CN115404606A - Manufacturing method of improved string silk embroidery fabric - Google Patents

Abstract

The invention aims to provide a manufacturing method of an improved string silk embroidery fabric, which is simple to process, good in processing flexibility and wide in adaptability, and comprises the following steps: the method comprises the following steps: placing the water-soluble cloth on a workbench; step two: arranging thermoplastic elastomer lines on the water-soluble cloth in a back-and-forth crossing or parallel mode to form at least one thermoplastic elastomer line row layer; simultaneously, when the thermoplastic elastomer threads are arranged, the thermoplastic elastomer threads are sewed and fixed on the water-soluble cloth at fixed points through the following positioning of the water-soluble threads, so that the thermoplastic elastomer thread arrangement layers are fixed on the water-soluble cloth, and the third step is that: after arranging the thermoplastic elastomer line row layers, conveying the water-soluble cloth to a hot pressing machine for hot pressing and bonding the thermoplastic elastomer line row layers, and bonding and fixing the thermoplastic elastomer line row layers together; step four: and (3) putting the pressed water-soluble cloth into water, dissolving the water-soluble cloth, dissolving the water-soluble thread, and leaving the thermoplastic elastomer thread arrangement layer to obtain the string silk embroidery fabric.

Description

Manufacturing method of improved string silk embroidery fabric

Technical Field

The invention relates to the technical field of fabric processes, in particular to a manufacturing method of an improved string silk embroidery fabric.

Background

Fly-woven, jacquard or woven fabrics are fabrics often used in the market at present. When the traditional fabric is manufactured, warp knitting lines and weft knitting lines are adopted to be vertically knitted at 90 degrees, the air permeability effect of the knitting method is not good enough, the whole-aspect air permeability of the fabric cannot be realized, and the fabric is thick, so that the wearing discomfort of a user is caused. Therefore, the applicant develops the string silk embroidery fabric and the shoes with the string silk embroidery fabric, and the application numbers are as follows: CN202110737991.1. Although it can realize that each position homoenergetic on its surface fabric alternately produces there is the bleeder vent, and then makes it can realize that the surface fabric is all-round ventilative, makes the surface fabric have better ventilation effect. However, when the fabric is manufactured by adopting the string silk embroidery process, the following disadvantages exist:

1. adopt the arm to do the stay cord action, need to tie a knot, then the stay cord is tied a knot again, leads to weaving inefficiency, and the flexibility that adopts the stay cord action to weave moreover is poor, and the limitation is big, is unfavorable for the manufacturing of surface fabric.

2. When the pull rope acts, the pull rope needs to be arranged on a special die with a pin, so that the pull rope cannot be suitable for manufacturing all fabric sizes, the dies with different specifications need to be manufactured, the universality is poor, and the manufacturing cost is high.

The present invention has been made in order to solve the above problems.

Disclosure of Invention

The invention aims to provide a manufacturing method of an improved string silk embroidery fabric, which is simple to process, good in processing flexibility and wide in adaptability and aims at overcoming the defects and shortcomings of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a manufacturing method of an improved string silk embroidery fabric comprises the following steps:

the method comprises the following steps: placing the water-soluble cloth on a workbench;

step two: the thermoplastic elastomer threads are arranged on the water-soluble cloth in a back-and-forth crossing or parallel mode to form at least one thermoplastic elastomer thread row layer; meanwhile, when the thermoplastic elastomer threads are arranged, the thermoplastic elastomer threads are sewn on the water-soluble cloth at fixed points through the following positioning of the water-soluble threads, so that the thermoplastic elastomer thread arrangement layers are fixed on the water-soluble cloth;

step three: after arranging the thermoplastic elastomer line row layers, conveying the water-soluble cloth to a hot pressing machine for hot pressing and bonding the thermoplastic elastomer line row layers, and bonding and fixing the thermoplastic elastomer line row layers together;

step four: and (3) putting the pressed water-soluble cloth into water, dissolving the water-soluble cloth, dissolving the water-soluble thread, and leaving the thermoplastic elastomer thread arrangement layer to obtain the string silk embroidery fabric.

