CN114851734A - Digital fine printing process of blended fabric - Google Patents

Abstract

The invention relates to the technical field of textile processing, in particular to a digital fine printing process of blended fabric, which comprises the steps of defining a placement area on a workbench; the blended fabric is flattened in the placing area through a stretching mechanism; manufacturing an impression cylinder based on the printing type; embossing the flattened blended fabric by using an embossing roller to obtain a printed fabric semi-finished product; the semi-finished product of the printed fabric is dried to obtain a finished product of the printed fabric, the placing area of the blended fabric on the workbench is limited, the blended fabric is flattened through the stretching mechanism, the effective area of the blended fabric in contact with the impression cylinder is increased, the impression accuracy of the impression cylinder on the blended fabric is increased, and the problem that the impression accuracy of the existing printing process on the blended fabric is poor is solved.

Description

Digital fine printing process for blended fabric

Technical Field

The invention relates to the technical field of textile fabric processing, in particular to a digital fine printing process of blended fabric.

Background

The surface of the blended fabric is printed with the stamp, so that the attractiveness of the blended fabric can be improved.

At present, the prior art discloses a digital printing process of blended fabric, which is to manufacture an impression cylinder based on printing types and use the impression cylinder to print on the surface of the blended fabric.

By adopting the mode, the embossing roller can generate transverse driving force in the embossing process of the blended fabric, so that the blended fabric deviates from the embossing end of the embossing roller, and the embossing accuracy of the blended fabric is reduced.

Disclosure of Invention

The invention aims to provide a digital fine printing process for blended fabrics, and aims to solve the problem that the existing printing process has poor embossing accuracy on the blended fabrics.

In order to realize the aim, the invention provides a digital fine printing process of blended fabric, which comprises the following steps:

defining a placement area on a workbench;

flattening the blended fabric in the placement area through a stretching mechanism;

manufacturing an impression cylinder based on the printing type;

impressing the flattened blended fabric by using the impressing roller to obtain a printed fabric semi-finished product;

and drying the printed fabric semi-finished product to obtain a printed fabric finished product.

Wherein, after the step of drying the semi-finished printed fabric product to obtain a finished printed fabric product, the process further comprises the following steps:

padding the finished printed fabric product with a color fixing solution to obtain a semi-finished color-fixed fabric product;

and (3) washing the fixed fabric and then drying to obtain a finished product of the fixed fabric.

Wherein, after the step of drying the fixed fabric after washing to obtain a finished product of the fixed fabric, the process further comprises:

and setting the color-fixed fabric finished product to obtain an optimized printing fabric finished product.

Wherein, the exhibition extends the mechanism including compressing tightly subassembly, drive assembly, mounting bracket, reset spring, link and press the compression roller, compress tightly the subassembly set up in the workstation top, drive assembly set up in the workstation lateral wall, the mounting bracket set up in one side of drive assembly, reset spring with mounting bracket fixed connection, and be located the mounting bracket inside wall, the link with reset spring fixed connection, and run through the mounting bracket, press the compression roller with the link rotates to be connected, and is located and keeps away from one side of reset spring.

The pressing assembly comprises a fixing frame and a buckle, the fixing frame is rotatably connected with the workbench and is positioned at the top of the workbench, and the buckle is fixedly connected with the workbench and is matched with the fixing frame.

The pressing assembly further comprises an anti-slip pad, and the anti-slip pad is fixedly connected with the fixing frame and located on one side close to the workbench.

The digital fine printing process of the blended fabric comprises the steps of defining a placement area on a workbench; flattening the blended fabric in the placement area through a stretching mechanism; manufacturing an impression cylinder based on the printing type; impressing the flattened blended fabric by using the impressing roller to obtain a printed fabric semi-finished product; it is right the semi-manufactured goods of printed fabric are dried, obtain the printed fabric finished product, through right the blended fabric is in place the region on the workstation is injectd, simultaneously through the extension mechanism will the blended fabric shakeouts, increases the blended fabric with the effective area of impression cylinder contact, thereby increased the impression cylinder is right the accuracy of blended fabric impression has solved the relatively poor problem of current printing technology to the impression accuracy of blended fabric.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of a digital fine printing process of blended fabric provided by the invention.

