CN213415712U

CN213415712U - Waterproof coiling mechanism of polyethylene polypropylene fibre

Info

Publication number: CN213415712U
Application number: CN202021398971.3U
Authority: CN
Inventors: 刘晓强; 成永强; 张彬; 孙永昌; 马涛
Original assignee: Weifang Shihua Chemical Building Materials Co ltd
Current assignee: Weifang Shihua Chemical Building Materials Co ltd
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2021-06-11
Anticipated expiration: 2030-07-15

Abstract

The utility model discloses a waterproof coiling mechanism of polyethylene polypropylene fibre, including coiling mechanism main part and motor, the inside of coiling mechanism main part is provided with the motor, and the right-hand member and the first connecting axle fixed connection of motor, first spur gear, second spur gear and third spur gear and fourth spur gear welded connection are run through respectively to the right-hand member of first connecting axle, second spur gear's left end is provided with the torsional spring, and torsional spring and ratchet interconnect to ratchet and first spur gear interconnect, second spur gear's upper end and fifth spur gear meshing are connected, and fifth spur gear inside weld installs the second connecting axle. This waterproof coiling mechanism of polyethylene polypropylene fibre, the upright view of supporting shoe is the arc form to can carry out the supporting role to the coiled material, the lead screw drives the supporting shoe through the connecting block when rotatory simultaneously and slides, has made things convenient for the follow-up operation when taking off the coiled material.

Description

Waterproof coiling mechanism of polyethylene polypropylene fibre

Technical Field

The utility model relates to a waterproof technical field of polyethylene polypropylene fibre specifically is a waterproof coiling mechanism of polyethylene polypropylene fibre.

Background

The polyethylene polypropylene fiber waterproof material is a novel waterproof material which is manufactured by adopting a new technology and a new process, is suitable for various fields of building waterproofing, ground waterproofing, indoor wall and ground moisture proofing and the like, and the winding device is required to be used for winding in the production process of the polyethylene polypropylene fiber waterproofing.

Common waterproof coiling mechanism of polyethylene polypropylene fibre in the existing market is accomplishing the back to the rolling of polyethylene polypropylene fibre waterproofing membrane, because of coiled material weight is overweight, causes unable convenient taking off to influenced holistic work efficiency, to above-mentioned problem, carried out the innovative design on original waterproof coiling mechanism of polyethylene polypropylene fibre.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a waterproof coiling mechanism of polyethylene polypropylene fibre to solve the waterproof coiling mechanism of common polyethylene polypropylene fibre on the existing market that proposes in the above-mentioned background, accomplish the back to the rolling of polyethylene polypropylene fibre waterproofing membrane, because of coiled material weight is overweight, cause unable convenient taking off, thereby influenced holistic work efficiency's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a waterproof winding device for polyethylene polypropylene fibers comprises a winding device main body and a motor, wherein the motor is arranged inside the winding device main body, the right end of the motor is fixedly connected with a first connecting shaft, the right end of the first connecting shaft respectively penetrates through a first cylindrical gear, a second cylindrical gear, a third cylindrical gear and a fourth cylindrical gear to be welded, a torsional spring is arranged at the left end of the second cylindrical gear and is connected with a ratchet wheel, the ratchet wheel is connected with the first cylindrical gear, the upper end of the second cylindrical gear is connected with a fifth cylindrical gear in a meshed mode, a second connecting shaft is welded inside the fifth cylindrical gear and is rotatably connected with the inside of the winding device main body, the fifth cylindrical gear is connected with the lower end of a toothed belt in a meshed mode, the upper end of the toothed belt is connected with a sixth cylindrical gear in a meshed mode, a winding roller is fixedly installed inside the sixth cylindrical gear, and the wind-up roll is rotatably connected with the inner wall of the winding device main body, the upper end of the third cylindrical gear is meshed with the seventh cylindrical gear, a third connecting shaft is welded inside the seventh cylindrical gear, the right end of the third connecting shaft penetrates through the first bevel gear and is rotatably connected with the inner wall of the winding device main body, the upper end of the first bevel gear is meshed with the second bevel gear, a lead screw is welded on the upper surface of the second bevel gear, the upper end of the lead screw penetrates through a connecting block and is rotatably connected with the inner wall of the winding device main body, and a supporting block is fixedly mounted at the left end of the connecting block.