The further improvement is that: when the thermoplastic elastomer wires are arranged on the water-soluble cloth, the thermoplastic elastomer wires are positioned on the water-soluble cloth through the lines of the water-soluble wires arranged along the thermoplastic elastomer wires, and the water-soluble wires are dissolved away when the water-soluble cloth is put into water.

The further improvement is that: the thermoplastic elastomer line row layer arranged in the middle layer or the upper layer in a crossed or parallel mode is a customized pattern layer, and the thermoplastic elastomer lines on the thermoplastic elastomer line layer are thermoplastic elastomer lines in the same color or different colors.

The further improvement is that: the pattern layer is a single continuous pattern or a discontinuous pattern formed by different parameter modularization.

The further improvement is that: the thermoplastic elastomer line and the water fuse line are automatically arranged on the water fuse cloth along a preset computer weaving path through a machine station, and specifically: the wiring path of the thermoplastic elastomer line and the water-soluble line is preset by a computer and then is guided into a machine table, the machine table is used for distributing the thermoplastic elastomer line on the water-soluble cloth according to the preset path through a machine head, the machine head synchronously follows the water-soluble line to be sewn on the water-soluble cloth while the thermoplastic elastomer line is distributed, the water-soluble line is made to cross the thermoplastic elastomer line, and the thermoplastic elastomer line is located between the water-soluble line and the water-soluble cloth.

The further improvement is that: and a wire guiding device for guiding the thermoplastic elastomer wire to the water-soluble cloth is arranged on the machine head of the machine table.

The further improvement is that: the wire device is including setting up the lead frame on the aircraft nose, tip is equipped with the extension bar that prevents to hit the lead frame when the thermoplastic elastomer line rolls off the production line to the side extension under the lead frame, it is equipped with the axis of rotation to rotate on the extension bar, set up in the axis of rotation and run through the axis of rotation and supply the aircraft nose on the sewing needle pass the passageway of sewing system water dissolving line, the tip cover is equipped with the go-between under the axis of rotation, set up the perforation that supplies the thermoplastic elastomer line to pass on the go-between, still be equipped with on the lead frame and be used for driving the axis of rotation and rotate the rotating device that makes the swivel drive thermoplastic elastomer line follow predetermined route swing wiring.

The further improvement is that: the lead frame upper end still is equipped with the offline device who supplies the thermoplastic elastomer line to pass downwards and control the thermoplastic elastomer line tension degree of putting offline.

The further improvement is that: the utility model discloses a line winding device, including the oscillating bar of locating on the lead frame, the oscillating bar other end is equipped with the engaging lug that is used for supplying the thermoplastic elastomer line to pass, be equipped with the return means who is used for making return after the oscillating bar swing on the oscillating bar, be equipped with the induction system who responds to the oscillating bar between lead frame and the oscillating bar, the lead frame is located the oscillating bar top and still is equipped with the compensation arrangement that rolls off the production line that carries out the compensation of rolling off the production line when being used for thermoplastic elastomer line tensioning.

The further improvement is that: the sensing device comprises a position sensor arranged in the lead frame, and the other end of the swinging rod is positioned in the lead frame and is provided with a sensing plate matched with the position sensor.

The further improvement is that: the offline compensation device comprises a rotating wheel, the rotating wheel is rotatably arranged at the upper end part of the lead frame, a lead wheel is rotatably arranged on the lead frame, the lead wheel and the rotating wheel are opposite, and a first driving device for driving the lead wheel to rotate is arranged on the lead frame.

The further improvement is that: the wire guiding wheels are uniformly provided with wire guiding plates in a surrounding mode, and the wire guiding plates are abutted to the wire guiding wheels.

The further improvement is that: the return device comprises a torsional spring which is sleeved on an articulated shaft of the oscillating rod, one end of the torsional spring is arranged on the oscillating rod, and the other end of the torsional spring is arranged on the lead frame.

