CN116100973B

CN116100973B - Process for processing woven cloth stamping stamp by printing process

Info

Publication number: CN116100973B
Application number: CN202310115988.5A
Authority: CN
Inventors: 张思荣; 熊伟; 师睿; 赵耀; 王涛
Original assignee: Dongguan Guanrong Trademark Weaving Co ltd
Current assignee: Dongguan Guanrong Trademark Weaving Co ltd
Priority date: 2023-02-13
Filing date: 2023-02-13
Publication date: 2023-09-22
Anticipated expiration: 2043-02-13
Also published as: CN116100973A

Abstract

The application relates to a process for processing a woven cloth stamping stamp by utilizing a printing process, which comprises the following steps of: step one: placing the jig on a workbench, and printing an outer frame pattern and cross positioning lines of woven cloth on the jig through a printing tool and a printing equipment screen; step two: placing the jig on a lower operation platform; step three: fixing the height Zhou Moju to the lifter; step four: the staff places the woven fabric on the jig, and then adheres the woven fabric to the jig through the self viscosity of the jig; step five: printing a special treating agent with the same size as the thermal transfer label on the woven cloth by using a printing component; step six: and fixing the thermal transfer label in a height Zhou Moju, releasing current through the height Zhou Shebei, melting the thermal transfer label, penetrating and damaging the part of the coating of the woven fabric, and cooling and shaping by utilizing the high-temperature fusion characteristic of the thermal transfer label and the woven fabric. The application increases the firmness of connection between the stamping and the woven fabric.

Description

Process for processing woven cloth stamping stamp by printing process

Technical Field

The application relates to a cloth processing method, in particular to a process for processing a woven cloth stamping stamp by using a printing process.

Background

Woven fabrics are weaving machines that make up yarns in a pick-up pattern by interlacing warp and weft, and the weave is generally in the three general categories of plain weave and satin weave and variations thereof. The fabric is firm, stiff and smooth and is not easy to deform due to the staggered warp and weft of the weaving method. The components are classified into cotton, silk fabrics, wool fabrics, hemp fabrics, chemical fabrics, blends and interweaves thereof, and the like. The stamping refers to the process of transferring a stamping material or a stamping pattern onto a stamping object by using a stamping method.

In the related art, gaps are formed at the intersections of cloth surfaces due to interweaving of warp and weft yarns, and in order to seal gaps on the woven cloth, the woven cloth is coated with a layer of sol on the surface of the fabric, so that a coating is formed, and the effects of water resistance, rain resistance, wind resistance, velvet resistance, warmth retention, water pressure resistance, ventilation, perspiration, thickness texture improvement and the like of the cloth are achieved.

For the related art in the above, there are the following drawbacks: in the related art, in the process of processing the woven fabric, as the woven fabric is thin, the solvent of the fabric surface coating can volatilize during processing and can also block the adhesion of the adhesive interlayer, the traditional woven fabric is easy to fall off from the woven fabric after the transfer printing of the hot stamping.

Disclosure of Invention

In order to increase the firmness of connection between a stamp and woven cloth, the application provides a process for processing the stamp of woven cloth by using a printing process.

The application provides a process for processing a woven fabric stamping stamp by utilizing a printing process, which adopts the following technical scheme:

a process for processing a woven fabric stamping stamp by utilizing a printing process comprises the following steps:

step one: placing a jig on a workbench, and printing an outer frame pattern and cross positioning lines of woven cloth on the jig through a printing tool and a printing equipment screen;

step two: the high-circumference equipment comprises a base, a lower operation platform is arranged on the base, and the jig is placed on the lower operation platform;

step three: the base is fixedly provided with a supporting piece, the supporting piece is provided with a lifting assembly, the lifting assembly comprises a driving piece and a lifting piece, and the driving piece is used for driving the lifting piece to lift; fixing the height Zhou Moju on the lifting piece to align the cross positioning lines of the outer frame of the height Zhou Moju with the printed cross positioning lines on the jig;

