drive the turning plate to perform front-back movement adjustment, the glass fiber reinforced plastic top sleeve to be processed is sleeved between the two turning plates, the motor II drives the turning plate to turn downwards through a rotating shaft, a grinding column is attached to the side wall of the glass fiber reinforced plastic top sleeve, a motor V drives the grinding column to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top sleeve, the motor IV drives the turning plate to perform left-right adjustment movement, the motor III drives the gear to drive the turning plate to perform;

step two: after the device finishes and processes the glass fiber reinforced plastic top pipe sleeve, the glass fiber reinforced plastic top pipe sleeve is conveyed to one end of a first conveying disc, a motor seven on a flat pressing table drives a pressing and grinding mechanism to adjust the front and back on a sleeve rail three, a bottom connecting plate is moved to the position above the glass fiber reinforced plastic top pipe sleeve after finishing and processing, a driving cylinder II drives a lower pressing disc to move downwards through a hydraulic shaft II to adjust the downward movement, the glass fiber reinforced plastic top pipe sleeve is subjected to flat pressing and shaping processing through the lower pressing disc, a rotary grinding disc is driven to rotate by matching with a motor eight to grind the top of the glass fiber reinforced plastic top pipe sleeve, and a plurality of rotary grinding discs are matched to respectively perform rotary grinding processing on different glass fiber reinforced plastic;

step three: after the device finishes the flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve, a motor seven on a flat pressing table drives a clamping frame to move to the position above the glass fiber reinforced plastic top pipe sleeve on a sleeve rail three, a driving cylinder three drives the clamping frame to move downwards through a hydraulic shaft three, a motor nine drives the clamping frame to rotate and adjust the position, two driving cylinders four drive clamping cushions to stretch and adjust through hydraulic shafts four, the two clamping cushions respectively clamp and grab the two sides of the glass fiber reinforced plastic top pipe sleeve, then the motor seven drives the clamping frame and the glass fiber reinforced plastic top pipe sleeve to move, the glass fiber reinforced plastic top pipe sleeve is placed into a loading frame of a rear feeding disc, and a motor six drives the loading frame to move through a second conveying belt, and the processed glass fiber reinforced plastic top pipe sleeve is transferred out.

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

1. when the device is used, a glass fiber reinforced plastic top pipe sleeve to be processed is placed on a first conveying belt to be conveyed, a motor IV on a trimming seat drives a roller II to roll on one side wall of a sleeve rail to drive a turning plate to move left and right, a motor III drives a gear to roll in a rolling groove to drive the turning plate to move back and forth, the glass fiber reinforced plastic top pipe sleeve to be processed is placed between the two turning plates, the motor II drives the turning plate to turn downwards through a rotating shaft, a grinding column is attached to the side wall of the glass fiber reinforced plastic top pipe sleeve, a motor V drives the grinding column to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top pipe sleeve, the motor IV drives the turning plate to move left and right, the motor III drives the gear to drive the turning plate to move back and forth, the turning plate is driven to turn downwards by the motor II to trim and deburr, on the one hand, the working position of the device for the glass fiber reinforced plastic top pipe sleeve and, the cooperation driving cylinder one drives the second vertical adjustment activity of motor through hydraulic shaft one, guarantees that this equipment is maintained the glass steel ejector sleeve of co-altitude not, burring handles, has guaranteed the universality of this equipment work adaptation, and on the other hand, at the in-process that glass steel ejector sleeve was carried the removal, cooperation motor four is driven through gyro wheel two on set rail one and is turned over movable the polishing of board cooperation glass steel ejector sleeve, the work of repairing, very big improvement this equipment is maintained the glass steel ejector sleeve, the efficiency of burring processing.

2. The glass fiber reinforced plastic top pipe sleeve is conveyed and moved on the first conveying belt, the motor on the transmission block drives the rolling track to roll to drive the two transverse mounting plates to move back and forth, the two transverse mounting plates are used for blocking the two sides of the bottom of the glass fiber reinforced plastic top pipe sleeve respectively, the glass fiber reinforced plastic top pipe sleeve is guaranteed to be more stable and firm when being deburred, the quality of the glass fiber reinforced plastic top pipe sleeve to be repaired is improved, the motor on the transmission block drives the two transverse mounting plates to move back and forth, the two transverse mounting plates are guaranteed to block the glass fiber reinforced plastic top pipe sleeves with different widths, and the range of working adaptation of the device is guaranteed.

