CN115891122B

CN115891122B - Glass fiber reinforced plastic sand inclusion pipe winding device

Info

Publication number: CN115891122B
Application number: CN202310070308.2A
Authority: CN
Inventors: 徐杭苏; 叶志群; 鲍岳祥; 徐崇玉; 倪炜; 赵亚南; 周海峰
Original assignee: Zhejiang Huafeng New Material Co ltd
Current assignee: Zhejiang Huafeng New Material Co ltd
Priority date: 2023-02-07
Filing date: 2023-02-07
Publication date: 2023-05-23
Anticipated expiration: 2043-02-07
Also published as: CN115891122A

Abstract

The invention provides a glass fiber reinforced plastic sand inclusion pipe winding device, which automatically conveys glass fibers of prepreg resin to a winding core through a glass fiber guiding mechanism, a glass fiber fixing mechanism can automatically press the glass fibers of the prepreg resin on the winding core, a sand inclusion cloth winding mechanism can automatically convey sand inclusion cloth to the winding core, and the winding core continuously rotates to wind the sand inclusion cloth on the winding core, so that the glass fiber reinforced plastic sand inclusion pipe winding work is automatically completed, the work efficiency and the quality are improved, and the problems of lower work efficiency and poor winding effect quality caused by the existing manual winding are solved.

Description

Glass fiber reinforced plastic sand inclusion pipe winding device

Technical Field

The invention relates to the technical field of plastic molding or connection, in particular to a glass fiber reinforced plastic sand inclusion pipe winding device.

Background

Glass fiber reinforced plastic sand inclusion pipe, commonly called glass fiber reinforced plastic sand inclusion pipe, uses glass fiber and its products as reinforcing material, uses unsaturated polyester resin as matrix material, uses inorganic nonmetallic material such as quartz sand and calcium carbonate as filler, and the produced pipe glass fiber reinforced plastic sand inclusion pipe has the performances of designability, corrosion resistance, light weight, high strength, smooth inner wall, small resistance, convenient transportation and installation, long service life, low maintenance cost, etc. and is widely used;

at present, the glass fiber reinforced plastic sand inclusion pipe is manufactured manually, and the working procedures are as follows: manually winding the inner winding layer, the sand inclusion layer and the outer winding layer, wherein the inner winding layer and the outer winding layer are all wound by glass fibers; after the glass fiber reinforced plastic sand inclusion pipe is shaped, the glass fiber reinforced plastic sand inclusion pipe is manually taken down from the winding shaft. However, the manual winding mode causes the problems of lower working efficiency and poor winding effect quality;

therefore, it is highly desirable to provide a method for automatically manufacturing glass fiber reinforced plastic sand inclusion pipe to solve the above problems.

Disclosure of Invention

In order to solve the problems, the invention provides the glass fiber reinforced plastic sand inclusion pipe winding device, which automatically conveys glass fibers of prepreg resin to a winding core through the glass fiber guiding mechanism, the glass fiber fixing mechanism can automatically press the glass fibers of the prepreg resin on the winding core, the sand inclusion cloth winding mechanism can automatically convey sand inclusion cloth to the winding core, and the winding core continuously rotates to wind the sand inclusion cloth on the winding core, so that the glass fiber reinforced plastic sand inclusion pipe winding work is fully automatically completed, and the working efficiency and quality are improved.

The technical scheme adopted by the invention is as follows: a glass fiber reinforced plastic sand inclusion pipe winding device, comprising: the device comprises a glass fiber guiding mechanism, a glass fiber fixing mechanism, a sand wrapping cloth winding mechanism, a demolding mechanism, a machine seat, a winding core, a screw rod sliding table mechanism and a control operation button;

the winding core is rotatably arranged on the machine base through a rotating shaft, the glass fiber fixing mechanism is arranged on the left side of the machine base, and the demoulding mechanism is arranged on the right side of the machine base; the demoulding mechanism is connected with the inside of the winding core and can control the whole shrinkage and expansion of the winding core; the screw rod sliding table mechanism is arranged in front of the machine base, a wrapping abrasive cloth winding mechanism is arranged below a first sliding block of the screw rod sliding table mechanism, and a glass fiber guiding mechanism is arranged above a second sliding block of the screw rod sliding table mechanism;

