KR20140060623A - Printing textile manufacture method and printing textile - Google Patents

Abstract

The present invention relates to a method for manufacturing a printing fabric for lighting or non-lighting advertisement by being applied to an advertising device (unit) using an LED, a fluorescent light, and other light sources as a backlight to produce an optimum advertisement effect, a printing fabric for advertisement, and an advertising device using the printing fabric for advertisement. In the present invention, the printing fabric is manufactured by sequentially forming a first coating layer for improving waterproofing performance, a second coating layer for improving light diffusivity and light permeability, a third coating layer for improving printing reliability, from a surface of a woven fabric, through a general fabric processing or a chintz finish processing process with respect to the woven fabric, first, second, and third coating processes with respect to the woven fabric, and first, second, and third drying processes with respect to the woven fabric. The printing fabric realized by the present invention has excellent printing reliability in a printed image as well as excellent tensile strength, waterproofing performance, and durability, thereby obtaining economical advantages and excellent advertisement effects, and has excellent light diffusivity and light permeability, thereby obtaining an optimum advertisement effect when being applied to the advertising device (unit) using an LED, a fluorescent light, or other light sources as a backlight.

Description

TECHNICAL FIELD [0001] The present invention relates to a manufacturing method of a printing fabric for lighting or non-lighting advertisement, and an advertising device using a printing fabric for advertisement and a printing fabric for advertising,

The present invention relates to a method of manufacturing a printing fabric for lighting or non-lighting advertisement, and an advertising device using a printing fabric for advertisement and a printing fabric using the printing fabric. More specifically, the invention is applicable to various publicity advertising means (banner, (LED) or a fluorescent light or other light source as a back light to produce an optimum advertisement effect, a method of manufacturing an advertising printing fabric, and a printing fabric and a printing fabric And to provide an advertisement device manufactured by the method.

The printing fabric is designed to enable the output of images using digital printing means, and various kinds of products are being used in various fields.

There are many examples of using various images in outdoor or indoor commercial advertising. In the conventional advertisement means using lighting, a fluorescent light, a fluorescent light, a fluorescent light, .

Although many types of printing fabrics have been found, most printing fabrics do not satisfy the light transmittance, so they are not suitable for use in advertising devices that use LEDs or fluorescent or other light sources as a back light Flex, bell, and PVC materials used in conventional outdoor and indoor commercial advertising lighting or non-lighting advertising means are not very flexible due to their high strength, they are heavy and heavy, which makes handling and construction inconvenient, It is pointed out that the environmental burden is increased because most materials are discarded.

In addition, fluorescent lamps, which are adopted as light sources in most existing advertising means for lighting advertising, are not only low in energy efficiency, but also use a large amount of environmentally harmful substances in the process of disposal. There is a need for an efficient advertisement apparatus.

The present invention relates to a printing fabric suitable for use in outdoor or indoor commercial advertisements for lighting or non-lighting, and in particular to an advertising device (means) using an LED or a fluorescent lamp or other light source as a back light The present invention relates to a method for manufacturing a printing fabric and a method for manufacturing a printing fabric using the same, and a method for manufacturing a printing fabric using the same, To provide a printing fabric which is realized by a manufacturing method.

It is still another object of the present invention to provide an advertisement device having excellent visibility and energy efficiency using the advertising printing fabric embodied by the present invention.

In order to accomplish the above object, the present invention provides a method for fabricating a textile fabric, comprising the steps of: forming a chintz finish on a textile fabric, a first, second and third coating process on the textile fabric, A second coating layer for improving light diffusibility and light transmittance, and a third coating layer for enhancing printing reliability, in order to improve waterproof performance and tensile strength, .

The printing fabric according to the present invention is embodied in a printing fabric suitable for use in outdoor or indoor commercial advertisements for lighting or non-lighting. The printing fabric embodied by the present invention is not only excellent in durability, The printing fabric realized by the present invention is excellent in light diffusibility and light transmittance so that LED or fluorescent lamp or other light source can be used as backlight it is possible to obtain an optimum advertisement effect when applied to an advertisement device (means) used as a back light.

