CN214088917U

CN214088917U - Cloth four-side binding-off mechanism for rotary square towel machine

Info

Publication number: CN214088917U
Application number: CN202021885700.0U
Authority: CN
Inventors: 刘航东
Original assignee: Suzhou Qiongpairuite Technology Co ltd
Current assignee: Suzhou Qiongpairuite Technology Co ltd; Suzhou Transparent Electronic Technology Co Ltd
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2021-08-31
Anticipated expiration: 2030-09-02

Abstract

The utility model relates to a cloth four-side binding-off mechanism for a rotary square towel machine, which comprises a frame, wherein a processing table-board is arranged in the frame; the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing out the cloth and positioning the cloth; the cloth rotating mechanism is positioned above the processing table top and is used for performing multilateral rotation on cloth on the processing table top; the transmission assembly is arranged above the processing table board and is used for matching with the serging processing of a serger and the cloth rotating operation of the cloth rotating mechanism; the utility model discloses a rotatory square towel machine cloth four sides binding off mechanism, overall structure is compact, can realize automatically that the processing of binding off the four sides of cloth, and the position location of cloth is accurate in the course of working, and whole process full automatization is accomplished, has reduced manual operation, has improved production efficiency, has reduced the recruitment cost, accords with the production and processing demand of enterprise.

Description

Cloth four-side binding-off mechanism for rotary square towel machine

Technical Field

The utility model belongs to the technical field of weaving machine equipment, especially, relate to a cloth four sides binding off mechanism for rotatory square towel machine.

Background

In the textile field, the square towel is a common articles for daily use, the square towel is in actual production, need all carry out the overlock to its four sides, present processing mode is that the manual work carries out the unilateral overlock of cloth earlier, then the manual work is in proper order with the cloth after rotatory respectively overlock to every limit, thereby accomplish the unilateral overlock of quartzy of cloth, but discover behind long-time production and processing, such processing mode inefficiency, and complex operation, the recruitment number is many and manufacturing cost is high, production efficiency has been reduced, the production competitiveness of enterprise has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the deficiency of the prior art and providing a simple structure, can accomplish the rotatory square towel machine cloth four sides mechanism of binding off to the cloth four sides automatically.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a rotatory square cloth four sides mechanism of binding off for scarf includes:

a frame;

the processing table top is arranged in the rack;

the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing out and positioning the cloth;

the cloth rotating mechanism is positioned above the processing table top and is used for performing multilateral rotation on cloth on the processing table top;

the transmission assembly is arranged above the processing table board and is used for matching with the serging processing of a serger and the cloth rotating operation of the cloth rotating mechanism;

after the cloth is placed into the processing table board, the cloth is conveyed to the smoothing assembly to be smoothed out and positioned, then the serger serpins the first edge of the cloth, and after the first edge is serged out, the second edge, the third edge and the fourth edge of the cloth rotate in sequence through the rotating mechanism, the cloth is matched with the smoothing assembly to be serged out at the serger position.

Further, the smoothing assembly comprises a lower pressing support, and a lower pressing surface is arranged at the front end of the lower pressing support; an upper pressing plate which can be lifted up and down through a cloth pressing cylinder is arranged above the lower pressing support; the front end of the upper pressure plate is provided with a lower pressure surface positioned above the lower pressure surface; the upper pressing plate is provided with a buffering piece, the bottom of the buffering piece penetrates through the upper pressing plate and then is located between the upper pressing plate and the lower pressing plate, and the distance between the bottom of the buffering piece and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower surface.

Further, the cloth rotating mechanism includes:

the rotary bracket is provided with an installation space;

the rotating motor is arranged on the rotating bracket, and a rotating shaft of the rotating motor is arranged in the mounting space;

a first connecting bar; one end of the first connecting strip is connected with the rotating shaft in the mounting space;

a second connecting strip; the second connecting strip is connected with the first connecting strip;

a plurality of hold-down assemblies; the plurality of pressing assemblies are arranged at the lower ends of the first connecting strip and the second connecting strip.

Further, the pressing assembly comprises a pressing cylinder, and the pressing cylinder drives a pressing support on the sliding rail to move up and down; and a lower pressing block is arranged on the lower pressing support.