Fig. 2 is a schematic structural view of the table and the spreading mechanism.

Fig. 3 is a side view of the table and the spreader mechanism.

Fig. 4 is a cross-sectional view of the table and the spreader mechanism.

The device comprises a pressing component 1, a driving component 2, a mounting rack 3, a return spring 4, a connecting rack 5, a pressing roller 6, a fixing rack 7, a buckle 8, a non-slip mat 9, a fan 10, an air distributing pipe 11, a nozzle 12, a guide rail 13, a sliding block 14, a lifting rod 15, a motor 16, a screw 17, an adapter ring 18 and a workbench 19.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1 to 4, the present invention provides a digital fine printing process for blended fabrics, comprising the following steps:

s1 defining a placement area on the table 19;

specifically, the placement area is an embossing range of the embossing cylinder, and the area of the workbench 19 is larger than that of the blended fabric.

S2 spreading the blended fabric in the placement area through a spreading mechanism;

specifically, the stretching mechanism comprises a pressing assembly 1, a driving assembly 2, an installation frame 3, a reset spring 4, a connecting frame 5 and a pressing roller 6, wherein the pressing assembly 1 is arranged at the top of the workbench 19, the driving assembly 2 is arranged on the outer side wall of the workbench 19, the installation frame 3 is arranged on one side of the driving assembly 2, the reset spring 4 is fixedly connected with the installation frame 3 and is positioned on the inner side wall of the installation frame 3, the connecting frame 5 is fixedly connected with the reset spring 4 and penetrates through the installation frame 3, and the pressing roller 6 is rotatably connected with the connecting frame 5 and is positioned on one side far away from the reset spring 4; the pressing assembly 1 comprises a fixed frame 7 and a buckle 8, the fixed frame 7 is rotatably connected with the workbench 19 and is positioned at the top of the workbench 19, and the buckle 8 is fixedly connected with the workbench 19 and is matched with the fixed frame 7; the pressing assembly 1 further comprises a non-slip mat 9, and the non-slip mat 9 is fixedly connected with the fixing frame 7 and is positioned on one side close to the workbench 19.

In the embodiment, when the blended fabric is spread flat, the fixing frame 7 is rotated in the direction away from the workbench 19, the edge of the blended fabric is placed under the fixing frame 7, the fixing frame 7 is rotated in the direction close to the workbench 19, so that the fixing frame 7 is matched with the buckle 8, at the moment, the anti-slip pad 9 on the fixing frame 7 tightly supports the blended fabric on the workbench 19, the blended fabric is spread on the placement area of the workbench 19, the mounting frame 3 can be lifted, the mounting frame 3 drives the pressing roller 6 on the mounting frame 3 to descend to be in contact with the blended fabric, the driving assembly 2 drives the mounting frame 3 to drive the pressing roller 6 to roll on the surface of the blended fabric, and gas between the blended fabric and the workbench 19 is pressed out, the return spring 4 pushes the pressing roller 6 on the connecting frame 5 to be close to the blended fabric, so that the pressing roller 6 is in close contact with the blended fabric.

S3, manufacturing an impression cylinder based on the printing type;

specifically, the impression cylinder is made based on the type of printing, while the impression pigment is formulated based on the color of the printing.

S4, embossing the flattened blended fabric by using the embossing roller to obtain a printed fabric semi-finished product;

specifically, the impression cylinder is arranged on the top of the workbench 19, the prepared impression pigment is injected into the impression cylinder, the impression cylinder moves on the workbench 19, the pigment is coated on the blended fabric according to the printing shape, and the temperature of the pigment is maintained at 32-42 ℃.

And S5, drying the semi-finished printed fabric to obtain a finished printed fabric.

Specifically, the drying temperature is 100-.

S6, padding the finished printed fabric with a color fixing solution to obtain a semi-finished color-fixed fabric;

specifically, the padding temperature was 30 ℃.

S7, washing the fixed fabric with water and then drying to obtain a finished fixed fabric;

specifically, the drying temperature is 100-.

And S8, shaping the color-fixed fabric finished product to obtain an optimized printing fabric finished product.

Specifically, the setting temperature is 110-.