In addition, the advertising printing fabric embodying the present invention has a 12-20% higher light transmittance than conventional flex material for fluorescent lamps, and is suitable for fluorescent lamps with a power consumption of 20 - 25 watts So that the energy consumption efficiency of the advertising apparatus can be greatly improved. In addition, the printing fabric embodying the present invention is subjected to a separate cleaning process after use and then melted by applying a certain amount of heat, It is possible to reduce the environmental load by making it recyclable.

Since the advertising device manufactured using the fabric material embodied by the present invention has excellent light transmittance in comparison with the advertising means in which the fluorescent light is combined with the flex material, the lighting device achieves a lighting effect exceeding the illuminance of the existing advertising means with a small power And it is possible to improve the energy efficiency, to realize the image expressed in the advertising means clearly, to have excellent visibility and visibility at night, to have excellent printing reliability of the printing fabric, to have low durability and color fade phenomenon It is possible to use for a long time outdoors and obtain a satisfactory advertising effect, and the present invention is an advantageous effect that the expected effect is indeed beneficial.

1 is a perspective view showing an embodiment of an advertising device proposed in the present invention;
2 is a cross-sectional view illustrating an internal structure of an advertising apparatus;
FIG. 3 is a perspective exploded perspective view of the advertising device proposed in the present invention; FIG.

The present invention relates to a process for producing a printing fabric by a chintz finish process, a primary coating process, a secondary drying process, a secondary coating process, a secondary drying process, a tertiary coating process and a tertiary drying process The preferable implementation of each process is as follows.

Step 1 - This process is a process for smoothening the surface and filling the fine gaps on the surface of the woven fabric, ensuring the surface gloss. It is a process of maintaining a temperature of 180 ° - 230 ° and rotating at a high speed of 80 - 100RPM (Nylon, nylon, tropicol, and high-density poly ester fabric) to fabric the fabric.

2 step process - This process is a primary coating process for applying the primary coating solution for improvement of the waterproof performance and tensile strength of the fabric fabric, and it is 25 - 35% by weight of soft type PU 60 - 72% 3 to 5% by weight of a curing agent are mixed and then stirred to form a primary coating layer on the surface of the fabric at a thickness of 10 to 20 袖 m to form a primary coating layer on the fabric. At this time, the flexible dry PU used was Kangnam Hwasung 30KW (trade name), and the hardener used was Isocyanate CR-75 (trade name).

 Step 3 - This step is a primary drying step for drying the fabric material having the primary coating layer formed thereon, and the primary fabric is formed by applying a temperature of 160 ° to 200 ° to the fabric material having the primary coating layer formed thereon.

4 step process - This process is a secondary coating process for applying a secondary coating solution for improving the light diffusibility and light transmittance of fabric fabrics, and is composed of titanium dioxide (TiO2) for luminance enhancement with respect to 50 wt% And 30% by weight of an acrylic binder resin and 20% by weight of an acrylic binder resin are mixed and stirred to form a secondary coating layer on the surface of the fabric coated with the primary coating solution to a thickness of 5 to 15 μm.

Step 5 - This process is a secondary drying process for drying fabric fabrics having a secondary coating layer formed thereon. The fabrics having the secondary coating layer are transferred at a speed of 30 - 45 m / s, The fabric having the secondary coating layer formed is allowed to pass through a drying apparatus to which hot air or direct heat is supplied, followed by secondary drying.

Step 6 - This step is a third coating process for applying a tertiary coating solution for improving printing reliability on an image printed on a cloth fabric by a solvent ink, a latex ink, etc., The third coating solution obtained by mixing 10 to 30 wt.% Of dioctyl terephthalic acid, soft type dry PU 6 to 14 wt.%, And toluene 4 to 6 wt.% And stirring at high speed was coated on the surface of the fabric to which the secondary coating solution was applied 5 to 15 탆 thick to form a third coating layer. At this time, the flexible dry PU used was Kangnam Hwasung 30KW (trade name).

Step 7 - This step is a tertiary drying step for drying a fabric material having a tertiary coating layer formed thereon. The fabric is subjected to tertiary drying at a temperature of 150 ° to 200 °.