The further improvement is that: the lead frame is provided with an arc-shaped groove used for adjusting elasticity of the torsion spring along the swinging track of the swinging rod at the position of the swinging rod, an adjusting block is arranged in the arc-shaped groove, a screw used for positioning the adjusting block is arranged on the adjusting block, and the torsion spring is arranged on the screw.

The further improvement is that: the thermoplastic elastomer line consists of a core layer and a thermoplastic elastomer wrapped on the outer surface of the core layer.

The further improvement is that: the thermoplastic elastomer is a polyurethane thermoplastic elastomer or a polyester thermoplastic elastomer or a polyamide thermoplastic elastomer or a Polyethylene (PE) thermoplastic elastomer or a PE thermoplastic elastomer.

The further improvement is that: the thermoplastic elastomer is prepared by blending two or more materials of polyurethane, polyester, polyamide, polyethylene and polyethylene in any mixing ratio.

The further improvement is that: the core layer is: the yarn core layer or the polymer core layer is formed by mixing one or more materials of polyester, nylon, ultra-high molecular weight polyethylene, carbon fiber and glass fiber in any mixing ratio.

After the technical scheme is adopted, the invention has the beneficial effects that:

1. adopt the aircraft nose directly to cloth thermoplastic elastomer line on water-soluble cloth, then fix a position the thermoplastic elastomer line on water-soluble cloth through water-soluble line, for adopting the action of arm stay cord, the action is simple, and it is efficient to weave, and the flexibility is good moreover, convenient wiring, as long as thermoplastic elastomer line cloth to which position, water-soluble line can track its location, and make things convenient for the stack of surface fabric thermoplastic elastomer line row, make things convenient for the manufacturing of surface fabric greatly and improved the efficiency that the surface fabric was made.

2. The use of pin moulds is reduced, so that the fabric can be produced according to the size of the fabric when being manufactured, the limitation of the size of the fabric due to the size of the pin moulds is avoided, the universality is strong, and the production cost is greatly reduced.

3. Through the lead frame offline, not only the offline efficiency is fast, and the offline efficiency is high, and when the thermoplastic elastomer wire can also be prevented from being offline, the thermoplastic elastomer wire is broken due to over-tightening, so that the offline efficiency is favorably improved.

4. When the fabric is manufactured, the fabric can be sewn on through the thermoplastic elastomer threads with different colors according to required patterns or trademarks, and then the fabric is compounded in a hot pressing mode, so that the fabric is simple and convenient to use, high in processing efficiency, wide in applicability and beneficial to manufacturing of various patterns.

Drawings

Fig. 1 is a schematic structural diagram of a woven fabric on a water-soluble cloth in an embodiment of the invention.

FIG. 2 is a schematic structural view of a thermoplastic elastomer thread and water-soluble thread knitting path according to an embodiment of the present invention.

Fig. 3 is a diagram illustrating a lead frame structure according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the offline compensation device according to the embodiment of the invention.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-4, a method for manufacturing an improved string embroidery fabric comprises the following steps:

the method comprises the following steps: according to the appearance of the fabric, the wiring paths of the thermoplastic elastomer wires and the water-melting wires are preset by a computer to be woven, then the woven paths are guided into a machine table, and the water-soluble cloth 1 is placed on the working table.

Step two: the machine station arranges each thermoplastic elastomer thread 2 on the water-soluble cloth 1 through the machine head according to a preset path, the machine head synchronously stitches the water-soluble thread 3 on the water-soluble cloth 1 while arranging the thermoplastic elastomer threads 2, and the water-soluble thread 3 crosses the thermoplastic elastomer thread 2, so that the thermoplastic elastomer thread 2 is positioned between the water-soluble thread 3 and the water-soluble cloth 1, and the thermoplastic elastomer thread 2 is positioned on the water-soluble cloth 1. Then, the machine head arranges the thermoplastic elastomer threads 2 back and forth on the water-soluble cloth 1, so that each thermoplastic elastomer thread 2 is alternately overlapped and arranged on the water-soluble cloth 1 to form a layer of thermoplastic elastomer thread arrangement layer;