Further, the transmission assembly comprises a transmission cylinder arranged on the rack; the lower end of the transmission cylinder is provided with a pressing frame; the lower end of the pressing frame is provided with two synchronous wheel assemblies, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft, and the power shaft is driven through a power transmission assembly through a power motor.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses the cloth four sides mechanism of binding off for rotatory square towel machine of scheme, overall structure is compact, can realize automatically that the processing of binding off to the four sides of cloth, and the position location of cloth is accurate in the course of working, and whole process full automatization is accomplished, has reduced manual operation, has improved production efficiency, has reduced the recruitment cost, accords with the production and processing demand of enterprise.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the smoothing assembly;

FIG. 3 is a schematic structural view of a cloth rotating mechanism;

FIG. 4 is a schematic structural view of a transfer assembly;

wherein: the device comprises a frame 1, a processing table board 2, an overlock machine 3, a smoothing assembly 4, a rotary cloth mechanism 6, a transmission assembly 8, a lower pressing support 40, a lower pressing surface 41, a cloth pressing air cylinder 42, an upper pressing plate 43, a guide post 44, an upper pressing surface 45, a buffer 46, a rotary support 60, a rotary motor 61, a first connecting strip 62, a first connecting strip 63, a lower pressing air cylinder 64, a slide rail 65, a lower pressing support 66, a lower pressing block 67, a transmission air cylinder 80, a pressing frame 81, a synchronous wheel assembly 82, a power shaft 83, a power motor 84 and a power transmission assembly 85.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to the attached drawing 1, the cloth four-side overlock mechanism for the rotary shawl machine of the present invention includes a frame 1, a processing table 2, an overlock machine 3, a smoothing assembly 4, a cloth rotating mechanism 6 and a transmission assembly 8; the processing table top 2 is arranged on the frame 1; the overlock machine 3 is arranged on one side of the processing table board 2, and the front end of the overlock machine 3 is provided with a smoothing assembly 4 for smoothing out the cloth and positioning the position of the cloth so that the position of the cloth is not deviated during processing, thereby facilitating the subsequent overlock processing; the cloth rotating mechanism 6 is positioned above the processing table board 2 and is used for performing multilateral rotation on the cloth on the processing table board 2, wherein the rotation is to sequentially rotate three sides of the cloth, and the rotating angle is 90 degrees anticlockwise each time, so that the other three sides of the cloth can also be aligned to the overlock machine for overlock processing; the transmission component 8 is arranged above the processing table board 2 and is used for matching with the serging processing of the serger 3 and the cloth rotating operation of the cloth rotating mechanism 6.

Specifically, referring to fig. 2, the smoothing assembly 4 includes a pressing bracket 40, and a pressing surface 41 is provided at a front end of the pressing bracket 40; an upper pressing plate 43 which can be lifted up and down through a cloth pressing cylinder 42 is arranged above the lower pressing support 40, an upper pressing surface 45 is arranged at the front end of the upper pressing plate 43, the upper pressing surface 43 and the lower pressing surface 41 are oppositely arranged up and down to form a splayed shape, and the distance between an outer opening and an inner opening in the splayed shape is larger than that between the inner opening and the outer opening; and three guide posts 44 are arranged between the upper pressing surface 45 and the lower pressing surface 41, and play a role in guiding when the upper pressing surface is close to the lower pressing surface.

In addition, a buffer 46 is arranged on the upper pressure plate 43, the bottom of the buffer penetrates through the upper pressure plate and is arranged between the upper pressure plate and the lower pressure plate, and the linear distance between the buffer and the lower pressure plate is smaller than that between the upper pressure surface and the lower pressure surface; therefore, when the cloth enters the smoothing assembly 4, the piston rod of the cloth pressing cylinder 42 is retracted to drive the upper pressing surface 43 and the lower pressing surface 41 connected with the cloth pressing cylinder 42 to be close to each other, so that the cloth before entering the overlock machine is smoothed, and because the linear distance between the buffer and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower pressing surface, the buffer compresses the cloth when the upper pressing surface 43 and the lower pressing surface 41 are close to smooth the cloth, and then drags the cloth through the presser foot on the follow-up overlock machine, the cloth is prevented from being conveyed to the overlock machine in an inclined mode, and the position of the cloth during conveying is guaranteed not to be deviated.

Referring to fig. 3, the cloth rotating mechanism 6 includes a rotating arm 60, a rotating motor 61, a first connecting bar 62, a first connecting bar 63, and a pressing component; the rotating bracket 60 is provided with an installation space; the rotating motor 61 is arranged on the rotating bracket 60, and a rotating shaft of the rotating motor 61 is arranged in the installation space; one end of the first connecting bar 62 is connected with the rotating shaft in the installation space; the second connecting bar 63 is connected with the first connecting bar 62; two of the pressing components are arranged at the lower end of the first connecting bar 62, and one of the pressing components is arranged at the lower end of the second connecting bar 63.

The pressing assembly comprises a pressing cylinder 64, and the pressing cylinder 64 drives a pressing bracket 66 on a slide rail 65 to move up and down; and a lower pressing block 67 is arranged on the lower pressing support 66.