3. After the device trims and processes the glass fiber reinforced plastic top pipe sleeve, the glass fiber reinforced plastic top pipe sleeve is conveyed to one end of a first conveying disc, a motor seven on a flat pressing table drives a pressing and grinding mechanism to move back and forth on a sleeve rail three, a bottom connecting plate is moved to the position above the trimmed and processed glass fiber reinforced plastic top pipe sleeve, a driving cylinder two drives a lower pressing disc to move downwards through a hydraulic shaft two to adjust, the glass fiber reinforced plastic top pipe sleeve is subjected to flat pressing and shaping processing through the lower pressing disc, the upper end face and the lower end face of the glass fiber reinforced plastic top pipe sleeve are enabled to be smoother, a rotary grinding disc is driven to rotate by matching with a motor eight to grind and flatten the top of the glass fiber reinforced plastic top pipe sleeve, the quality of flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve by the device is greatly improved, the end face of the glass fiber reinforced plastic top pipe sleeve is enabled to be smoother, different glass fiber reinforced plastic top pipe sleeves, The efficiency and the comprehensiveness of the grinding processing.

4. After the device finishes the flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve, a motor seven on a flat pressing platform drives a clamping frame to move to the position above the glass fiber reinforced plastic top pipe sleeve on a sleeve rail three, a driving cylinder three drives the clamping frame to move downwards through a hydraulic shaft three, a motor nine drives the clamping frame to rotate and adjust the position, two driving cylinders four drive clamping cushions to stretch and adjust through the hydraulic shaft four, the two clamping cushions respectively clamp and grab the two sides of the glass fiber reinforced plastic top pipe sleeve, then the clamping frame and the glass fiber reinforced plastic top pipe sleeve are driven to move through the motor seven, the glass fiber reinforced plastic top pipe sleeve is dropped into a loading frame of a rear feeding disc, a motor six drives the loading frame to move through a second conveying belt, the processed glass fiber reinforced plastic top pipe sleeve is conveyed out, the device has high automation degree of work and is convenient to use, the working distance between the two clamping cushions and the glass fiber reinforced plastic top pipe sleeve is clamped through the stretching and adjusting of the two clamping cushions, the equipment can clamp and convey the glass fiber reinforced plastic top pipe sleeves with different widths and shapes.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall perspective structure of the present invention.

Fig. 2 is an exploded perspective view of the present invention.

FIG. 3 is a schematic structural diagram of a first conveying table according to the present invention.

FIG. 4 is a schematic diagram of a side panel structure according to the present invention.

FIG. 5 is an enlarged view of the area A in FIG. 4 according to the present invention.

FIG. 6 is a front view of a top clamping plate configuration of the present invention.

FIG. 7 is a schematic view of a dresser base according to the present invention.

FIG. 8 is a side view of the vertical carrier of the present invention.

Fig. 9 is a side view of the flap of the present invention.

FIG. 10 is a schematic diagram of a back feeding structure according to the present invention.

FIG. 11 is a schematic view of a second conveying table according to the present invention.

FIG. 12 is a schematic view of the platen of the present invention.

FIG. 13 is a bottom view of the lower platen of the present invention.

Fig. 14 is a schematic view of the connection between the rotary grinding disc and the motor eight in the invention.

FIG. 15 is a schematic view of the connection between the rear carrier plate and the driving cylinder.

In the figure: 1. a work table; 2. a first conveying table; 3. trimming the seat; 4. a platen table; 5. feeding the disc; 6. a second conveying table; 7. a side support plate; 8. a first conveyor belt; 9. a first motor; 10. a top clamping plate; 11. a transmission block; 12. a motor ten; 13. rolling the caterpillar; 14. a bolt; 15. transversely installing a plate; 1501. sleeving a first rail; 16. stretching the sheet; 1601. a first roller; 17. vertically carrying the frame; 18. a first driving cylinder; 19. a first hydraulic shaft; 20. a second motor; 21. a rotating shaft; 22. turning over a plate; 23. a vertical fulcrum; 24. a third motor; 25. a gear; 26. a clamping frame; 27. rolling a groove; 28. buckling a hanging frame; 29. a fourth motor; 30. a second roller; 31. a fifth motor; 32. grinding the column; 33. a loading frame; 34. a sixth motor; 35. a second conveyor belt; 36. a flat supporting plate; 37. sleeving a second rail; 38. a seventh motor; 39. sleeving a rail III; 40. a press grinding mechanism; 41. a rear carrier plate; 42. a second driving cylinder; 43. a second hydraulic shaft; 44. a bottom connecting plate; 45. a lower platen; 46. a rotary grinding disc; 47. a motor eight; 48. a third driving cylinder; 49. a hydraulic shaft III; 50. a motor nine; 51. a pinch frame; 52. driving a cylinder IV; 53. a hydraulic shaft IV; 54. and clamping and pressing the pad.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-15, a shaping and trimming device for processing a glass fiber reinforced plastic top pipe sleeve comprises a workbench 1, a first conveying table 2, a trimming seat 3 and a pressing table 4 which are horizontally arranged, wherein the first conveying table 2 is horizontally arranged at one end above the workbench 1, the trimming seat 3 is vertically arranged at one side of the first conveying table 2, the pressing table 4 is arranged above the first conveying table 2, a back-feeding disc 5 is horizontally arranged below the middle part of the pressing table 4, and two ends of the bottom of the back-feeding disc 5 are respectively provided with a second conveying table 6;

