CN210617288U - Semi-automatic coiler of tubular product protection film - Google Patents

Abstract

The utility model relates to a tubular product technical field specifically is a semi-automatic coiler of tubular product protection film. The winding machine comprises a first pipe support, a second pipe support, a winding mechanism support and a winding mechanism; the first pipe support and the second pipe support are arranged along a straight line, the winding mechanism support is arranged between the first pipe support and the second pipe support, and the centers of the longitudinal sections of the first pipe support and the second pipe support are superposed; the winding mechanism is arranged on the winding mechanism bracket and rotates around the outer side of the winding mechanism bracket; a reel for placing the protective film on the winding mechanism; the pipe is supported on the first pipe support and the second pipe support and moves linearly. Because first tubular product support and second tubular product support are open structure, so pipe length is not influenced, and winding work is finished back tubular product and is directly followed second tubular product support tip and moved out this device, need not to shut down and change tubular product, and this coiler whole mechanical control compares than artifical winding, and the protection film is arranged evenly, and work efficiency is showing and is promoting.

Description

Semi-automatic coiler of tubular product protection film

Technical Field

The utility model relates to a tubular product technical field specifically is an automatic winding device of coiling tubular product protection film.

Background

In the pipeline work progress, in order to prevent polluting the surrounding environment or the pipeline receives the corruption, causes the pipeline to damage or increases the pipeline cleaning work on foot, need carry out the winding operation of protection film to the tubular product of installation in the pipeline. At present, the main operation method of the work is to support the pipe on the bracket, manually wind the protective film around the pipe, usually two to three persons are needed to complete the operation, the operation process is complicated, and the efficiency is low.

Therefore, a vertical winding device is proposed, wherein a pipe is erected by the device, and a protective film is coated on the pipe wall by a winding mechanism, so that the pipe protection work is completed. However, the pipe needs to be erected vertically, if the pipe is large in diameter and heavy in material, the pipe is long, operation is very laborious, and the pipe is too short and is not suitable for use. In addition, every time one pipe winding work is finished, the machine needs to be stopped to replace the pipe, and then the machine can continue to be used, so that the labor intensity is reduced, and the improvement of the production efficiency is not obvious.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art drawback, provide a semi-automatic coiler of tubular product protection film, treat to twine tubular product and be in the device forward motion, the protection film winding mechanism of its setting is about to the protection film winding on tubular product, the utility model discloses can be even with the protection film winding, but continuous operation, the winding efficiency is high.

The utility model provides a technical scheme that its technical problem adopted is:

a semi-automatic winding machine for a pipe protective film comprises a first pipe support, a second pipe support, a winding mechanism support and a winding mechanism; the first pipe support and the second pipe support are arranged at intervals along a straight line, the winding mechanism support is arranged between the first pipe support and the second pipe support, and the centers of the longitudinal sections of the first pipe support and the second pipe support are superposed; the winding mechanism is arranged on the winding mechanism bracket, rotates along the winding mechanism bracket and is provided with a scroll of a protective film; the pipe is supported on the first pipe support and the second pipe support, and the pipe moves linearly from the first pipe support to the second pipe support.

According to the semi-automatic winding machine for the pipe protective film, the winding mechanism bracket comprises a rotating track and a bracket; the rotating rail is arranged on the bracket and is of an annular structure provided with a ring groove; gear teeth are arranged on the inner side of the ring groove and meshed with a gear arranged at one end of the winding mechanism, so that the gear does circular revolution motion along the ring groove.

The winding mechanism comprises a revolution motor and a film winding motor, and the shells of the revolution motor and the film winding motor are connected and fixed into a whole through a connecting rod; one end of the revolution motor main shaft is provided with a gear, and the gear is meshed with the gear teeth of the ring groove; one end of the film winding motor spindle is inserted with a scroll of a protective film; the protective film on the protective film reel is drawn onto the tubing.

According to the semi-automatic winding machine for the pipe protective film, the winding mechanism is additionally provided with the limiting mechanism, the limiting mechanism is installed on the revolution motor shell, the limiting mechanism is two rollers which are arranged at intervals, and the rollers are respectively clamped and contacted with the inner side and the outer side of the rotating track.

According to the semi-automatic winding machine for the pipe protective film, the winding mechanism support is close to one side of the winding mechanism, the baffle is additionally arranged, and the gear of the revolution motor is limited in the ring groove by the baffle.

According to the semi-automatic winding machine for the pipe protection film, the first pipe support and the second pipe support are obliquely arranged along the horizontal plane, so that an included angle of 2-5 degrees is formed between the central axis of the pipe and the horizontal plane.