step three: sewing a fabric pattern or a trademark on the upper end face of the thermoplastic elastomer thread arrangement layer, wiring on the water-soluble cloth 1 through the thermoplastic elastomer threads 2 with different colors, then sewing the water-soluble thread 3 on the water-soluble cloth 1, and positioning the thermoplastic elastomer threads 2 to form the outline of the pattern or the trademark;

step four: after arranging the thermoplastic elastomer line row layers and the patterns, taking down the water-soluble cloth 1 from the workbench, and conveying the water-soluble cloth to a hot pressing machine for hot pressing and bonding the thermoplastic elastomer line row layers to ensure that the thermoplastic elastomer line row layers are bonded and fixed together;

step five: and (3) putting the water-soluble cloth 1 subjected to hot pressing into water, dissolving the water-soluble cloth 1 and the water-soluble threads 3 for positioning the thermoplastic elastomer threads 2, and leaving the thermoplastic elastomer threads 2 in the rows to obtain the string silk embroidery fabric.

In the third step, the customized pattern layer is a thermoplastic elastomer line row layer which is arranged in the middle layer or the upper layer in a crossed or parallel mode, the thermoplastic elastomer lines 2 on the thermoplastic elastomer line layer are thermoplastic elastomer lines with the same color or different colors, and the pattern layer is a single continuous pattern or a discontinuous pattern formed by different parameters in a modularized mode.

The thermoplastic elastomer thread consists of a core layer and a thermoplastic elastomer wrapped on the outer surface of the core layer. And the thermoplastic elastomer may be a polyurethane thermoplastic elastomer or a polyester thermoplastic elastomer or a polyamide thermoplastic elastomer or a Polyethylene (PE) thermoplastic elastomer or a PE thermoplastic elastomer.

In actual production, the thermoplastic elastomer can also be made by blending two or more materials of polyurethane, polyester, polyamide, polyethylene, and polyethylene in any mixing ratio.

In actual production, the core layer may be: the yarn core layer or the polymer core layer is formed by mixing one or more materials of polyester, nylon, ultra-high molecular weight polyethylene, carbon fiber and glass fiber in any mixing ratio.

When the thermoplastic elastomer wires 2 are wired on the water-soluble cloth 1, in order to improve the wiring efficiency, a wire guiding device for guiding the thermoplastic elastomer wires 2 onto the water-soluble cloth 1 is arranged on the machine head of the machine table.

Specifically, the lead device comprises a lead frame 17 arranged on a machine head, an extension rod 4 which prevents the thermoplastic elastomer thread 2 from hitting the lead frame 17 when the thread is off is arranged at the lower end of the lead frame 17 in a lateral extending manner, a rotating shaft 5 is arranged on the extension rod 4 in a rotating manner, a channel which penetrates through the rotating shaft 5 and is used for sewing a sewing needle on the machine head to penetrate through the water dissolving thread 3 is arranged on the rotating shaft 5, a connecting ring 6 is sleeved at the lower end of the rotating shaft 5, a through hole 7 for the thermoplastic elastomer thread 2 to penetrate is arranged on the connecting ring 6, a first synchronous belt 81 wheel 8 which is used for driving the rotating shaft 5 to rotate so as to drive the rotating ring to drive the thermoplastic elastomer thread 2 to swing and wire along a preset path is further arranged on the lead frame 17, the first synchronous belt 81 wheel 8 is fixedly sleeved on the rotating shaft 5, and a driving motor (not shown in the figure) is further arranged on the lead frame 17, be equipped with second hold-in range 81 round (not shown in the figure) on the driving motor, around being equipped with hold-in range 81 between first hold-in range 81 round 8 and the second hold-in range 81 round, the lead frame 17 upper end still is equipped with the lower wiring device that supplies thermoplastic elastomer line 2 to pass downwards and control thermoplastic elastomer line 2 lower line rate of tension, lower wiring device includes that one end rotates the swinging arms 9 of locating on the lead frame 17, the swinging arms 9 other end is equipped with the engaging lug 10 that is used for supplying thermoplastic elastomer line 2 to pass, be equipped with the torsional spring 11 that is used for making the swinging arms 9 swing back return on the swinging arms 9, the articulated shaft of swinging arms 9 is located to torsional spring 11 cover, torsional spring 11 one end is located on swinging arms 9, the torsional spring 11 other end is located on the lead frame 17, be equipped with the position inductor (not shown in the figure) that responds to swinging arms 9 between lead frame 17 and swinging arms 9, the position sensor is arranged in the lead frame 17, the other end of the oscillating rod 9 is arranged in the lead frame 17 and is provided with an induction plate (not shown in the figure) matched with the position sensor, the lead frame 17 is arranged above the oscillating rod 9 and is also provided with a rotating wheel 14 for off-line compensation when the thermoplastic elastomer wire 2 is tensioned, the rotating wheel 14 is rotatably arranged at the upper end part of the lead frame 17, a wire wheel 15 is rotatably arranged on the lead frame 17, the wire wheel 15 is abutted against the rotating wheel 14, and the lead frame 17 is provided with a first driving motor 16 for driving the wire wheel 15 to rotate.