rectangular side supporting plates 7 are vertically arranged on two sides of the first conveying table 2, a first conveying belt 8 with an annular structure is arranged between the two side supporting plates 7, and top clamping plates 10 are horizontally arranged above the two side supporting plates 7;

the two ends of the tops of the two side supporting plates 7 are respectively provided with a transmission block 11, a motor ten 12 is sleeved in each transmission block 11, and a rolling crawler 13 of an annular structure is rotatably connected to each motor ten 12 through a transmission shaft;

a transverse installation plate 15 is vertically arranged on the trimming seat 3, sleeve rails 1501 are arranged at the upper end and the lower end of the side wall of the transverse installation plate 15 in parallel, a vertically-arranged vertical loading frame 17 is hung on the sleeve rails 1501, a first driving cylinder 18 is vertically arranged above one end of the vertical loading frame 17, a second motor 20 in a rectangular structure is connected below the first driving cylinder 18 in an extending mode through a first hydraulic shaft 19, turning plates 22 in the rectangular structure are rotatably connected at the two ends of the bottom of the second motor 20 through rotating shafts 21, buckling and hanging frames 28 in a hollow U-shaped structure are horizontally arranged at the upper end and the lower end of the side wall of the turning plates 22, a fourth motor 29 is sleeved at the upper end and the lower end of each buckling and hanging frame 28, a second roller 30 is rotatably connected at one end of the middle of the fourth motor 29, a vertical support shaft 23 is vertically arranged below one end of the trimming seat 3, a third motor 24 is vertically arranged below;

a fifth motor 31 is sleeved at the middle part of the turning plate 22, one end of the middle part of the fifth motor 31 is rotatably connected with a cylindrical grinding column 32 through a transmission shaft, the fifth motor 31 drives the grinding column 32 to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top sleeve, a fourth motor 29 drives a third turning plate 22 to adjust a movable motor 24 left and right to drive a gear 25 to drive the turning plate 22 to move back and forth, the second motor 20 is matched to drive the turning plate 22 to turn downwards, and the working position of the device for polishing and deburring the glass fiber reinforced plastic top sleeve is ensured to be more accurate;

a clamping frame 26 with a hollow cuboid structure is horizontally arranged below the motor III 24, a rolling groove 27 matched with the gear 25 is formed in the middle of the clamping frame 26, a plurality of hobbing teeth are arranged on the inner wall of one end of the rolling groove 27 at equal intervals, and the gear 25 is meshed with the hobbing teeth;

a loading frame 33 with a hollow cuboid structure is arranged in the middle of the rear feeding disc 5;

motors six 34 are arranged at two ends of the second conveying table 6, and the two motors six 34 are rotatably connected with an annular second conveying belt 35 through a transmission shaft;

a flat supporting plate 36 with a cuboid structure is horizontally arranged on the flat pressing platform 4, a second sleeve rail 37 is horizontally arranged below one end of the bottom of the flat supporting plate 36, a third sleeve rail 39 is horizontally arranged below the other end of the bottom of the flat supporting plate 36, the other end of the bottom of the flat supporting plate 36 is connected to the third sleeve rail 39 in a sleeved mode through a seventh motor 38, a press grinding mechanism 40 is vertically arranged in the middle of the flat supporting plate 36, a rear supporting plate 41 is vertically arranged on one side of the press grinding mechanism 40, a second driving cylinder 42 is vertically sleeved on the other side of the press grinding mechanism 40, a bottom connecting plate 44 is connected below the second driving cylinder 42 in an extending mode through a second hydraulic shaft 43, the bottom connecting plate 44 is horizontally arranged, and a lower pressing disc 45 with a cuboid structure is horizontally arranged below the bottom connecting plate 44;

a plurality of motors eight 47 are sleeved on the lower pressing disc 45 at equal intervals, and a circular rotary grinding disc 46 is rotatably connected below the motors eight 47 through a transmission shaft;

a third driving cylinder 48 is vertically arranged below the rear carrier plate 41, a ninth motor 50 is connected below the third driving cylinder 48 in an extending mode through a third hydraulic shaft 49, a hollow clamping frame 51 is connected below the ninth motor 50 in a rotating mode, two sides of the clamping frame 51 are vertically arranged, the top of the clamping frame is horizontally arranged, four driving cylinders 52 are arranged on the inner walls of two sides of the clamping frame 51, and a circular clamping pad 54 is connected to the four driving cylinders 52 in an extending mode through a fourth hydraulic shaft 53.