The utility model has the advantages that:

the utility model discloses tubular product is along first tubular product support and second tubular product support linear motion, and the protection film is rotatory around winding mechanism support along with winding mechanism, and the two combines to accomplish tubular product protection film winding work. The first pipe support and the second pipe support are of open structures, so that the length of a pipe is not influenced, the pipe directly runs out of the device from the end part of the second pipe support after winding operation is finished, and the next pipe to be wound is directly fed in without stopping. This device whole very easy automatic operation compares than artifical winding, and the protection film is arranged evenly, and work efficiency is showing and is promoting.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

FIG. 1 is an axial schematic view of the present invention;

FIG. 2 is a front schematic view of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is an axial schematic view of a spacing mechanism;

FIG. 5 is a schematic view of an exemplary position of a spacing mechanism;

FIG. 6 is a schematic view showing the engagement of a gear at one end of the revolving motor with the gear teeth of the ring groove;

FIG. 7 is a schematic sectional view taken along line A-A.

In the drawings, the reference numerals denote: 1. a first tubing support; 2. a second tubing support; 3. a winding mechanism support; 3-1, rotating the track; 3-2, a bracket; 3-3, a ring groove; 3-4, a baffle plate; 4. A winding mechanism; 4-1, a revolution motor; 4-2, a film winding motor; 4-3, a limiting mechanism; 6. a protective film; 7. A pipe.

Detailed Description

The present invention will be further described with reference to the following examples.

Referring to fig. 1, the utility model relates to a semi-automatic winding machine for a pipe protective film, which comprises a first pipe support 1, a second pipe support 2, a winding mechanism support 3, a winding mechanism 4 and a control panel 5; the first pipe support 1 and the second pipe support 2 are arranged at intervals along a straight line, the winding mechanism support 3 is arranged between the first pipe support 1 and the second pipe support 2, and the centers of the longitudinal sections of the first pipe support 1 and the second pipe support 2 are superposed; the winding mechanism 4 is arranged on the winding mechanism bracket 3; the winding mechanism bracket 3 comprises a rotating track 3-1 and a bracket 3-2; the rotating track 3-1 is installed on the support 3-2, referring to fig. 1, 4 and 6-7, the rotating track 3-1 is an annular structure provided with an annular groove 3-3, gear teeth are arranged on the inner side of the annular groove 3-3 and meshed with a gear arranged at one end of the winding mechanism 4, and the winding mechanism 4 rotates and simultaneously enables the gear to do circular revolution motion along the annular groove 3-3 due to the meshing effect between the gears.

Referring to fig. 1 and 2, the winding mechanism 4 includes a revolving motor 4-1 and a film winding motor 4-2; the revolution motor 4-1 and the shell of the film winding motor 4-2 are connected and fixed into a whole through a connecting rod; one end of the main shaft of the revolution motor 4-1 is provided with a gear, and the gear is meshed with the gear teeth of the annular groove 3-3; the design can ensure that the winding mechanism 4 does circular revolution motion around the ring grooves 3-3, and the rotating speed does not influence the speed of the film winding motor 4-2 and further does not influence the output speed of the protective film 6. One end of the main shaft of the film winding motor 4-2 is inserted with a scroll of a protective film 6; the protective film on the roll of protective film 6 is drawn onto the tubing 7.

As shown in fig. 3 to 5, a limiting mechanism 4-3 is additionally arranged on the winding mechanism 4, the limiting mechanism 4-3 is installed on a shell of the revolution motor 4-1, the limiting mechanism 4-3 is two rollers arranged at intervals, and the rollers are respectively in clamping contact with the inner side and the outer side of the rotating track 3-1; the roller is sleeved on a rotating shaft, and the rotating shaft of the roller is fixed with the shell of the revolution motor 4-1 through a connecting frame. Due to the clamping and contacting action between the limiting mechanism 4-3 and the rotating track 3-1, after the winding mechanism 4 is started, the rotating shaft of the revolution motor 4-1 drives the gear at one end of the revolution motor 4-1 to rotate, the body of the revolution motor 4-1 cannot rotate, and the body of the film winding motor 4-2 cannot rotate because the body of the revolution motor 4-1 does not rotate, so that the rotating shaft of the film winding motor 4-2 can normally rotate, and the normal rotation of the protective film 6 and the output of the protective film are further ensured.

Referring to fig. 6 and 7, a baffle 3-4 is additionally arranged on one side of the winding mechanism bracket 3 close to the winding mechanism 4; the baffle 3-4 limits the gear of the revolution motor 4-1 in the ring groove 3-3, and effectively prevents the winding mechanism 4 from being separated from the rotating track 3-1 in the working process.