step four: manually placing the woven fabric on the jig by a worker, aligning the woven fabric with the outer frame pattern of the woven fabric, and then adhering the woven fabric on the jig through the self viscosity of the jig;

step five: printing a special treating agent with the same size as the thermal transfer label on the woven cloth by using a printing component to destroy the coating of the woven cloth;

step six: the thermal transfer label is fixed in the height Zhou Moju, accurate positioning is achieved through the height Zhou Moju and the thermal transfer label, current is released through the height Zhou Shebei, the thermal transfer label is melted, the coating part of the woven fabric is damaged in a penetrating mode, the thermal transfer label and the woven fabric are cooled and shaped by means of the high-temperature fusion characteristic of the thermal transfer label and the woven fabric, and accordingly the thermal transfer label is fixed on the woven fabric, and a stamping seal is formed.

By adopting the technical scheme, in the process of processing the woven fabric material, the woven fabric material is manually placed on the surface of the jig by a worker, so that the outer frame pattern on the surface of the jig has a positioning effect on the woven fabric material, the woven fabric material is accurately positioned, and the worker can conveniently and quickly paste the woven fabric material on the surface of the jig; simultaneously, the electric current is released through the high Zhou Shebei, so that the heat transfer mark is melted, the coating part of the woven cloth material is damaged in a penetrating way, the heat transfer mark and the woven cloth material are cooled and shaped by utilizing the high-temperature fusion characteristic of the heat transfer mark and the woven cloth material, and the heat transfer mark is fixed on the woven cloth material, so that a seal is formed, the efficiency of processing the seal on the woven cloth material is improved, the firmness of connection between the seal and the woven cloth material is also improved, and the seal is not easy to separate from the woven cloth material.

Preferably, the lower operation platform is fixedly provided with a positioning column, the jig is provided with a positioning hole, and the positioning column penetrates through the positioning hole.

Through adopting above-mentioned technical scheme, the reference column has the positioning action to the locating hole to have the positioning action to the tool, not only be convenient for the staff place the tool on the base fast, also can realize carrying out accurate location to the tool simultaneously.

Preferably, a positioning component for positioning the printing tool is arranged on the jig.

Through adopting above-mentioned technical scheme, locating component has the positioning action to the printing tool to be convenient for print out frame figure and cross location line on the tool surface accuracy.

Preferably, the positioning assembly comprises an adjusting rod, a first positioning rod and a second positioning rod, the adjusting rod is fixedly connected with the first positioning rod, the second positioning rod is fixedly connected with the first positioning rod, and the first positioning rod is mutually perpendicular to the second positioning rod; an adjusting groove is formed in the adjusting rod, a bolt is arranged in the adjusting groove in a penetrating mode, and the bolt is in threaded fit with the jig.

By adopting the technical scheme, the screw cap and the base of the bolt have clamping effect on the adjusting rod, so that the adjusting rod is fixed on the base, and the positioning assembly is fixed on the base, thereby improving the convenience of installing and dismantling the positioning assembly by staff; the first positioning rod and the second positioning rod have positioning effect on two adjacent sides of the screen plate of the printing equipment, so that the screen plate of the printing equipment is positioned.

Preferably, the adjustment groove extends in a horizontal direction.

Through adopting above-mentioned technical scheme, the staff is convenient for adjust the position of adjusting the pole along the horizontal direction to the position of locating component is convenient for adjust along the horizontal direction.

Preferably, the jig is fixedly provided with a handle.

Through adopting above-mentioned technical scheme, the setting of handle has increased staff's transport tool's convenience.

Preferably, the handle is fixedly provided with a flexible layer.

Through adopting above-mentioned technical scheme, the staff at the in-process of transport tool, the flexible layer has increased the frictional force between staff's hand and the handle to the convenience of staff's transport tool has been increased.

Preferably, a positioning groove for positioning the lower operation platform is formed in the base, and the side wall of the lower operation platform is abutted to the inner side wall of the positioning groove.