The invention has further technical improvements that: one end between two side extension boards 7 is provided with motor 9, and motor 9 is through transmission shaft and first conveyer belt 8 be rotation connection.

The invention has further technical improvements that: the height of the transmission block 11 is greater than that of the side support plate 7, bolts 14 are vertically arranged at two ends of the bottom of the top clamping plate 10, screw grooves matched with the bolts 14 are formed in the rolling tracks 13 at two ends above the side support plate 7, and the bolts 14 at two ends of the bottom of the top clamping plate 10 are respectively screwed into the screw grooves of the rolling tracks 13 at two ends above the side support plate 7.

The invention has further technical improvements that: horizontal dress 15 one end below level is provided with stretches piece 16, and stretches the piece 16 in the cover be equipped with gyro wheel 1601, stretch piece 16 and gyro wheel 1601 be connected to the cover race groove of two 37 below one ends of cover rail in, roll in the cover race groove through gyro wheel 1601, cooperate horizontal dress 15 to remove, guarantee horizontal dress 15 and erect and carry frame 23 and moved the regulation more steady, firm.

The invention has further technical improvements that: the two buckling and hanging frames 28 are respectively sleeved on the two first sleeve rails 1501, the two idler wheels 30 on the upper side and the lower side of the two buckling and hanging frames 28 are respectively connected to the rail grooves on the upper side and the lower side of the two first sleeve rails 1501, and the motor four 29 is movably connected with the vertical loading frame 17 on the first sleeve rails 1501 through the two idler wheels 30.

The invention has further technical improvements that: the two ends of the motor seven 38 are rotatably connected with the roller three, the motor seven 38 is respectively connected to the side walls of the two sides of the sleeve rail three 39 through the two roller three, the roller four is sleeved at the bottom of one end of the flat supporting plate 36, the flat supporting plate 36 is connected to the upper end face of the sleeve rail two 37 through the roller four, the pinch frame 51 and the glass fiber reinforced plastic top pipe sleeve are driven to move through the motor seven 38, the glass fiber reinforced plastic top pipe sleeve is placed in the material loading frame 33 of the rear feeding tray 5, the material loading frame 33 is driven to move through the second conveying belt 35 through the motor six 34, the processed glass fiber reinforced plastic top pipe sleeve is conveyed out, the device is high in automation degree of working and convenient to use, the working distance between the two pinch pads 54 for pinching the glass fiber reinforced plastic top pipe sleeves is adjusted through stretching adjustment of the pinch pads 54 of the two driving cylinders four 52, and the device is guaranteed to be capable of pinching and conveying the glass.

The invention has further technical improvements that: the height of the bottom of the rotary grinding disc 46 is equal to that of the bottom of the lower pressing disc 45, so that the flat pressing and finishing quality of the device for the glass fiber reinforced plastic top pipe sleeve is better.

The invention has further technical improvements that: the second sleeve rail 37 and the third sleeve rail 39 are arranged in parallel, and the heights of the tops of the second sleeve rail 37 and the third sleeve rail 39 are the same, so that the pressing and grinding mechanism 40 is more stable and firm when moving.

The invention has further technical improvements that: position sensors are arranged below the middle of the second motor 20, below the press grinding mechanism 40 and below the middle of the pinch frame 51 and are in communication connection with a PLC (programmable logic controller) arranged on the workbench 1, the passing position of the glass fiber reinforced plastic top pipe sleeve is detected through the position sensor with the model of KMA220J, and the components on the device are controlled to shape and finish the glass fiber reinforced plastic top pipe sleeve through the PLC with the model of CPM 1A.

A working method of shaping and finishing equipment for processing a glass fiber reinforced plastic top pipe sleeve specifically comprises the following steps:

the method comprises the following steps: the glass fiber reinforced plastic top pipe sleeve to be processed is placed on a first conveying belt 8 to be conveyed, a motor ten 12 on a transmission block 11 drives a rolling crawler belt 13 to roll to drive two transverse installation plates 15 to adjust back and forth, two sides of the bottom of the glass fiber reinforced plastic top pipe sleeve are respectively blocked by the two transverse installation plates 15, a motor four 29 on a trimming seat 3 drives a roller two 30 to roll on the side wall of a sleeve rail one 1501 to drive a turnover plate 22 to adjust left and right, a motor three 24 drives a gear 25 to roll in a rolling groove 27 to drive the turnover plate 22 to adjust back and forth, the glass fiber reinforced plastic top pipe sleeve to be processed is sleeved between the two turnover plates 22, a motor two 20 drives the turnover plate 22 to turn downwards through a rotating shaft 21, a grinding column 32 is attached to the side wall of the glass fiber reinforced plastic top pipe sleeve, a motor five 31 drives the grinding column 32 to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top pipe sleeve, a motor three 24 drives the gear 25 to drive the turnover plate 22, the turning plate 22 is driven to turn downwards by matching with a second motor 20;