Preferably, the first cylindrical gear and the winding device body form a rotating structure through a first connecting shaft, and the second cylindrical gear is in meshing connection with the first cylindrical gear through a ratchet wheel.

Preferably, the second cylindrical gear and the third cylindrical gear are both provided with ratchet wheels, the ratchet wheels respectively form a telescopic structure with the second cylindrical gear and the third cylindrical gear through torsion springs, the ratchet wheels are distributed on the second cylindrical gear at equal angles, and the distribution directions of the ratchet wheels on the second cylindrical gear and the third cylindrical gear are opposite.

Preferably, the winding roller and the winding device main body form a rotating structure through a sixth cylindrical gear, and the sixth cylindrical gear and the fifth cylindrical gear form a linkage structure through a toothed belt.

Preferably, the connecting block and the supporting block are of an integrated structure, and the connecting mode of the connecting block and the threaded rod is threaded connection.

Preferably, the support blocks are seen as being arc-shaped, and the connection blocks are symmetrically distributed about the longitudinal center line of the support blocks.

Compared with the prior art, the beneficial effects of the utility model are that: the waterproof rolling device for the polyethylene polypropylene fiber,

1. the front view of the supporting block is arc-shaped, so that the coiled material can be supported, and meanwhile, the screw rod drives the supporting block to slide through the connecting block when rotating, so that the coiled material can be conveniently taken down;

2. the ratchet wheel forms a telescopic structure with the second cylindrical gear and the third cylindrical gear through the torsion spring respectively, so that the ratchet wheel is convenient to reset through the torsion spring, and the subsequent ratchet wheel is favorable for driving the second cylindrical gear or the third cylindrical gear to rotate respectively;

3. when the motor is just rotatory, drive first roller gear through first connecting axle and rotate for first roller gear drives second roller gear through the ratchet and rotates, thereby can carry out the rolling work to the coiled material, and when motor reverse rotation, through the setting of ratchet, effectual first roller gear that makes is idle running in the inside of second roller gear and drives third roller gear through the ratchet and rotate, is favorable to the power of abundant use motor.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of a side view connection structure of the ratchet wheel and the first cylindrical gear of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of a connection structure between a sixth cylindrical gear and a wind-up roll in a plan view;

fig. 5 is a schematic view of the three-dimensional structure of the supporting block of the present invention.

In the figure: 1. a winding device main body; 2. a motor; 3. a first connecting shaft; 4. a first cylindrical gear; 5. a second cylindrical gear; 6. a third cylindrical gear; 7. a fourth cylindrical gear; 8. a torsion spring; 9. a ratchet wheel; 10. a fifth cylindrical gear; 11. a second connecting shaft; 12. a toothed belt; 13. a sixth cylindrical gear; 14. a wind-up roll; 15. a seventh spur gear; 16. a third connecting shaft; 17. a first bevel gear; 18. a second bevel gear; 19. a screw rod; 20. connecting blocks; 21. and (7) a supporting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a waterproof coiling device for polyethylene polypropylene fibers comprises a coiling device body 1 and a motor 2, wherein the motor 2 is arranged inside the coiling device body 1, the right end of the motor 2 is fixedly connected with a first connecting shaft 3, the right end of the first connecting shaft 3 respectively penetrates through a first cylindrical gear 4, a second cylindrical gear 5, a third cylindrical gear 6 and a fourth cylindrical gear 7 to be welded, the left end of the second cylindrical gear 5 is provided with a torsional spring 8, the torsional spring 8 is connected with a ratchet 9, the ratchet 9 is connected with the first cylindrical gear 4, the upper end of the second cylindrical gear 5 is connected with a fifth cylindrical gear 10 in a meshed mode, a second connecting shaft 11 is welded inside the fifth cylindrical gear 10, the second connecting shaft 11 is rotatably connected with the interior of the coiling device body 1, the fifth cylindrical gear 10 is connected with the lower end of a toothed belt 12 in a meshed mode, and the upper end of the toothed belt 12 is connected with a sixth cylindrical gear 13 in a meshed mode, a winding roller 14 is fixedly installed inside the sixth cylindrical gear 13, the winding roller 14 is rotatably connected with the inner wall of the winding device main body 1, the upper end of the third cylindrical gear 6 is meshed with the seventh cylindrical gear 15, a third connecting shaft 16 is welded inside the seventh cylindrical gear 15, the right end of the third connecting shaft 16 penetrates through the first conical gear 17 to be rotatably connected with the inner wall of the winding device main body 1, the upper end of the first conical gear 17 is meshed with the second conical gear 18, the upper surface of the second conical gear 18 is welded with a screw rod 19, the upper end of the screw rod 19 penetrates through the connecting block 20 to be rotatably connected with the inner wall of the winding device main body 1, and the left end of the connecting block 20 is fixedly provided with a supporting block 21;