Through adopting above-mentioned technical scheme, the constant head tank has the positioning effect to lower operation platform to the staff of being convenient for is fixed in lower operation platform on the base fast.

Preferably, the stamping is processed onto the woven cloth by a pad printing process.

By adopting the technical scheme, the pad printing process has wide application range and is generally applied to products which cannot be processed by screen printing, such as grooves, the back of a workpiece and the like, clear printing details can be achieved, and exquisite patterns can be printed on the uneven surfaces; not only the operation is convenient, but also the labor intensity of workers is reduced through automatic processing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the process of processing the woven fabric material, the woven fabric material is manually placed on the surface of the jig by a worker, so that the outer frame pattern on the surface of the jig has a positioning effect on the woven fabric material, thereby realizing the accurate positioning of the woven fabric material, and being convenient for the worker to rapidly paste the woven fabric material on the surface of the jig; simultaneously, the current is released through the high Zhou Shebei, so that the heat transfer mark is melted, the part of the coating of the woven cloth material is damaged by penetration, the heat transfer mark and the woven cloth material are cooled and shaped by utilizing the high-temperature fusion characteristic of the heat transfer mark and the woven cloth material, and the heat transfer mark is fixed on the woven cloth material, so that a seal is formed, the efficiency of processing the seal on the woven cloth material is improved, and meanwhile, the firmness of connection between the seal and the woven cloth material is also improved, so that the seal is not easy to separate from the woven cloth material;

2. the screw cap of the bolt and the base have clamping effect on the adjusting rod, so that the adjusting rod is fixed on the base, and the positioning assembly is fixed on the base, thereby improving the convenience of installing and dismantling the positioning assembly for workers; the first positioning rod and the second positioning rod have a positioning effect on two adjacent sides of the screen plate of the printing equipment, so that the screen plate of the printing equipment is positioned;

3. the pad printing process has wide application range, is generally applied to products which cannot be processed by screen printing, such as grooves, the back of a workpiece and the like, can achieve clear printing details, and can print exquisite patterns on uneven surfaces; not only the operation is convenient, but also the labor intensity of workers is reduced through automatic processing.

Drawings

Fig. 1 is a schematic structural view of a printing apparatus according to an embodiment of the present application.

Fig. 2 is a schematic structural view of a high-circumference apparatus according to an embodiment of the present application.

Fig. 3 is an enlarged partial schematic view of the portion a in fig. 2.

Fig. 4 is a process for processing a woven cloth stamp using a printing process in example 1.

Fig. 5 is a process for processing a woven cloth stamp using a printing process in example 2.

Reference numerals illustrate:

1. a lower operating platform; 11. positioning columns; 2. a jig; 21. positioning holes; 22. a handle; 23. a flexible layer; 3. printing equipment screen plate; 4. a printing tool; 5. a positioning assembly; 51. an adjusting rod; 52. a first positioning rod; 53. a second positioning rod; 54. an adjustment tank; 6. tatting a cloth; 7. a base; 71. a positioning groove; 8. a support; 9. a lifting assembly; 91. a driving member; 92. a lifting member; 10. a high-cycle mold; 12. thermal transfer printing of a label; 13. special treating agent.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

For ease of understanding, in the horizontal direction in this embodiment, the length direction of the X axis is defined as a first direction, and the length direction of the Y axis is defined as a second direction, and a printing apparatus and a high-peripheral device will be described based on this.

Example 1

The embodiment 1 of the application discloses a printing device. Referring to fig. 1, the printing apparatus includes a lower operation platform 1, a jig 2, a printing device screen 3, and a printing tool 4. The lower operation platform 1 is fixedly provided with two positioning columns 11, the jig 2 is provided with two positioning holes 21, and the two positioning columns 11 are respectively in plug-in fit with the two positioning holes 21, so that the jig 2 is positioned. The printing equipment screen 3 and the printing tool 4 are used for printing an outer frame pattern and cross positioning lines for positioning the woven fabric 6 on the jig 2.