In order to ensure the unwinding and prevent the slipping during the unwinding, the wire guide plates are uniformly arranged around the wire guide wheel 15 and abut against the wire guide wheel 15.

In order to adjust the elasticity of torsional spring 11, lie in the oscillating bar 9 department on the lead frame 17 and offer the arc wall 13 that is used for adjusting 11 elasticity of torsional spring along the oscillating bar 9 swing orbit, the lead frame 17 is located and is equipped with regulating block 12 in the arc wall 13, be equipped with the screw that is used for positioning adjustment block 12 on the regulating block 12, torsional spring 11 is located on the screw.

The working principle is as follows:

when the thermoplastic elastomer thread 2 is to be laid on the water-soluble cloth 1, the thermoplastic elastomer thread 2 is passed around between the thread guide wheel 15 and the rotating wheel 14, then passes through the connecting lug 10 on the swinging rod 9, and when the swinging rod 9 swings, then is passed through the through hole 7 again, and is laid on the water-soluble cloth 1. When wiring, the driving motor rotates to drive the second synchronous belt pulley to rotate, the second synchronous belt pulley drives the first synchronous belt pulley 8 to rotate, the first synchronous belt pulley 8 rotates to drive the rotating shaft 5 to rotate, the rotating shaft 5 drives the connecting ring 6 to rotate, so that the thermoplastic elastomer wire 2 swings and routes left and right, when swinging back and forth, the thermoplastic elastomer wire 2 pulls the swinging rod 9 to swing, meanwhile, the torsion spring 11 resets when the swinging rod 9 swings, the sensing plate is driven to swing in the lead frame, the sensing plate is matched with the position sensor, when the sensing plate does not reach a preset position, the position sensor sends an electric signal to the first driving motor 16, the first driving motor 16 controls the wire guiding wheel 15 to rotate, the wire guiding wheel 15 drives the rotating wheel to rotate, thereby accelerating the offline speed of the thermoplastic elastomer wire 2, and the thermoplastic elastomer wire 2 is prevented from being tightened and broken when being taken off.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are included to illustrate the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. The details of the present invention are well known to those skilled in the art.

Claims (10)

1. A manufacturing method of an improved string silk embroidery fabric is characterized in that: the method comprises the following steps:

the method comprises the following steps: placing the water-soluble cloth on a workbench;

step two: arranging thermoplastic elastomer lines on the water-soluble cloth in a back-and-forth crossing or parallel mode to form at least one thermoplastic elastomer line row layer; meanwhile, when the thermoplastic elastomer threads are arranged, the thermoplastic elastomer threads are sewn on the water-soluble cloth at fixed points through the following positioning of the water-soluble threads, so that the thermoplastic elastomer thread arrangement layers are fixed on the water-soluble cloth;

step three: after arranging the thermoplastic elastomer line row layers, conveying the water-soluble cloth to a hot pressing machine for hot pressing and bonding the thermoplastic elastomer line row layers, and bonding and fixing the thermoplastic elastomer line row layers together;

step four: and (3) putting the pressed water-soluble cloth into water, dissolving the water-soluble cloth, dissolving the water-soluble thread, and leaving the thermoplastic elastomer thread arrangement layer to obtain the string embroidery fabric.