Referring to fig. 2, a pipe 7 is supported on the first and second pipe holders 1 and 2; the pipe 7 moves linearly from the first pipe support 1 to the second pipe support 2; the tube 7 passes through the winding mechanism support 3. Referring to fig. 1, the linear motion of the tube 7 is combined with the rotation of the protective film along the outer side of the winding mechanism bracket 3, so as to complete the winding work of the protective film on the tube 7. The first pipe support 1 and the second pipe support 2 are obliquely arranged along a horizontal plane, so that an included angle of 2-5 degrees is formed between the central axis of the pipe 7 and the horizontal plane, the winding flatness of the protective film is effectively improved due to the design of the included angle, and local protrusions cannot occur in the winding process.

The utility model discloses an installation use is: the device can be matched with transportation tools such as a forklift, a traveling crane and the like for use, the pipe 7 is placed on the first pipe support by using the transportation tools, and a worker pushes the pipe 7 to move linearly along the first pipe support to the second pipe support; and starting the device to start the winding work of the protective film 6, wherein the winding work is mainly completed by the combination of the revolution of a protective film 6 reel arranged on a winding mechanism 4 along a winding mechanism support 3 along with the winding mechanism 4 and the linear motion of a pipe 7 along a first pipe support 1 and a second pipe support 2. After the first pipe 7 finishes the winding work of the protective film 6, the free end of the second pipe bracket 2 runs out of the device, and the second pipes 7 are sequentially fed into the first pipe bracket 1 to continue the winding work of the protective film 6.

Claims (6)

1. The utility model provides a semi-automatic coiler of tubular product protection film, characterized by: the winding machine comprises a first pipe support (1), a second pipe support (2), a winding mechanism support (3) and a winding mechanism (4); the first pipe support (1) and the second pipe support (2) are arranged at intervals along a straight line, the winding mechanism support (3) is arranged between the first pipe support (1) and the second pipe support (2), and the centers of the longitudinal sections of the first pipe support (1) and the second pipe support (2) are overlapped; the winding mechanism (4) is arranged on the winding mechanism bracket (3), rotates along the winding mechanism bracket (3), and is provided with a reel of a protective film (6); the pipe (7) is supported on the first pipe support (1) and the second pipe support (2), and the pipe (7) moves linearly from the first pipe support (1) to the second pipe support (2).

2. The semi-automatic winding machine for protective films of tubes as claimed in claim 1, wherein: the winding mechanism bracket (3) comprises a rotating track (3-1) and a bracket (3-2); the rotating track (3-1) is arranged on the bracket (3-2), and the rotating track (3-1) is of an annular structure provided with a ring groove (3-3); gear teeth are arranged on the inner side of the ring groove (3-3) and meshed with a gear arranged at one end of the winding mechanism (4), so that the gear does circular revolution motion along the ring groove (3-3).

3. The semi-automatic winding machine for the protective film of the pipe material as claimed in claim 2, wherein: the winding mechanism (4) comprises a revolution motor (4-1) and a film winding motor (4-2), and the shells of the revolution motor (4-1) and the film winding motor (4-2) are fixed into a whole through a connecting rod; one end of the main shaft of the revolution motor (4-1) is provided with a gear, and the gear is meshed with the gear teeth of the ring groove (3-3); one end of the main shaft of the film winding motor (4-2) is inserted with a scroll of a protective film (6); the protective film on the protective film (6) reel is drawn onto the tube (7).

4. The semi-automatic winding machine for protective films on tubes according to claim 3, wherein: the winding mechanism (4) is additionally provided with a limiting mechanism (4-3), the limiting mechanism (4-3) is installed on a shell of the revolution motor (4-1), the limiting mechanism (4-3) is two rollers which are arranged at intervals, and the rollers are respectively in clamping contact with the inner side and the outer side of the rotating track (3-1).

5. The semi-automatic winding machine for protective films of tubes as claimed in claim 4, wherein: a baffle (3-4) is additionally arranged on one side, close to the winding mechanism (4), of the winding mechanism support (3), and the baffle (3-4) limits a gear of the revolution motor (4-1) in the annular groove (3-3).

6. The semi-automatic winding machine for protective films of tubes as claimed in claim 5, wherein: the first pipe support (1) and the second pipe support (2) are obliquely arranged along a horizontal plane, so that an included angle of 2-5 degrees is formed between the central axis of the pipe (7) and the horizontal plane.

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