With continued reference to fig. 1, the jig 2 is provided with a positioning assembly 5 for positioning the screen 3 of the printing apparatus, and specifically, the positioning assembly 5 includes an adjusting lever 51, a first positioning lever 52 and a second positioning lever 53, the first positioning lever 52 extends along the second direction, and the adjusting lever 51 and the second positioning lever 53 both extend along the first direction. The end of the adjusting rod 51 is fixedly connected with one end of the first positioning rod 52, the end of the second positioning rod 53 is fixedly connected with the other end of the positioning rod, and the first positioning rod 52 and the second positioning rod 53 are mutually perpendicular. The adjusting rod 51 is provided with a penetrating adjusting groove 54, the adjusting groove 54 extends along the first direction, a bolt is penetrated in the adjusting groove 54 and is in threaded fit with the jig 2, and therefore the positioning assembly 5 is fixed on the surface of the jig 2.

With continued reference to fig. 1, in printing the woven fabric 6, the woven fabric 6 is first placed on the surface of the jig 2. Then, the printing device screen 3 is placed on the surface of the woven fabric 6, so that one side of the printing device screen 3 is abutted against the side wall of the first positioning rod 52, and the adjacent side of the printing device screen 3 is abutted against the side wall of the second positioning rod 53, thereby realizing positioning of the printing device screen 3. Finally, an outer frame pattern and cross positioning lines for positioning the woven fabric 6 are printed on the jig 2 through the printing tool 4.

With continued reference to fig. 1, two handles 22 are fixedly arranged on the jig 2, and the two handles 22 are symmetrical to each other. The two handles 22 increase the convenience of the staff handling the jig 2. Each handle 22 is sleeved and fixed with a flexible layer 23, and the flexible layer 23 increases friction between the hands of the staff and the handles 22 when the staff carries the jig 2, so that convenience of the staff for carrying the jig 2 is improved.

Referring to fig. 1 and 2, the embodiment of the present application further discloses a height Zhou Shebei, the high-circumference apparatus includes a base 7, a supporting member 8, a lifting assembly 9 and a height Zhou Moju, the supporting member 8 is fixed on the upper surface of the base 7, the lifting assembly 9 is disposed on the supporting member 8, and the lifting assembly 9 is used for driving the height Zhou Moju to lift. Specifically, the lifting assembly 9 includes a driving member 91 and a lifting member 92, in this embodiment, the driving member 91 is an air cylinder, the air cylinder is fixed on the supporting member 8, a piston rod of the air cylinder is fixedly connected with the lifting member 92, and the height Zhou Moju 10 is fixed on the lifting member 92. The lifting piece 92 is driven to lift by the air cylinder, and the lifting piece 92 drives the height Zhou Moju to lift in the lifting process. The cylinder has the advantages of simple structure, large output force, strong waterproof capability and the like.

Referring to fig. 1, of course, the driving member 91 in the present embodiment may be a hydraulic cylinder or a motor screw structure. The hydraulic cylinder has the advantages of light weight, small volume, small motion inertia, high reaction speed and long service life, and is easy to realize automation. The motor screw rod structure has the advantages of simple structure, long service life and the like.

Referring to fig. 2 and 3, a positioning groove 71 for positioning the lower operation platform 1 is formed in the upper surface of the base 7, and the positioning groove 71 is located below the lifting assembly 9. After the outer frame pattern and the cross positioning lines are printed on the surface of the jig 2, the lower operation platform 1 and the jig 2 are simultaneously carried to the base 7. Then, the side wall of the lower operation platform 1 abuts against the inner side wall of the positioning groove 71, thereby fixing the lower operation platform 1 to the base 7.