2. The manufacturing method of the improved string embroidery fabric according to claim 1, characterized in that: when the thermoplastic elastomer wires are arranged on the water-soluble cloth, the thermoplastic elastomer wires are positioned on the water-soluble cloth through the lines of the water-soluble wires arranged along the thermoplastic elastomer wires, and the water-soluble wires are dissolved away when the water-soluble cloth is put into water.

3. The manufacturing method of the improved string silk embroidery fabric according to claim 1, characterized in that: the thermoplastic elastomer line row layer arranged in the middle layer or the upper layer in a crossed or parallel mode is a customized pattern layer, and the thermoplastic elastomer lines on the thermoplastic elastomer line layer are thermoplastic elastomer lines in the same color or different colors.

4. The manufacturing method of the improved string embroidery fabric according to claim 3, characterized in that: the pattern layer is a single pattern with continuity or a discontinuous pattern formed by different parameter modularization.

5. The manufacturing method of the improved string silk embroidery fabric according to claim 1, characterized in that: the thermoplastic elastomer line and the water fuse line are automatically arranged on the water fuse cloth along a preset computer weaving path through a machine station, and specifically: the wiring path of the thermoplastic elastomer line and the water-soluble line is preset through a computer and is led into the machine table, the machine table is used for distributing the thermoplastic elastomer line on the water-soluble cloth through the machine head according to the preset path, the machine head synchronously follows the water-soluble line to be sewn on the water-soluble cloth while the thermoplastic elastomer line is distributed, the water-soluble line stretches across the thermoplastic elastomer line, and the thermoplastic elastomer line is located between the water-soluble line and the water-soluble cloth.

6. The manufacturing method of the improved string embroidery fabric according to claim 1, characterized in that: and a wire guiding device for guiding the thermoplastic elastomer wire to the water-soluble cloth is arranged on the machine head of the machine table.

7. The manufacturing method of the improved string silk embroidery fabric according to claim 6, characterized in that: the wire device is including setting up the lead frame on the aircraft nose, tip lateral extension is equipped with the extension bar that prevents to hit the lead frame when the thermoplastic elastomer line rolls off the production line under the lead frame, it is equipped with the axis of rotation to rotate on the extension bar, set up in the axis of rotation and run through the axis of rotation and supply sewing needle on the aircraft nose to pass the passageway of sewing water dissolved thread, the pot head is equipped with the go-between under the axis of rotation, set up the perforation that supplies the thermoplastic elastomer line to pass on the go-between, still be equipped with on the lead frame and be used for driving the axis of rotation and rotate the rotating device that makes the swivel ring drive the thermoplastic elastomer line and follow predetermined route swing wiring.

8. The manufacturing method of the improved string silk embroidery fabric according to claim 7, characterized in that: the upper end part of the lead frame is also provided with a winding inserting device for allowing the thermoplastic elastomer thread to downwards pass through and controlling the tension of the thermoplastic elastomer thread.

9. The manufacturing method of the improved string silk embroidery fabric according to claim 8, characterized in that: the utility model discloses a line winding device, including the swing arm of line winding device, the swing arm is equipped with the engaging lug that is used for supplying the thermoplastic elastomer line to pass, the swing arm is last to be equipped with the return means who is used for making swing arm swing back return, be equipped with the induction system who responds to the swing arm between lead frame and the swing arm, the lead frame is located the swing arm top and still is equipped with the compensation arrangement that rolls off the production line that carries out the compensation of rolling off the production line when being used for the tensioning of thermoplastic elastomer line.

10. The manufacturing method of the improved string silk embroidery fabric according to claim 9, characterized in that: the sensing device comprises a position sensor arranged in the lead frame, and the other end of the swinging rod is positioned in the lead frame and is provided with a sensing plate matched with the position sensor.

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