the glass fiber guiding mechanism conveys glass fibers of the prepreg resin to the winding core, the demolding mechanism drives the winding core to rotate, so that the glass fibers of the prepreg resin are wound on the winding core, the glass fiber fixing mechanism compresses the glass fibers of the prepreg resin on the winding core, the sand wrapping cloth winding mechanism conveys sand wrapping cloth to the winding core, the winding core continues to rotate to wind the sand wrapping cloth on the winding core, then the glass fiber guiding mechanism conveys the glass fibers of the prepreg resin to the winding core again, the winding core continues to rotate to wind the glass fibers of the prepreg resin on the winding core, and the glass fiber fixing mechanism compresses the glass fibers of the prepreg resin on the winding core again; after the inner winding layer, the sand-wrapping cloth layer and the outer winding layer are wound, wherein the inner winding layer and the outer winding layer are both formed by winding glass fibers, and the demoulding mechanism integrally contracts the winding core, so that the produced glass fiber reinforced plastic sand inclusion pipe is separated from contact with the winding core to achieve the aim of demoulding; the control operation button is arranged on the machine base and is used for controlling the action of an electric control element in the whole device.

Further, the glass fiber guiding mechanism includes: the device comprises a screw rod assembly A, a fiber traction clamp, glass fibers, a traction motor A, a telescopic gear set, a feeding bracket, a guide plate, a screw rod set, a traction sliding frame, glass fiber blades and a motor turntable;

the screw rod assembly A is arranged on the traction sliding frame, and the fiber traction clamp is arranged on the screw rod assembly A; the feeding bracket is arranged on the second sliding block, and the glass fiber is arranged on the feeding bracket through a rolling shaft; the traction motor A is arranged on the guide plate, a telescopic gear set is arranged on a motor shaft of the traction motor A, and a cylindrical gear at the upper half part of the telescopic gear set is meshed with racks at two sides in the upper end of the feeding support; the guide plate is slidably arranged in the chute of the feeding bracket; the bevel gear of the lower half part of the telescopic gear set is meshed with the bevel gear set on the screw rod set; the traction sliding frame is sleeved on the screw rod group and is slidably arranged in the chute of the guide plate; the motor turntable is arranged on the traction sliding frame, and the glass fiber blade is arranged on the motor turntable.

Further, the glass fiber fixing mechanism includes: the device comprises a support frame, a pressing plate motor, a spring, a cylindrical cam, a plane cam and a fiber pressing plate;

the support frame is arranged on the ground, the pressing plate motor is arranged on one side of the support frame through the motor seat, one end of the cylindrical cam is arranged on a motor shaft of the pressing plate motor, and the other end of the cylindrical cam penetrates through the inside of the support frame and then is connected with the plane cam; the spring is sleeved on the outer cylindrical shell of the support frame, one end of the spring props against the outer cylindrical shell, the other end of the spring is connected with the fiber pressing plate, and the fiber pressing plate is slidably mounted on the cylindrical cam.

Further, the sand wrapping cloth winding mechanism and the glass fiber guiding mechanism have the same structure, and the sand wrapping cloth is arranged on the feeding bracket through the rolling shaft.

Further, the demolding mechanism includes: the device comprises a demoulding motor, a demoulding turntable gear, a demoulding turntable, an arc chute, a short winding chip, a long winding chip and a winding pipe driving motor;

the demoulding motor is arranged on the winding pipe through a motor seat; the demolding turntable gear is meshed with a gear on a motor shaft of the demolding motor, and is coaxially arranged on the demolding turntable; the demoulding rotary table is provided with arc-shaped sliding grooves, and telescopic rods of the short winding chip and the long winding chip are respectively arranged in the corresponding arc-shaped sliding grooves; the winding pipe is arranged on a motor shaft of the winding pipe driving motor.

Further, the screw slide mechanism includes: the device comprises a first sliding block, a second sliding block, a lead screw, a stepping motor and a working support table;

the stepping motor is arranged on the side face of the working support table, the screw rod is connected with a motor shaft of the stepping motor, and the first sliding block and the second sliding block are sleeved on the screw rod.

