CN113753630A - Winding mechanism of bag making machine and winding method thereof - Google Patents

Abstract

The winding mechanism of the bag making machine comprises a shell, a middle main shaft, a disc-shaped body and three rotating bodies, wherein the middle main shaft, the disc-shaped body and the three rotating bodies are fixed on the shell; the three rotating bodies are distributed at intervals of 120 degrees at the periphery of the middle main shaft, and the middle main shaft is connected with and penetrates through the disc-shaped body; the middle main shaft drives the disc body to rotate; the three rotating bodies are connected with the disk-shaped body and rotate 120 degrees along with the disk-shaped body each time; the three rotating bodies stop at the first working position, the second working position and the third working position respectively in the rotating process. The invention has the beneficial effects that: 1. compared with the prior art, the third working position is added, the step of winding can be completed by rotating 120 degrees, the stroke is shortened, and the winding efficiency is improved; 2. compared with the prior art, the process links are reasonably distributed on three working positions, and the winding efficiency is obviously improved.

Description

Winding mechanism of bag making machine and winding method thereof

Technical Field

The invention belongs to the field of bag making machine equipment, and particularly relates to a winding mechanism of a bag making machine and a winding method thereof.

Background

The bag making machine is a machine for making various plastic packaging bags or packaging bags made of other materials, the processing range of the bag making machine is various plastic packaging bags or packaging bags made of other materials with different sizes, thicknesses and specifications, and the plastic packaging bags are generally used as main products.

The flat bags also need to be manufactured by a bag making machine, but the rolling efficiency of the bag making machine is not high when the flat bags are manufactured. For example, in the winder of patent No. 2010105779146, the winding efficiency of the two sets of forks in rotation cannot keep pace with the bag making efficiency of the bag making machine at the present stage, and the main reason is that the winder needs to rotate half a turn each time, so that the time span is large. In addition, at the same working position, the cutting, the material receiving and the discharging are needed, and the angle of the fork is also needed to be adjusted, so that excessive time is consumed at the same position. Therefore, the efficiency is not high, and the improvement space is provided.

The invention aims to design a winding mechanism of a bag making machine, which has higher winding efficiency.

Disclosure of Invention

The invention aims to solve the technical problem of providing a winding mechanism of a bag making machine.

The invention is realized by the following technical scheme:

the winding mechanism of the bag making machine comprises a shell, a middle main shaft, a disc-shaped body and three rotating bodies, wherein the middle main shaft, the disc-shaped body and the three rotating bodies are fixed on the shell; the three rotating bodies are distributed at intervals of 120 degrees at the periphery of the middle main shaft, and the middle main shaft is connected with and penetrates through the disc-shaped body; the middle main shaft drives the disc body to rotate; the three rotating bodies are connected with the disk-shaped body and rotate 120 degrees along with the disk-shaped body each time; the three rotating bodies stop at the first working position, the second working position and the third working position respectively in the rotating process.

As a further improvement, the rotating body comprises two rotating needles which are oppositely arranged, and the two rotating needles rotate synchronously.

As a further improvement, the rotating needle is forked, and the two rotating needles can relatively extend and retract.

As a further improvement, a blanking plate is arranged at the third working position.

As a further improvement, the third working position is also provided with a rotating body angle positioning and adjusting device which is used for detecting and adjusting the angle of the rotating body in the third working position.

As a further improvement, the bag conveying device further comprises three bridging rods for guiding the conveying direction of the bags, wherein the three bridging rods are respectively positioned between every two of the three rotating bodies.

A winding method of a winding mechanism of a bag making machine comprises the steps that the winding mechanism comprises a shell, a middle main shaft, a disc-shaped body and three rotating bodies, wherein the middle main shaft, the disc-shaped body and the three rotating bodies are fixed on the shell; the three rotating bodies are distributed at intervals of 120 degrees at the periphery of the middle main shaft, and the middle main shaft is connected with and penetrates through the disc-shaped body; the middle main shaft drives the disc body to rotate; the three rotating bodies are connected with the disk-shaped body and rotate 120 degrees along with the disk-shaped body each time; the three rotating bodies stop at the first working position, the second working position and the third working position respectively in the rotating process;

feeding the bags at a first working position, and rolling the bags on a rotating body; after the second working position is rotated, the rotating body at the first working position and the rotating body at the first working position work simultaneously, and the finished product is pulled off and wound; and then entering a third working position, and discharging the finished product which is completely rolled.

As a further improvement, the angle of the rotating body is adjusted at the third working position, so that the rotating body rotates to the first working position, and the angle of the rotating body corresponds to that of the bag to finish feeding.

As a further improvement, the rotating body comprises two rotating needles which are oppositely arranged and synchronously rotate, and the rotating needles are fork-shaped and can relatively extend, retract and rotate; when the bag feeding device is in the first working position, the rotating needle extends out to enable the bag to enter the fork body of the rotating needle to complete feeding; and when the rotary needle is at the third working position, the rotary needle retracts to finish blanking.

The invention has the beneficial effects that: 1. compared with the prior art, the third working position is added, the step of winding can be completed by rotating 120 degrees, the stroke is shortened, and the winding efficiency is improved; 2. compared with the prior art, the process links are reasonably distributed on three working positions, and the winding efficiency is obviously improved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a side view of the disk-shaped body of the present invention and the components connected as described above;

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

FIG. 3 is a schematic view of the structure of the rotator of the present invention (only one rotator is shown for clarity of the drawing and to prevent interference of the parts);

fig. 4 is a front plan view of the present invention.