the first cylindrical gear 4 and the winding device main body 1 form a rotating structure through the first connecting shaft 3, and the second cylindrical gear 5 is meshed and connected with the first cylindrical gear 4 through the ratchet wheel 9, so that the first cylindrical gear 4 is convenient to rotate, and meanwhile, the first cylindrical gear 4 drives the second cylindrical gear 5 to rotate through the ratchet wheel 9 when rotating;

the ratchet wheels 9 are arranged on the second cylindrical gear 5 and the third cylindrical gear 6 respectively, the ratchet wheels 9 respectively form a telescopic structure with the second cylindrical gear 5 and the third cylindrical gear 6 through torsion springs 8, the ratchet wheels 9 are distributed on the second cylindrical gear 5 at equal angles, and the distribution directions of the ratchet wheels 9 on the second cylindrical gear 5 and the third cylindrical gear 6 are opposite, so that the second cylindrical gear 5 and the third cylindrical gear 6 can not rotate at the same time, and the ratchet wheels 9 can conveniently reset through the torsion springs 8;

the winding roller 14 and the winding device main body 1 form a rotating structure through the sixth cylindrical gear 13, and the sixth cylindrical gear 13 and the fifth cylindrical gear 10 form a linkage structure through the toothed belt 12, so that the fifth cylindrical gear 10 drives the winding roller 14 to rotate during rotation, and subsequent winding work is facilitated;

the connecting block 20 and the supporting block 21 are of an integrated structure, and the connecting mode of the connecting block 20 and the screw rod 19 is threaded connection, so that the screw rod 19 can drive the connecting block 20 and the supporting block 21 to slide when rotating, and the subsequent work of taking down the coiled material is facilitated;

the supporting block 21 is seen as an arc shape, and the connecting blocks 20 are symmetrically distributed about the longitudinal center line of the supporting block 21, so that the supporting block 21 can effectively support the coiled material, and the stability of the supporting block 21 in operation is improved.

The working principle is as follows: according to the figures 1-4, firstly, the worker places the main body 1 of the winding device in a proper position, then connects the motor 2 with an external power source and starts up, so that the motor 2 rotates positively and drives the first connecting shaft 3 to rotate, the first connecting shaft 3 drives the first cylindrical gear 4 and the fourth cylindrical gear 7 to rotate when rotating, at this time, the first cylindrical gear 4 drives the second cylindrical gear 5 to rotate on the second connecting shaft 11 through the ratchet 9, simultaneously, the ratchet 9 on the third cylindrical gear 6 is opposite to the ratchet 9 on the second cylindrical gear 5 in distribution mode, so that when the fourth cylindrical gear 7 drives the ratchet 9 to rotate, the third cylindrical gear 6 is in a stop state, the second cylindrical gear 5 drives the fifth cylindrical gear 10 to rotate when rotating, so that the fifth cylindrical gear 10 drives the sixth cylindrical gear 13 to rotate through the toothed belt 12, the sixth cylindrical gear 13 drives the winding roller 14 to rotate, so that the winding roller 14 winds the polyethylene polypropylene fiber waterproof coiled material, and meanwhile, the supporting block 21 can effectively support the coiled material in the winding process;

according to the figures 1-5, after the winding of the polyethylene polypropylene fiber waterproof coiled material is completed, the winding roller 14 is firstly disassembled to enable the coiled material to completely fall onto the supporting block 21, then the motor 2 is adjusted to enable the coiled material to reversely rotate, at this time, the ratchet wheel 9 on the third cylindrical gear 6 performs reset operation through the torsion spring 8, so that the fourth cylindrical gear 7 drives the third cylindrical gear 6 to rotate through the ratchet wheel 9, meanwhile, the second cylindrical gear 5 is in a stop state, the third cylindrical gear 6 drives the seventh cylindrical gear 15 to rotate when rotating, so that the seventh cylindrical gear 15 drives the first conical gear 17 to rotate through the third connecting shaft 16, the first conical gear 17 drives the screw rod 19 to rotate through the second conical gear 18 when rotating, so that the connecting block 20 slides and drives the supporting block 21 to descend, thereby effectively facilitating the operation of taking off the coiled material, the phenomenon that the coiled material cannot be taken down due to overweight is avoided, the working process of the whole device is just the above, and the content which is not described in detail in the specification belongs to the prior art which is known by the professional in the field.