Due to the adoption of the technical scheme, the invention has the following advantages:

according to the invention, glass fiber guiding mechanism automatically conveys glass fiber of prepreg resin to winding core, demoulding mechanism drives winding core to automatically rotate, so that glass fiber of prepreg resin is wound on winding core, glass fiber fixing mechanism can automatically compress glass fiber of prepreg resin on winding core, sand wrapping cloth winding mechanism can automatically convey sand wrapping cloth to winding core, winding core continuously rotates to wind sand wrapping cloth on winding core, glass fiber guiding mechanism automatically conveys glass fiber of prepreg resin to winding core again, winding core continuously rotates to wind glass fiber of prepreg resin on winding core, and glass fiber fixing mechanism automatically compresses glass fiber of prepreg resin on winding core again; after the inner winding layer, the sand-wrapping cloth layer and the outer winding layer are wound, wherein the inner winding layer and the outer winding layer are both wound by glass fibers, and the demoulding mechanism can automatically shrink the whole winding core, so that the produced glass fiber reinforced plastic sand inclusion pipe is separated from contact with the winding core to achieve the aim of automatic demoulding; thereby realizing the full-automatic winding work of the glass fiber reinforced plastic sand inclusion pipe and improving the working efficiency and quality.

Drawings

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

Fig. 2-3 are schematic structural views of the glass fiber guiding mechanism of the present invention.

FIG. 4 is a schematic view of a glass fiber fixing mechanism according to the present invention.

Fig. 5 is a schematic view of the structure of the cylindrical cam of the present invention.

Fig. 6 is a schematic structural view of a mechanism for wrapping abrasive cloth according to the present invention.

Fig. 7 is a schematic structural view of the demolding mechanism of the present invention.

Fig. 8 is a schematic structural view of the screw rod sliding table mechanism of the present invention.

Reference numerals: the glass fiber winding machine comprises a glass fiber guiding mechanism-1, a glass fiber fixing mechanism-2, a sand-wrapping cloth winding mechanism-3, a demolding mechanism-4, a machine base-5, a winding core-6, a screw sliding table mechanism-7, a screw assembly A-101, a fiber traction clamp-102, a glass fiber-103, a traction motor A-104, a telescopic gear set-105, a feeding bracket-106, a guide plate-107, a screw rod set-108, a traction sliding frame-109, a glass fiber blade-110, a motor turntable-111, a supporting bracket-201, a pressing plate motor-202, a spring-203, a cylindrical cam-204, a planar cam-205, a fiber pressing plate-206, a demolding motor-401, a demolding turntable gear-402, a demolding turntable-403, an arc sliding groove-404, a short winding chip-601, a long winding chip-602, a winding pipe driving motor-405, a first sliding block-701, a second sliding block-702, a screw-703, a stepping motor-704 and a working supporting table-705.

Detailed Description

The technical scheme of the invention is further specifically described below through examples and with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be embodied in many other forms than described herein, and persons skilled in the art will be able to make similar modifications without departing from the spirit of the invention, so that the invention is not limited to the specific embodiments disclosed below.

1-8, a glass fiber reinforced plastic sand inclusion pipe winding device comprises: the device comprises a glass fiber guiding mechanism 1, a glass fiber fixing mechanism 2, a sand wrapping cloth winding mechanism 3, a demoulding mechanism 4, a machine base 5, a winding core 6, a screw rod sliding table mechanism 7 and a control operation button;

the winding core 6 is rotatably arranged on the machine base 5 through a rotating shaft, the glass fiber fixing mechanism 2 is arranged on the left side of the machine base 5, and the demoulding mechanism 4 is arranged on the right side of the machine base 5; the demoulding mechanism 4 is connected with the inside of the winding core 6 and can control the whole contraction and relaxation of the winding core 6; the lead screw sliding table mechanism 7 is arranged in front of the machine base 5, the abrasive cloth wrapping and winding mechanism 3 is arranged below the first sliding block 701 of the lead screw sliding table mechanism 7, and the glass fiber guiding mechanism 1 is arranged above the second sliding block 702 of the lead screw sliding table mechanism 7;