step two: after the device finishes and processes the glass fiber reinforced plastic top pipe sleeve, the glass fiber reinforced plastic top pipe sleeve is conveyed to one end of a first conveying disc 2, a motor seven 38 on a flat pressing table 4 drives a pressing and grinding mechanism 40 to adjust and move front and back on a sleeve rail three 39, a bottom connecting plate 44 is moved to the position above the finished and processed glass fiber reinforced plastic top pipe sleeve, a driving cylinder two 42 drives a lower pressing disc 45 to move and adjust downwards through a hydraulic shaft two 43, the glass fiber reinforced plastic top pipe sleeve is subjected to flat pressing and shaping processing through the lower pressing disc 45, a rotary grinding disc 46 is driven to rotate by matching with a motor eight 47 to grind and level the top of the glass fiber reinforced plastic top pipe sleeve, and different glass fiber reinforced plastic top pipe sleeves are respectively subjected to rotary grinding processing by matching with a plurality of rotary grinding;

step three: after the device completes flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve, a motor seven 38 on a flat pressing table 4 drives a clamping frame 51 to move to the position above the glass fiber reinforced plastic top pipe sleeve on a sleeve rail three 39, a driving cylinder three 48 drives the clamping frame 51 to move downwards through a hydraulic shaft three 49, a motor nine 50 drives the clamping frame to rotate and adjust the position, two driving cylinders four 52 drive clamping pads 54 to stretch and adjust through hydraulic shafts four 53, the two sides of the glass fiber reinforced plastic top pipe sleeve are respectively clamped and grabbed through the two clamping pads 54, then the clamping frame 51 and the glass fiber reinforced plastic top pipe sleeve are driven to move through the motor seven 38, the glass fiber reinforced plastic top pipe sleeve falls into a charging frame 33 of a rear feeding disc 5, and a motor six 34 drives the charging frame 33 to move through a second conveying belt 35, so that the processed glass fiber reinforced plastic top pipe sleeve is discharged.

When the device is used, a glass fiber reinforced plastic top pipe sleeve to be processed is placed on a first conveying belt 8 for conveying, a motor IV 29 on a trimming seat 3 drives a roller II 30 to roll on the side wall of a sleeve rail I1501 to drive a turning plate 22 to adjust left and right, a motor III 24 drives a gear 25 to roll in a rolling groove 27 to drive the turning plate 22 to move back and forth for adjustment, the glass fiber reinforced plastic top pipe sleeve to be processed is placed between the two turning plates 22 in a sleeved mode, a motor II 20 drives the turning plate 22 to turn downwards through a rotating shaft 21, a grinding column 32 is attached to the side wall of the glass fiber reinforced plastic top pipe sleeve, a motor V31 drives the grinding column 32 to rotate to trim and scrape the outer wall of the glass fiber reinforced plastic top pipe sleeve, the motor IV 29 drives the turning plate 22 to adjust left and right, the motor III 24 drives the gear 25 to drive the turning plate 22 to move back and forth for adjustment, the turning plate 22 downwards in a matched mode that, The deburring device has the advantages that the deburring working position is more accurate, the device can be used for trimming glass fiber reinforced plastic top pipe sleeves with different widths, the driving cylinder I18 is matched with the driving cylinder I to drive the motor II 20 to move up and down through the hydraulic shaft I19, the device is enabled to trim and deburr the glass fiber reinforced plastic top pipe sleeves with different heights, the working adaptation universality of the device is ensured, on the other hand, in the process that the glass fiber reinforced plastic top pipe sleeves are conveyed and moved, the turning plate 22 is driven on the sleeve rail I1501 through the roller II 30 to be matched with the glass fiber reinforced plastic top pipe sleeves to carry out movable polishing and trimming work, and the efficiency of the device for trimming and deburring the glass fiber reinforced plastic top pipe sleeves is greatly improved;