Further, the stretching mechanism still includes cloth tuber pipe 11, nozzle 12 and fan 10, cloth tuber pipe 11 with 3 fixed connection of mounting bracket, and be located 3 lateral walls of mounting bracket, nozzle 12 with 11 intercommunications of cloth tuber pipe, fan 10 with 11 fixed connection of cloth tuber pipe, and be located and keep away from one side of nozzle 12. The extension mechanism further comprises a guide rail 13, a sliding block 14 and a lifting rod 15, the guide rail 13 is fixedly connected with the workbench 19 and is positioned on the outer side wall of the workbench 19, the sliding block 14 is slidably connected with the guide rail 13 and is positioned on the inner side wall of the guide rail 13, the lifting rod 15 is fixedly connected with the sliding block 14 and is fixedly connected with the mounting rack 3 and is positioned between the sliding block 14 and the mounting rack 3. Drive assembly 2 includes motor 16, screw rod 17 and adapter ring 18, motor 16 with 19 fixed connection of workstation, and be located the 3 lateral walls of mounting bracket, screw rod 17 with 16 output fixed connection of motor, and with 19 rotations of workstation are connected, adapter ring 18 with screw rod 17 threaded connection, and with 19 sliding connection of workstation, and be located 19 lateral walls of workstation.

In this embodiment, the motor 16 drives the screw rod 17 to rotate, the screw rod 17 drives the adapter ring 18 to slide on the workbench 19 when rotating, and drives the mounting rack 3 to move, the lifting rod 15 connects one side of the mounting rack 3, which is far away from the adapter ring 18, to the slider 14, the slider 14 correspondingly slides in the guide rail 13 when the mounting rack 3 moves, so as to increase the stability when the mounting rack 3 moves, meanwhile, the lifting rod 15 correspondingly adjusts in a telescopic manner according to the telescopic condition of the mounting rack 3, so that the mounting rack 3 is parallel to the workbench 19, so that the printing of the pressing roller 6 on the mounting rack 3 is uniform, when the mounting rack 3 moves, the fan 10 injects wind into the air distribution pipe 11, and the nozzle 12 pressurizes and sprays the wind in the air distribution pipe 11, and blowing off impurities on the surface of the blended fabric to increase the impression effect of the blended fabric.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The digital fine printing process of the blended fabric is characterized by comprising the following steps of:

defining a placement area on a workbench;

flattening the blended fabric in the placement area through a stretching mechanism;

manufacturing an impression cylinder based on the printing type;

impressing the flattened blended fabric by using the impressing roller to obtain a printed fabric semi-finished product;

and drying the printed fabric semi-finished product to obtain a printed fabric finished product.

2. The digital fine printing process of blended fabric according to claim 1,

after the step of drying the printed fabric semi-finished product to obtain a printed fabric finished product, the process further comprises the following steps:

padding the finished printed fabric product with a color fixing solution to obtain a semi-finished color-fixed fabric product;

and (3) washing the fixed fabric and then drying to obtain a finished product of the fixed fabric.

3. The digital fine printing process of blended fabric according to claim 2,

after the step of washing the fixed fabric and then drying the fixed fabric to obtain a finished fixed fabric, the process further comprises the following steps:

and setting the color-fixed fabric finished product to obtain an optimized printing fabric finished product.

4. The digital fine printing process of blended fabric according to claim 1,

the extension mechanism is including compressing tightly subassembly, drive assembly, mounting bracket, reset spring, link and press the compression roller, compress tightly the subassembly set up in the workstation top, drive assembly set up in the workstation lateral wall, the mounting bracket set up in one side of drive assembly, reset spring with mounting bracket fixed connection, and be located the mounting bracket inside wall, the link with reset spring fixed connection, and run through the mounting bracket, press the compression roller with the link rotates to be connected, and is located and keeps away from one side of reset spring.

5. The digital fine printing process of blended fabric according to claim 4,

the compressing assembly comprises a fixing frame and a buckle, the fixing frame is rotatably connected with the workbench and is positioned at the top of the workbench, and the buckle is fixedly connected with the workbench and is matched with the fixing frame.

6. The digital fine printing process of blended fabric according to claim 5, characterized in that,

the pressing assembly further comprises an anti-slip pad, and the anti-slip pad is fixedly connected with the fixing frame and located on one side close to the workbench.

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