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

Claims

1. The utility model provides a waterproof coiling mechanism of polyethylene polypropylene fibre, includes coiling mechanism main part (1) and motor (2), its characterized in that: the winding device comprises a winding device body (1), wherein a motor (2) is arranged inside the winding device body (1), the right end of the motor (2) is fixedly connected with a first connecting shaft (3), the right end of the first connecting shaft (3) penetrates through a first cylindrical gear (4), a second cylindrical gear (5), a third cylindrical gear (6) and a fourth cylindrical gear (7) in a welded connection mode respectively, the left end of the second cylindrical gear (5) is provided with a torsion spring (8), the torsion spring (8) is connected with a ratchet wheel (9) in an interconnected mode, the ratchet wheel (9) is connected with the first cylindrical gear (4) in an interconnected mode, the upper end of the second cylindrical gear (5) is connected with a fifth cylindrical gear (10) in a meshed mode, a second connecting shaft (11) is installed inside the fifth cylindrical gear (10) in a welded mode, the second connecting shaft (11) is connected with the winding device body (1) in a rotating mode, and the fifth cylindrical gear (10) is connected with the lower end of a toothed belt (12) in, the upper end of the toothed belt (12) is meshed with a sixth cylindrical gear (13), a winding roller (14) is fixedly mounted inside the sixth cylindrical gear (13), the winding roller (14) is rotatably connected with the inner wall of the winding device main body (1), the upper end of a third cylindrical gear (6) is meshed with a seventh cylindrical gear (15), a third connecting shaft (16) is welded inside the seventh cylindrical gear (15), the right end of the third connecting shaft (16) penetrates through a first conical gear (17) to be rotatably connected with the inner wall of the winding device main body (1), the upper end of the first conical gear (17) is meshed with a second conical gear (18), a lead screw (19) is welded on the upper surface of the second conical gear (18), and the upper end of the lead screw (19) penetrates through a connecting block (20) to be rotatably connected with the inner wall of the winding device main body (1), and a supporting block (21) is fixedly installed at the left end of the connecting block (20).

2. The waterproof coiling mechanism of polyethylene polypropylene fibre of claim 1 characterized in that: the first cylindrical gear (4) and the winding device body (1) form a rotating structure through a first connecting shaft (3), and the second cylindrical gear (5) is in meshed connection with the first cylindrical gear (4) through a ratchet wheel (9).

3. The waterproof coiling mechanism of polyethylene polypropylene fibre of claim 1 characterized in that: ratchet wheels (9) are installed on the second cylindrical gear (5) and the third cylindrical gear (6), the ratchet wheels (9) respectively form a telescopic structure with the second cylindrical gear (5) and the third cylindrical gear (6) through torsion springs (8), the ratchet wheels (9) are distributed on the second cylindrical gear (5) at equal angles, and meanwhile the distribution directions of the ratchet wheels (9) on the second cylindrical gear (5) and the third cylindrical gear (6) are opposite.

4. The waterproof coiling mechanism of polyethylene polypropylene fibre of claim 1 characterized in that: the winding roller (14) and the winding device main body (1) form a rotating structure through a sixth cylindrical gear (13), and the sixth cylindrical gear (13) and the fifth cylindrical gear (10) form a linkage structure through a toothed belt (12).

5. The waterproof coiling mechanism of polyethylene polypropylene fibre of claim 1 characterized in that: the connecting block (20) and the supporting block (21) are of an integrated structure, and the connecting block (20) is in threaded connection with the screw rod (19).

6. The waterproof coiling mechanism of polyethylene polypropylene fibre of claim 1 characterized in that: the front view of the supporting block (21) is arc-shaped, and the connecting blocks (20) are symmetrically distributed about the longitudinal center line of the supporting block (21).