in the process that the glass fiber reinforced plastic top pipe sleeve is conveyed and moved on the first conveying belt 8, the motor ten 12 on the transmission block 11 drives the rolling crawler 13 to roll to drive the two transverse mounting plates 15 to adjust and move back and forth, the two transverse mounting plates 15 respectively block two sides of the bottom of the glass fiber reinforced plastic top pipe sleeve, so that the glass fiber reinforced plastic top pipe sleeve is more stable and firm when being deburred, trimmed and processed, the quality of the glass fiber reinforced plastic top pipe sleeve is improved, the motor ten 12 on the transmission block 11 drives the two transverse mounting plates 15 to adjust and move back and forth, the two transverse mounting plates 15 are guaranteed to block the glass fiber reinforced plastic top pipe sleeves with different widths, and the working adaptation range of the device is guaranteed;

after the device trims and processes the glass fiber reinforced plastic top pipe sleeve, the glass fiber reinforced plastic top pipe sleeve is conveyed to one end of a first conveying disc 2, a motor seven 38 on a flat pressing table 4 drives a pressing and grinding mechanism 40 to adjust the front and the back on a sleeve rail three 39, a bottom connecting plate 44 is moved to the position above the trimmed and processed glass fiber reinforced plastic top pipe sleeve, a driving cylinder two 42 drives a lower pressing disc 45 to move and adjust the lower pressing disc 45 downwards through a hydraulic shaft two 43, the glass fiber reinforced plastic top pipe sleeve is trimmed and shaped through a lower pressing disc 45, the upper end face and the lower end face of the glass fiber reinforced plastic top pipe sleeve are guaranteed to be smoother, a rotary grinding disc 46 is driven by a motor eight 47 to rotate to grind and flatten the top of the glass fiber reinforced plastic top pipe sleeve, the quality of the device for flat pressing and shaping the glass fiber reinforced plastic top pipe sleeve is greatly improved, the end face of the glass fiber reinforced plastic top pipe sleeve is guaranteed to be smoother, different glass fiber reinforced plastic top pipe sleeves are respectively, The efficiency and the comprehensiveness of the grinding processing;

after the device completes the flat-pressing and shaping of the glass fiber reinforced plastic top pipe sleeve, a motor seven 38 on a flat-pressing platform 4 drives a clamping frame 51 to move to the position above the glass fiber reinforced plastic top pipe sleeve on a sleeve rail three 39, a driving cylinder three 48 drives the clamping frame 51 to move downwards through a hydraulic shaft three 49, a motor nine 50 drives the clamping frame to rotate and adjust the position, two driving cylinders four 52 drive a clamping pad 54 to extend and adjust through a hydraulic shaft four 53, the two sides of the glass fiber reinforced plastic top pipe sleeve are respectively clamped and grabbed through the two clamping pads 54, then the clamping frame 51 and the glass fiber reinforced plastic top pipe sleeve are driven to move through the motor seven 38, the glass fiber reinforced plastic top pipe sleeve is dropped into a charging frame 33 of a rear feeding tray 5, a motor six 34 drives the charging frame 33 to move through a second conveying belt 35, the processed glass fiber reinforced plastic top pipe sleeve is discharged, the device has high automation degree of work, is convenient to use, the device is extended and adjusted through two driving cylinders four 52 clamping pads 54, the working distance between the two clamping pads 54 for clamping the glass fiber reinforced plastic top pipe sleeves is adjusted, and the equipment can be used for clamping and conveying the glass fiber reinforced plastic top pipe sleeves with different widths and shapes.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a moulding finishing equipment for processing of glass steel top pipe box, includes workstation (1), first transport platform (2), trimming seat (3) and flatting platform (4) that the level set up, its characterized in that: a first conveying platform (2) is horizontally arranged at one end above the workbench (1), a trimming seat (3) is vertically arranged on one side of the first conveying platform (2), a flat pressing platform (4) is arranged above the first conveying platform (2), a rear conveying disc (5) is horizontally arranged below the middle part of the flat pressing platform (4), and second conveying platforms (6) are arranged at two ends of the bottom of the rear conveying disc (5);

rectangular side support plates (7) are vertically arranged on two sides of the first conveying platform (2), a first conveying belt (8) of an annular structure is arranged between the two side support plates (7), and top clamping plates (10) are horizontally arranged above the two side support plates (7);

the two ends of the tops of the two side supporting plates (7) are respectively provided with a transmission block (11), a motor ten (12) is sleeved in each transmission block (11), and the motor ten (12) is rotatably connected with a rolling crawler (13) with an annular structure through a transmission shaft;