the glass fiber guiding mechanism 1 conveys glass fiber of the prepreg resin to the winding core 6, the demolding mechanism 4 drives the winding core 6 to rotate, so that the glass fiber of the prepreg resin is wound on the winding core 6, the glass fiber fixing mechanism 2 compresses the glass fiber of the prepreg resin on the winding core 6, the sand wrapping winding mechanism 3 conveys sand wrapping cloth to the winding core 6, the winding core 6 continues to rotate to wind the sand wrapping cloth on the winding core 6, then the glass fiber guiding mechanism 1 conveys the glass fiber of the prepreg resin to the winding core 6 again, the winding core 6 continues to rotate to wind the glass fiber of the prepreg resin on the winding core 6, and the glass fiber fixing mechanism 2 compresses the glass fiber of the prepreg resin on the winding core 6 again; after the inner winding layer, the sand-wrapping cloth layer and the outer winding layer are wound, wherein the inner winding layer and the outer winding layer are wound by glass fibers, the winding core 6 is integrally contracted by the demoulding mechanism 4, and the produced glass fiber reinforced plastic sand inclusion pipe is separated from contact with the winding core 6 to achieve the aim of demoulding; the control operation button is arranged on the stand 5 and is used for controlling the action of an electric control element in the whole device.

The glass fiber guiding mechanism 1 includes: lead screw assembly a101, fiber draw clamp 102, glass fiber 103, draw motor a104, telescoping gear set 105, feed carriage 106, guide plate 107, screw set 108, draw carriage 109, glass fiber blade 110, and motor turntable 111; the screw rod assembly A101 is mounted on the traction sliding frame 109, and the fiber traction clamp 102 is mounted on the screw rod assembly A101; the feeding bracket 106 is arranged on the second sliding block 702, and the glass fiber 103 is arranged on the feeding bracket 106 through a roller; the traction motor A104 is arranged on the guide plate 107, a telescopic gear set 105 is arranged on a motor shaft of the traction motor A, and a cylindrical gear at the upper half part of the telescopic gear set 105 is meshed with racks at two sides in the upper end of the feeding bracket 106; the guide plate 107 is slidably mounted in the chute of the feed bracket 106; the bevel gear of the lower half of the telescopic gear set 105 is meshed with the bevel gear set on the screw rod set 108; the traction sliding frame 109 is sleeved on the screw rod group 108, and the traction sliding frame 109 is slidably arranged in a chute of the guide plate 107; a motor turntable 111 is mounted on the traction carriage 109 and a fiberglass blade 110 is mounted on the motor turntable 111. The screw rod assembly A101 is driven by a motor to rotate, so that the fiber traction clamp 102 clamps the glass fiber 103 presoaked with resin; then the traction motor A104 drives the telescopic gear set 105 to rotate, the cylindrical gear at the upper half part of the telescopic gear set 105 is meshed with racks at two sides in the upper end of the feeding support 106, so that the guide plate 107 is driven to move in a chute of the feeding support 106, the conical gear at the lower half part of the telescopic gear set 105 drives the spiral rod set 108 to rotate, the spiral rod set 108 drives the traction sliding frame 109 to move in the chute of the guide plate, the traction sliding frame 109 drives the glass fiber to clamp the fiber traction clamp, the glass fiber is placed above a position to be wound, and then the glass fiber presoaked with resin is fixed on the winding core 6 through the glass fiber fixing mechanism; then the motor on the power screw rod drives the power screw rod, and the power screw rod drives the fiber guide bracket so as to drive the glass fiber guide mechanism to integrally slide on the bracket of the power screw rod, and the glass fiber of the prepreg resin is wound on the winding core by matching with the rotation of the winding core 6. After the glass fiber is wound, the motor at the rear end of the turntable drives the turntable to enable the small centrifugal cylinder on the turntable to drive the glass fiber blade 110 to cut the glass fiber.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 4, the glass fiber fixing mechanism 2 includes: support frame 201, platen motor 202, spring 203, cylindrical cam 204, planar cam 205 and fiber platen 206; the support frame 201 is arranged on the ground, the pressing plate motor 202 is arranged on one side of the support frame 201 through a motor seat, one end of the cylindrical cam 204 is arranged on a motor shaft of the pressing plate motor 202, and the other end of the cylindrical cam 204 penetrates through the inside of the support frame 201 and is connected with the plane cam 205; the spring 203 is sleeved on the outer cylindrical shell of the supporting frame 201, one end of the spring 203 abuts against the outer cylindrical shell, the other end of the spring is connected with the fiber pressing plate 206, and the fiber pressing plate 206 is slidably mounted on the cylindrical cam 204. The sand wrapping mechanism 3 and the glass fiber guiding mechanism 1 have the same structure, and the sand wrapping cloth 303 is arranged on the feeding bracket through a roller. When the glass fiber is placed above the winding core 6, the motor at the right end drives the cylindrical cam 204, the curved inclined surface on the cylindrical cam 204 drives the fiber pressing plate 206 to move leftwards to the upper part of the glass fiber, the planar cam 205 drives the gripper to rotate to a small end, the springs 203 on the supporting frame and the internal springs of the fiber pressing plate shrink to enable the fiber pressing plate to descend so as to press the glass fiber presoaked with resin on the winding core 6, the glass fiber is fixed on the winding core 6 through the effect of the resin, and then the motor reversely rotates to reset the fiber pressing plate 206 through the springs 203 on the supporting frame.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 7 to 8, the demolding mechanism 4 includes: a demoulding motor 401, a demoulding rotary table gear 402, a demoulding rotary table 403, an arc chute 404, a short winding chip 601, a long winding chip 602 and a winding pipe driving motor 405; the demoulding motor 401 is arranged on the winding pipe through a motor seat; the demolding rotary table gear 402 is meshed with a gear on a motor shaft of the demolding motor 401, and the demolding rotary table gear 402 is coaxially arranged on the demolding rotary table 403; the demoulding rotary table 403 is provided with an arc-shaped chute 404, and telescopic rods of the short winding chip 601 and the long winding chip 602 are respectively arranged in the corresponding arc-shaped chute 404; the winding tube is mounted on the motor shaft of the winding tube driving motor 405; the screw slide mechanism 7 includes: a first slider 701, a second slider 702, a lead screw 703, a stepping motor 704, and a work support table 705; the step motor 704 is installed in the side of work supporting bench 705, and lead screw 703 is connected with step motor 704's motor shaft, and first slider 701 and second slider 702 are all overlapped on lead screw 703. After the inner winding layer, the sand inclusion layer and the outer winding layer are wound, wherein the inner winding layer and the outer winding layer are wound by glass fibers; after the shaping of the glass fiber reinforced plastic sand inclusion tube, the demoulding motor 401 on the winding tube drives the gear, and the gear drives the toothed ring on the demoulding rotary table 403 to rotate the demoulding rotary table 403, and the arc chute on the demoulding rotary table 403 can shrink the short winding chip 601 towards the circle center and then shrink the long winding chip 602 towards the circle center, so that the winding core 6 is integrally shrunk, and the glass fiber reinforced plastic sand inclusion tube is separated from the winding core to achieve the purpose of demoulding.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "front", "rear", "left", "right", etc., are based on directions or positional relationships shown in the drawings, or directions or positional relationships in which the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present invention.