Referring to fig. 3, in the process of processing the woven fabric 6, a worker manually places the woven fabric 6 on the surface of the jig 2 so that the edge of the woven fabric 6 is aligned with the outer frame pattern, and the woven fabric 6 is tightly attached by the viscosity of the jig 2 itself. The printing equipment screen 3 is used for printing special treating agents 13 with the same size as the thermal transfer labels 12 on the woven fabric 6 on the jig 2 to destroy the coating of the woven fabric 6. And then the thermal transfer label 12 is placed into a die fixed in equipment, precise positioning is realized through the die and the three-dimensional graph of the thermal transfer label 12, the middle layer of the thermal transfer label 12 is melted by using the current of high-cycle equipment, the coating part of the woven fabric 6 is damaged by penetrating, and the thermal transfer label 12 and the woven fabric 6 are cooled and shaped by utilizing the physical property high-temperature fusion characteristic of the thermal transfer label 12 and the woven fabric 6, so that the thermal transfer label 12 is fixed on the woven fabric 6, and a stamping is formed.

Referring to fig. 4, with the above structure, a process for processing a woven fabric stamping stamp using a printing process according to an embodiment of the present application includes the following steps:

step one: placing the jig 2 on the surface of a workbench, and printing an outer frame pattern and cross positioning lines of woven cloth 6 on the surface of the jig 2 through a printing tool 4 and a printing equipment screen 3;

step two: the high-circumference equipment comprises a base 7, a lower operation platform 1 is arranged on the base 7, and a positioning column 11 is fixedly arranged on the lower operation platform 1; placing the jig 2 on the lower operation platform 1, and enabling the positioning column 11 on the lower operation platform 1 to pass through the positioning hole 21 on the jig 2;

step three: the base 7 is fixedly provided with a supporting piece 8, the supporting piece 8 is provided with a lifting assembly 9, the lifting assembly 9 comprises a driving piece 91 and a lifting piece 92, and the driving piece 91 is used for driving the lifting piece 92 to lift; fixing the height Zhou Moju on the lifting piece 92 to align the cross positioning lines of the outer frame of the height Zhou Moju 10 with the cross positioning lines printed on the surface of the jig 2;

step four: manually placing the woven fabric 6 on the surface of the jig 2 by a worker, aligning the woven fabric 6 with the outer frame pattern of the woven fabric 6, and then adhering the woven fabric 6 to the jig 2 through the self-viscosity of the jig 2;

step five: printing a special treating agent 13 with the same size as the thermal transfer label 12 on the woven fabric 6 by using a printing component to destroy the coating of the woven fabric 6;

step six: the fixture 2 is clamped by a positioning column 11 on the lower operation platform 1;

step seven: the heat transfer printing mark 12 is fixed in the height Zhou Moju 10, accurate positioning is realized through the height Zhou Moju and the heat transfer printing mark 12, and current is released through the height Zhou Shebei, so that the heat transfer printing mark 12 is melted, the coating part of the woven fabric 6 is damaged in a penetrating manner, the heat transfer printing mark 12 and the woven fabric 6 are cooled and shaped by utilizing the high-temperature fusion characteristic of the heat transfer printing mark 12 and the woven fabric 6, and the heat transfer printing mark 12 is fixed on the woven fabric 6, so that a stamping is formed.

The woven cloth processed by the process has the following advantages:

in the process of processing the woven fabric 6 by high-circumference equipment, as the woven fabric 6 is manually placed on the surface of the jig 2 by a worker, the outer frame pattern on the surface of the jig 2 has a positioning effect on the woven fabric 6, so that the woven fabric 6 is accurately positioned, and the worker can conveniently and quickly paste the woven fabric 6 on the surface of the jig 2; simultaneously, the electric current is released through the high Zhou Shebei, so that the heat transfer label 12 is melted, the coating part of the woven fabric 6 is damaged by penetrating, the heat transfer label 12 and the woven fabric 6 are cooled and shaped by utilizing the high-temperature fusion characteristic of the heat transfer label 12 and the woven fabric 6, the heat transfer label 12 is fixed on the woven fabric 6, and then the stamping is formed, the stamping efficiency is improved, the connection firmness between the stamping and the woven fabric 6 is improved, and the stamping is not easy to separate from the woven fabric 6.