a transverse mounting plate (15) is vertically arranged on the trimming seat (3), sleeve rails (1501) are arranged at the upper end and the lower end of the side wall of the transverse mounting plate (15) in parallel, a vertically arranged vertical carrying frame (17) is hung on the sleeve rails (1501), a driving cylinder (18) is vertically arranged above one end of the vertical carrying frame (17), a motor II (20) with a rectangular structure is connected below the driving cylinder (18) in an extending mode through a hydraulic shaft I (19), two ends of the bottom of the motor II (20) are rotatably connected with a turning plate (22) with a rectangular structure through rotating shafts (21), buckling and hanging frames (28) with hollow U-shaped structures are horizontally arranged at the upper end and the lower end of the side wall of the turning plate (22), a motor IV (29) is sleeved at the upper end and the lower end of the buckling and hanging frame (28), one end of the middle of the motor IV (29) is rotatably connected with a roller II (30), and a vertical fulcrum shaft (23) is vertically arranged below one end of the trimming seat (, a third motor (24) is vertically arranged below the vertical fulcrum shaft (23), and a gear (25) is rotatably connected below the third motor (24);

a fifth motor (31) is sleeved in the middle of the turning plate (22), and one end of the middle of the fifth motor (31) is rotatably connected with a cylindrical grinding column (32) through a transmission shaft;

a clamping frame (26) with a hollow rectangular structure is horizontally arranged below the motor III (24), a rolling groove (27) matched with the gear (25) is formed in the middle of the clamping frame (26), a plurality of hobbing teeth are arranged on the inner wall of one end of the rolling groove (27) at equal intervals, and the gear (25) is meshed with the hobbing teeth;

a material loading frame (33) with a hollow cuboid structure is arranged in the middle of the rear feeding disc (5);

two ends of the second conveying platform (6) are respectively provided with a motor six (34), and the two motors six (34) are rotatably connected with an annular second conveying belt (35) through a transmission shaft;

a flat supporting plate (36) with a rectangular structure is horizontally arranged on the flat pressing platform (4), a second sleeve rail (37) is horizontally arranged below one end of the bottom of the flat supporting plate (36), a third sleeve rail (39) is horizontally arranged below the other end of the bottom of the flat supporting plate (36), the other end of the bottom of the flat supporting plate (36) is connected to the third sleeve rail (39) in a sleeved mode through a motor seven (38), a pressing and grinding mechanism (40) is vertically arranged in the middle of the flat supporting plate (36), a rear supporting plate (41) is vertically arranged on one side of the pressing and grinding mechanism (40), a second driving cylinder (42) is vertically sleeved on the other side of the pressing and grinding mechanism (40), a bottom connecting plate (44) is connected below the second driving cylinder (42) in an extending mode through a second hydraulic shaft (43), the bottom connecting plate (44) is horizontally arranged, and a lower pressing disc (45) with a rectangular structure is horizontally arranged below the bottom connecting plate (44);

a plurality of motors eight (47) are sleeved on the lower pressure plate (45) at equal intervals, and a circular rotary grinding disc (46) is rotatably connected below the motors eight (47) through a transmission shaft;

the rear carrier plate (41) below is vertically provided with driving cylinder three (48), and driving cylinder three (48) below stretches through hydraulic shaft three (49) and moves and is connected with motor nine (50), motor nine (50) below is rotated and is connected with hollow clamp and send frame (51), and it is vertical setting to press from both sides to send frame (51), and the top is the level setting, and presss from both sides and send frame (51) both sides inner wall and all be provided with driving cylinder four (52), and driving cylinder four (52) stretch through hydraulic shaft four (53) and move and be connected with circular shape and press from both sides pressure pad (54).

2. The shaping and trimming device for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, wherein a first motor (9) is arranged at one end between the two side support plates (7), and the first motor (9) is rotatably connected with the first conveying belt (8) through a transmission shaft.

3. The plastic finishing equipment for processing the glass fiber reinforced plastic top pipe sleeve is characterized in that the height of the transmission block (11) is greater than that of the side support plate (7), bolts (14) are vertically arranged at two ends of the bottom of the top clamping plate (10), screw grooves matched with the bolts (14) are formed in the rolling tracks (13) at two ends above the side support plate (7), and the bolts (14) at two ends of the bottom of the top clamping plate (10) are respectively screwed into the screw grooves of the rolling tracks (13) at two ends above the side support plate (7).

4. The shaping and trimming device for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, wherein a stretching piece (16) is horizontally arranged below one end of the horizontal installation plate (15), a roller I (1601) is sleeved in the stretching piece (16), and the stretching piece (16) and the roller I (1601) are connected to a sleeve wheel groove at one end below the sleeve rail II (37).

5. The shaping finishing equipment for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, wherein two buckling and hanging frames (28) are respectively sleeved on the two first sleeve rails (1501), rollers two (30) on the upper side and the lower side of the two buckling and hanging frames (28) are respectively connected to rail grooves on the upper side and the lower side of the two first sleeve rails (1501), and a motor four (29) is movably connected with the vertical loading frame (17) on the first sleeve rails (1501) through the rollers two (30).