The following reference numerals are described below: A. b, a bag making machine main body; 1. a housing; 2. a middle main shaft; 3. a disk-shaped body; 4. a rotating body; 41. rotating the needle; 51. a first working position; 52. a second working position; 53. a third working position; 54. a blanking plate; 55. a bridge rod; 6. the angle positioning and adjusting device of the rotating body.

Detailed Description

As shown in fig. 1 to 4, the winding mechanism of the bag making machine comprises a housing 1, a middle main shaft 2, a disc-shaped body 3 and three rotating bodies 4, wherein the middle main shaft 2, the disc-shaped body 3 and the three rotating bodies 4 are fixed on the housing; the three rotating bodies 4 are distributed at intervals of 120 degrees at the periphery of the middle main shaft 2, and the middle main shaft 2 is connected with and penetrates through the disc-shaped body 3; the intermediate main shaft 2 drives the disc-shaped body 3 to rotate; the three rotating bodies 4 are connected with the disk-shaped body 3 and rotate 120 degrees at each time along with the disk-shaped body 3; the positions at which the three rotating bodies 4 stop during rotation are the first operating position 51, the second operating position 52 and the third operating position 53, respectively.

The rotating body 4 includes two fork-shaped rotating needles 41 arranged oppositely, and the two rotating needles 41 can relatively extend and contract and synchronously rotate.

The third working position 53 is provided with a blanking plate 54 and a rotating body angle positioning and adjusting device 6 for detecting and adjusting the angle of the rotating body 4 at the third working position 53.

The three bridge rods 55 are respectively positioned between every two of the three rotating bodies 4, and when the bag passes through the first working position 51 and the second working position 52, the bag passes through the bridge rods, so that the passing track of the bag can be controlled.

When the bag is at the first working position 51, the forked rotating needle 41 extends out, so that the bags enter between the fork bodies of the rotating needle 41 to finish feeding, and the bags are wound to a specified number and then are rotated to the second working position 52; after the second working position 52 is rotated, the number is counted to reach the designated number, the rotating body 4 at the first working position 51 and the rotating body 4 at the first working position 51 simultaneously work and rotate, so that the snapping is completed, and the first finished product rolling is completed; the first finished product which is completely rolled enters a third working position 53, when the rotating needle 41 is at the third working position 53, the rotating body angle positioning adjusting device 6 works to complete the positioning of the rotation, the rotating body 4 retracts, and the first finished product is separated from the rotating body 4 and enters the blanking plate 54.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (9)

1. The utility model provides a winding mechanism of system bag machine which characterized in that: the device comprises a shell, a middle main shaft, a disc-shaped body and three rotating bodies, wherein the middle main shaft, the disc-shaped body and the three rotating bodies are fixed on the shell; the three rotating bodies are distributed at intervals of 120 degrees at the periphery of the middle main shaft, and the middle main shaft is connected with and penetrates through the disc-shaped body;

the middle main shaft drives the disc body to rotate; the three rotating bodies are connected with the disk-shaped body and rotate 120 degrees along with the disk-shaped body each time; the three rotating bodies stop at the first working position, the second working position and the third working position respectively in the rotating process.

2. The winding mechanism of a bag machine as set forth in claim 1, wherein: the rotator comprises two rotating needles which are oppositely arranged, and the two rotating needles rotate synchronously.

3. The winding mechanism of a bag machine as set forth in claim 2, wherein: the rotating needle is forked, and the two rotating needles can relatively extend and retract.

4. The winding mechanism of a bag machine as set forth in claim 1, wherein: and a blanking plate is arranged at the third working position.

5. The winding mechanism of a bag machine as set forth in claim 1, wherein: and the third working position is also provided with a rotating body angle positioning and adjusting device which is used for detecting and adjusting the angle of the rotating body at the third working position.

6. The winding mechanism of a bag machine as set forth in claim 1, wherein: the bag conveying device further comprises three bridge rods for guiding the bag conveying direction, and the three bridge rods are located between every two of the three rotating bodies respectively.

7. A winding method of a winding mechanism of a bag making machine is characterized in that: the winding mechanism comprises a shell, a middle main shaft, a disc-shaped body and three rotating bodies, wherein the middle main shaft, the disc-shaped body and the three rotating bodies are fixed on the shell; the three rotating bodies are distributed at intervals of 120 degrees at the periphery of the middle main shaft, and the middle main shaft is connected with and penetrates through the disc-shaped body; the middle main shaft drives the disc body to rotate; the three rotating bodies are connected with the disk-shaped body and rotate 120 degrees along with the disk-shaped body each time; the three rotating bodies stop at the first working position, the second working position and the third working position respectively in the rotating process;

feeding the bags at a first working position, and rolling the bags on a rotating body; after the second working position is rotated, the rotating body at the first working position and the rotating body at the first working position work simultaneously, and the finished product is pulled off and wound; and then entering a third working position, and discharging the finished product which is completely rolled.

8. The winding method of the winding mechanism of the bag machine as claimed in claim 7, wherein: and adjusting the angle of the rotating body at the third working position so that the angle of the rotating body corresponds to the angle of the bag when the rotating body rotates to the first working position to finish feeding.

9. The winding method of the winding mechanism of the bag machine as claimed in claim 8, wherein: the rotating body comprises two rotating needles which are oppositely arranged and synchronously rotate, and the rotating needles are fork-shaped and can relatively extend, retract and autorotate; when the bag feeding device is in the first working position, the rotating needle extends out to enable the bag to enter the fork body of the rotating needle to complete feeding; and when the rotary needle is at the third working position, the rotary needle retracts to finish blanking.

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