Example 2

Referring to fig. 5, embodiment 2 of the present application further discloses a process for processing a woven fabric stamp by using a printing process, namely, processing the stamp onto the woven fabric by a pad printing process, which specifically comprises the following steps:

step one: coating ink on the etching plate;

step two: the residual ink is scraped off by the telescopic scraper, and the residual ink can be remained in the pits of the etching plate;

step three: pressing the pad printing head, adhering the ink in the concave plate on the surface, pressing the pad printing head to the surface of the product, and leaving the ink on the concave plate on the product;

step four: the curing of the ink is achieved by natural airing or UV lamps.

The woven cloth processed by the pad printing process has the following advantages:

the pad printing process has wide application range, is generally applied to products which cannot be processed by screen printing, such as grooves, the back of a workpiece and the like, can achieve clear printing details, and can print exquisite patterns on uneven surfaces; not only the operation is convenient, but also the labor intensity of workers is reduced through automatic processing.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. A process for processing a woven cloth stamping stamp by utilizing a printing process is characterized by comprising the following steps of:

step one: placing a jig (2) on a workbench, and printing an outer frame pattern and a cross positioning line of a woven fabric (6) on the jig (2) through a printing tool (4) and a printing equipment screen plate (3); the jig (2) is provided with a positioning assembly (5) for positioning the printing equipment screen plate (3), the positioning assembly (5) comprises an adjusting rod (51), a first positioning rod (52) and a second positioning rod (53), the adjusting rod (51) is fixedly connected with the positioning rod, the second positioning rod (53) is fixedly connected with the first positioning rod (52), and the first positioning rod (52) and the second positioning rod (53) are mutually perpendicular; an adjusting groove (54) is formed in the adjusting rod (51), and the adjusting groove (54) extends along the horizontal direction; a bolt is penetrated in the adjusting groove (54) and is in threaded fit with the jig (2);

step two: the high-circumference equipment comprises a base (7), a lower operation platform (1) is arranged on the base (7), and the jig (2) is placed on the lower operation platform (1); a positioning column (11) is fixedly arranged on the lower operation platform (1), a positioning hole (21) is formed in the jig (2), and the positioning column (11) penetrates through the positioning hole (21);

step three: the base (7) is fixedly provided with a supporting piece (8), the supporting piece (8) is provided with a lifting assembly (9), the lifting assembly (9) comprises a driving piece (91) and a lifting piece (92), and the driving piece (91) is used for driving the lifting piece (92) to lift; fixing the height Zhou Moju (10) on the lifting piece (92) to align the cross positioning lines of the outer frame of the height Zhou Moju (10) with the cross positioning lines printed on the jig (2);

step four: manually placing the woven fabric (6) on the jig (2) by a worker, aligning the woven fabric (6) with an outer frame pattern of the woven fabric (6), and then adhering the woven fabric (6) on the jig (2) through the self viscosity of the jig (2);

step five: printing a special treating agent (13) with the same size as the thermal transfer label (12) on the woven fabric (6) by using a printing component to destroy the coating of the woven fabric (6);

step six: the heat transfer printing mark (12) is fixed in the high-cycle die (10), precise positioning is realized through the high Zhou Moju (10) and the three-dimensional graph of the heat transfer printing mark (12), and the current is released through the high Zhou Shebei, so that the heat transfer printing mark (12) is melted, the coating part of the woven fabric (6) is damaged by penetration, the heat transfer printing mark (12) and the woven fabric (6) are utilized for cooling and shaping by the high-temperature fusion characteristic, and the heat transfer printing mark (12) is fixed on the woven fabric (6), so that a stamping is formed.

2. A process for processing a woven fabric stamp using a printing process according to claim 1, characterized in that: the jig (2) is fixedly provided with a handle (22).

3. A process for processing a woven fabric stamp using a printing process according to claim 2, characterized in that: a flexible layer (23) is fixedly arranged on the handle (22).

4. A process for processing a woven fabric stamp using a printing process according to claim 1, characterized in that: a positioning groove (71) for positioning the lower operation platform (1) is formed in the base (7), and the side wall of the lower operation platform (1) is abutted to the inner side wall of the positioning groove (71).