Claims

1. A glass fiber reinforced plastic sand inclusion pipe winding device, comprising: the device comprises a glass fiber guiding mechanism (1), a glass fiber fixing mechanism (2), a sand wrapping cloth winding mechanism (3), a demoulding mechanism (4), a machine base (5), a winding core (6), a screw rod sliding table mechanism (7) and a control operation button;

the winding core (6) is rotatably arranged on the machine base (5) through a rotating shaft, the glass fiber fixing mechanism (2) is arranged on the left side of the machine base (5), and the demoulding mechanism (4) is arranged on the right side of the machine base (5); the demoulding mechanism (4) is connected with the inside of the winding core (6) and can control the whole contraction and expansion of the winding core (6); the screw rod sliding table mechanism (7) is arranged in front of the machine base (5), a sand cloth wrapping winding mechanism (3) is arranged below a first sliding block (701) of the screw rod sliding table mechanism (7), and a glass fiber guiding mechanism (1) is arranged above a second sliding block (702) of the screw rod sliding table mechanism (7);

the glass fiber guiding mechanism (1) conveys glass fibers of the prepreg resin to the winding core (6), the demolding mechanism (4) drives the winding core (6) to rotate, so that the glass fibers of the prepreg resin are wound on the winding core (6), the glass fiber fixing mechanism (2) presses the glass fibers of the prepreg resin on the winding core (6), the sand wrapping winding mechanism (3) conveys the sand wrapping cloth to the winding core (6), the winding core (6) continues to rotate to wind the sand wrapping cloth on the winding core (6), then the glass fiber guiding mechanism (1) again conveys the glass fibers of the prepreg resin to the winding core (6), the winding core (6) continues to rotate to wind the glass fibers of the prepreg resin on the winding core (6), and the glass fiber fixing mechanism (2) again presses the glass fibers of the prepreg resin on the winding core (6); after the inner winding layer, the sand-wrapping cloth layer and the outer winding layer are wound, wherein the inner winding layer and the outer winding layer are wound by glass fibers, the winding core (6) is integrally contracted by the demoulding mechanism (4), and the produced glass fiber reinforced plastic sand inclusion pipe is separated from contact with the winding core (6) to achieve the aim of demoulding; the control operation button is arranged on the stand (5) and is used for controlling the action of an electric control element in the whole device;