6. The shaping finishing equipment for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, wherein two ends of the motor seven (38) are rotatably connected with the roller three, the motor seven (38) is respectively connected to the side walls of two sides of the sleeve rail three (39) through the two roller three, the bottom of one end of the flat supporting plate (36) is sleeved with the roller four, and the flat supporting plate (36) is connected to the upper end surface of the sleeve rail two (37) through the roller four.

7. The shaping finishing equipment for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, characterized in that the height of the bottom of the rotary grinding disc (46) is equal to the height of the bottom of the lower pressing disc (45).

8. The shaping finishing equipment for the glass fiber reinforced plastic top pipe sleeve processing according to claim 1, wherein the second sleeve rail (37) and the third sleeve rail (39) are arranged in parallel, and the heights of the tops of the second sleeve rail (37) and the third sleeve rail (39) are the same.

9. The shaping and trimming device for the glass fiber reinforced plastic top pipe sleeve machining according to claim 1, wherein position sensors are arranged below the middle part of the second motor (20), the pressing and grinding mechanism (40) and the clamping and conveying frame (51), and the position sensors are in communication connection with a PLC (programmable logic controller) arranged on the workbench (1).

10. A method of operating a shaping finishing device for the machining of glass fiber reinforced plastic top pipe sleeves according to any one of claims 1 to 9, characterized in that it comprises in particular the following steps:

the method comprises the following steps: the glass fiber reinforced plastic top pipe sleeve to be processed is placed on a first conveying belt (8) to be conveyed, a motor ten (12) on a transmission block (11) drives a rolling crawler belt (13) to roll to drive two transverse installation plates (15) to adjust and move forwards and backwards, two sides of the bottom of the glass fiber reinforced plastic top pipe sleeve are respectively blocked by the two transverse installation plates (15), a motor four (29) on a trimming seat (3) drives a roller two (30) to roll on the side wall of a sleeve rail I (1501) to drive a turning plate (22) to adjust and move leftwards and rightwards, a motor three (24) drives a gear (25) to roll in a rolling groove (27) to drive the turning plate (22) to adjust and move forwards and backwards, the glass fiber reinforced plastic top pipe sleeve to be processed is placed between the two turning plates (22), the motor two (20) drives the turning plate (22) to turn downwards through a rotating shaft (21), a grinding column (32) is attached to the side wall of the glass fiber reinforced plastic top pipe sleeve, and the grinding column (32) is driven by a motor five (, Scraping and grinding treatment, wherein a motor IV (29) drives the turning plate (22) to be adjusted left and right, a movable motor III (24) drives a gear (25) to drive the turning plate (22) to move back and forth for adjustment, and a motor II (20) is matched to drive the turning plate (22) to turn downwards;

step two: after the device trims and processes the glass fiber reinforced plastic top pipe sleeve, the glass fiber reinforced plastic top pipe sleeve is conveyed to one end of a first conveying disc (2), a motor seven (38) on a platen table (4) drives a press grinding mechanism (40) to adjust and move back and forth on a sleeve rail three (39), a bottom connecting plate (44) is moved to the position above the trimmed and processed glass fiber reinforced plastic top pipe sleeve, a driving cylinder two (42) drives a lower pressing disc (45) to move and adjust downwards through a hydraulic shaft two (43), the glass fiber reinforced plastic top pipe sleeve is subjected to flat pressing and shaping processing through the lower pressing disc (45), a rotary grinding disc (46) is driven to rotate by matching with a motor eight (47) to grind the top of the glass fiber reinforced plastic top pipe sleeve flatly, and different glass fiber reinforced plastic top pipe sleeves are respectively subjected to rotary grinding processing by matching with a plurality of rotary grinding discs (46);

step three: after the device completes the flat pressing and shaping of the glass fiber reinforced plastic top pipe sleeve, a motor seven (38) on a flat pressing platform (4) drives a clamping and conveying frame (51) to move to the upper part of the glass fiber reinforced plastic top pipe sleeve on a sleeve rail three (39), a driving cylinder three (48) drives the clamping and conveying frame (51) to move downwards through a hydraulic shaft three (49), a motor nine (50) drives the clamping and conveying frame to rotate and adjust the position, two driving cylinders four (52) drive a clamping and pressing pad (54) to stretch and adjust through a hydraulic shaft four (53), the two sides of the glass fiber reinforced plastic top pipe sleeve are respectively clamped and grabbed through two clamping pads (54), then a motor seven (38) drives a clamping and conveying frame (51) and the glass fiber reinforced plastic top pipe sleeve to move, the glass fiber reinforced plastic top pipe sleeve is dropped into a material loading frame (33) of a rear feeding disc (5), and a motor six (34) drives the loading frame (33) to move through a second conveyer belt (35) to transfer the processed glass fiber reinforced plastic top pipe sleeve out.

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