During the actual work, after the piping is accomplished on one side of the cloth, utilize rotating electrical machines 61 to push down the top that the subassembly removed the cloth edge, then push down air cylinder 64 drive and be located the briquetting 67 down on the slide rail and compress tightly the back with the cloth via rotating electrical machines 61 anticlockwise rotation 90 for the another side of cloth also corresponds the setting in piping machine one side, then cooperates the subassembly of smoothing out and carries out the piping processing in piping machine department, repeats the cubic operation in proper order and can accomplish the piping processing to the cloth four sides.

The number and the positions of the pressing components can be adjusted according to actual requirements, and the two pressing components are arranged at the lower end of the first connecting strip 62 and used for ensuring that the cloth can be rotated more stably; and the push-down assembly positioned at the lower end of the second connecting strip 63 is used for pushing down cloth wider than the push-down assembly positioned at the lower end of the first connecting strip 62, so that the equipment can meet the requirements of products with different sizes and has wide application range.

In addition, referring to fig. 4, the transmission assembly 8 includes a transmission cylinder 80 disposed on the frame 1; the lower end of the transmission cylinder 80 is provided with a pressing frame 81; the lower end of the pressing frame 81 is provided with two synchronous wheel assemblies 82, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft 83, the power shaft 83 is driven by a power motor 84 through a power transmission assembly 85, and the power transmission assembly is pressed into a synchronous belt transmission assembly; when the cloth needs to be compressed and transmitted, the transmission cylinder starts to work, the transmission cylinder drives the whole pressing frame to move downwards, the left synchronous belt and the right synchronous belt compress the cloth, and then the power motor 84 drives the two synchronous belts to drive the cloth to transmit forwards through the transmission shaft.

In actual production, when the width of the cloth is short, only one synchronous wheel assembly is matched with two pressing assemblies positioned at the lower ends of the first connecting strips for production and processing; when the width of cloth is longer, need two synchronizing wheel subassemblies to cooperate one to be located the lower extreme of second connecting strip and push down the subassembly and produce processing.

The work flow of the cloth four-side binding-off mechanism for the rotary shawl machine is as follows: after the cloth is put into the processing table board, the transmission assembly is sent to the smoothing assembly to smooth out, the serger serges the first edge of the cloth, and after the first edge is serged out, the second edge, the third edge and the fourth edge of the cloth rotate in sequence through the rotating mechanism and then are matched with the smoothing assembly to the serger to carry out serging processing on the other three edges.

The utility model discloses a rotatory square towel machine cloth four sides binding off mechanism, overall structure is compact, can realize automatically that the processing of binding off the four sides of cloth, and the position location of cloth is accurate in the course of working, and whole process full automatization is accomplished, has reduced manual operation, has improved production efficiency, has reduced the recruitment cost, accords with the production and processing demand of enterprise.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims

1. The utility model provides a rotatory square cloth four sides mechanism of binding off for scarf, its characterized in that includes:

a frame;

the processing table top is arranged in the rack;

the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing and positioning the cloth;

after the cloth is placed into the processing table board, the cloth is conveyed to the smoothing assembly to be smoothed out and positioned, the serger serpins the first edge of the cloth, and the second edge, the third edge and the fourth edge of the cloth are sequentially rotated by the cloth rotating mechanism after the first edge serpins the second edge and the fourth edge of the cloth, and then the serger is matched with the smoothing assembly to perform serging processing on the serger.

2. The cloth four-side binding-off mechanism for the rotary shawl machine according to claim 1, wherein: the smoothing assembly comprises a lower pressing support, and a lower pressing surface is arranged at the front end of the lower pressing support; an upper pressing plate which can be lifted up and down through a cloth pressing cylinder is arranged above the lower pressing support; the front end of the upper pressure plate is provided with a lower pressure surface positioned above the lower pressure surface; the upper pressing plate is provided with a buffering piece, the bottom of the buffering piece penetrates through the upper pressing plate and then is located between the upper pressing plate and the lower pressing plate, and the distance between the bottom of the buffering piece and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower surface.

3. The cloth four-side serging mechanism for a rotary shawl machine according to claim 1, wherein the cloth rotating mechanism comprises:

the rotary bracket is provided with an installation space;

4. The cloth four-side hemming device for a rotary shawl according to claim 3, wherein; the pressing assembly comprises a pressing cylinder, and the pressing cylinder drives a pressing support on the sliding rail to move up and down; and a lower pressing block is arranged on the lower pressing support.

5. The cloth four-side binding-off mechanism for the rotary shawl machine according to claim 1, wherein: the transmission assembly comprises a transmission cylinder arranged on the rack; the lower end of the transmission cylinder is provided with a pressing frame; the lower end of the pressing frame is provided with two synchronous wheel assemblies, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft, and the power shaft is driven through a power transmission assembly through a power motor.