the glass fiber guiding mechanism (1) comprises: the device comprises a screw rod assembly A (101), a fiber traction clamp (102), glass fibers (103), a traction motor A (104), a telescopic gear set (105), a feeding bracket (106), a guide plate (107), a screw rod assembly (108), a traction sliding frame (109), glass fiber blades (110) and a motor turntable (111);

the screw rod assembly A (101) is mounted on the traction sliding frame (109), and the fiber traction clamp (102) is mounted on the screw rod assembly A (101); the feeding bracket (106) is arranged on the second sliding block (702), and the glass fiber (103) is arranged on the feeding bracket (106) through a roller; the traction motor A (104) is arranged on the guide plate (107), a telescopic gear set (105) is arranged on a motor shaft of the traction motor A, and a cylindrical gear at the upper half part of the telescopic gear set (105) is meshed with racks at two sides in the upper end of the feeding bracket (106); the guide plate (107) is slidably arranged in the chute of the feeding bracket (106); the bevel gear of the lower half part of the telescopic gear set (105) is meshed with the bevel gear set on the screw rod set (108); the traction sliding frame (109) is sleeved on the screw rod group (108), and the traction sliding frame (109) is slidably arranged in a chute of the guide plate (107); the motor turntable (111) is mounted on the traction sliding frame (109), and the glass fiber blade (110) is mounted on the motor turntable (111).

2. A glass fiber reinforced plastic sand-lined pipe winding device according to claim 1, characterized in that the glass fiber fixing mechanism (2) comprises: the device comprises a supporting frame (201), a pressing plate motor (202), a spring (203), a cylindrical cam (204), a plane cam (205) and a fiber pressing plate (206);

the support frame (201) is arranged on the ground, the pressing plate motor (202) is arranged on one side of the support frame (201) through a motor seat, one end of the cylindrical cam (204) is arranged on a motor shaft of the pressing plate motor (202), and the other end of the cylindrical cam passes through the inside of the support frame (201) and is connected with the plane cam (205); the spring (203) is sleeved on the outer cylindrical shell of the supporting frame (201), one end of the spring (203) props against the outer cylindrical shell, the other end of the spring is connected with the fiber pressing plate (206), and the fiber pressing plate (206) is slidably mounted on the cylindrical cam (204).

3. The glass fiber reinforced plastic sand inclusion pipe winding device according to claim 1, wherein the sand inclusion cloth winding mechanism (3) and the glass fiber guiding mechanism (1) have the same structure, and the sand inclusion cloth (303) is arranged on the feeding bracket through a roller.

4. A glass fiber reinforced plastic sand-lined pipe winding device according to claim 1, characterized in that the demoulding mechanism (4) comprises: the device comprises a demoulding motor (401), a demoulding rotary table gear (402), a demoulding rotary table (403), an arc chute (404), a short winding chip (601), a long winding chip (602) and a winding pipe driving motor (405);

the demolding motor (401) is arranged on the winding pipe through a motor seat; the demolding rotary table gear (402) is meshed with a gear on a motor shaft of the demolding motor (401), and the demolding rotary table gear (402) is coaxially arranged on the demolding rotary table (403); an arc-shaped chute (404) is arranged on the demoulding rotary table (403), and telescopic rods of the short winding chip (601) and the long winding chip (602) are respectively arranged in the corresponding arc-shaped chute (404); the winding tube is mounted on the motor shaft of a winding tube driving motor (405).

5. A glass fiber reinforced plastic sand inclusion pipe winding device according to claim 1, wherein the screw slide mechanism (7) comprises: a first slider (701), a second slider (702), a screw (703), a stepping motor (704) and a work support table (705);

the stepping motor (704) is arranged on the side face of the working support table (705), the lead screw (703) is connected with a motor shaft of the stepping motor (704), and the first sliding block (701) and the second sliding block (702) are sleeved on the lead screw (703).