On the other hand, according to the present invention, it is possible to use other general fabric processing such as a twisting process, a feed process, etc. instead of the affinity process for the fabric, So that even if a printing fabric for lighting or non-lighting advertisement is produced, the fabric can exhibit a considerable function in terms of durability, light transmittance and the like.

Through the above steps, it was possible to realize an advertising printing fabric in which the first, second, and third coating layers were formed from the surface of the fabric fabric processed with the affinity, and the printing fabric fabric realized by the present invention was improved in waterproof performance by the primary coating layer, And the secondary coating layer improves the light diffusivity and light transmittance of the fabric, and when applied to an advertising device (means) using an LED (light emitting diode) or a fluorescent lamp or other light source as a back light, It is possible to obtain an optimum advertising effect by improving the illuminance, and the third coating layer can improve the advertising effect by increasing the printing reliability on the printed image.

On the other hand, in manufacturing a printing fabric for advertisement, a printing fabric can be reproduced in a form suitable for transfer printing, and the manufacture of a transfer printing fabric is performed as follows.

The mixture is stirred at a rate of 300 to 400 rpm for 15 to 20 minutes at a rate of 4 to 6% by weight of water, 79 to 86% by weight of water, 5 to 8% by weight of an anti-fogging material GRD and 5 to 7% The coating agent is coated on the surface of the fabric by a method such as padding and then dried by heating at 180 to 200 ° C or hot air to prepare a printing fabric.

The advertising printing fabric prepared by the above process was suitable for transfer printing, and the fabric having the image transferred thereon was excellent in straightness and transparency of light emitted from the LED illumination.

1 to 3 show a preferred embodiment of the advertisement apparatus 10 according to the present invention. As shown in the drawing, the present invention is a case in which a case, which is formed by opening a side surface and forming a power supply accommodating portion 21 in a part of the case, A power supply B mounted on the power supply housing compartment 21; an LED placement board 30 mounted on the inner side of the case 21 to receive power from the power supply B; A plurality of LED lamps L disposed on the case 21 and a printing fabric 40 fixed on the opening face of the case 21 and fixed by the fixing means 50. [

The printing fabric 40 may include 25 to 35% by weight of toluene and 3 to 5% by weight of a curing agent (isocyanate CR-75) relative to the soft dry PU 60 - 72% by weight on the surface of the fabric fabric T (TiO2) for improving brightness and 20% by weight of an acrylic binder resin in an amount of 50% by weight based on 50% by weight of acrylic beads, which is a light diffusing material, and a second coating layer C2), a tertiary coating layer (C3) obtained by mixing 10 to 30% by weight of dioctylterephthalic acid, 14 to 14% by weight of soft type dry PU and 4 to 6% by weight of toluene with respect to 50 to 80% by weight of polyvinyl chloride Respectively.

Meanwhile, the advertisement device 10 proposed in the present invention may be provided with a control device (not shown) to automatically turn on / off the illumination of the advertisement device at a desired time, The apparatus 10 can be configured to be controlled individually or group by remote, and a modular LED lighting unit (not shown) can be added to easily remove and adhere the light, Can be maximized.

The advertisement device 10 having the above-described configuration uses the LED lamp L as a light source. Since the LED lamp L illuminates the light with a forward directivity of 120 degrees, the efficiency of light is excellent. Compared with existing advertising means comprising a light source, the advertising device 10 of the present invention is able to obtain a level of illumination equal to that of a fluorescent lamp advertising means consuming 100 watts at a power of 20 - 25 watts.

In addition, the printing fabric 40 constituting the advertisement device 10 of the present invention has a light transmittance of about 15 to 20% higher than that of a conventional signboard flex material, so that the image displayed on the printing fabric 40 can be clearly displayed And the visibility and visibility at night are better. The printing fabric 40 is excellent in printing reliability and durability and color fade phenomenon, and can be used outdoors for a long time, and satisfactory advertisement effect can be obtained .

The advertising device 10 comprising the printing fabric 40 and the LED lamp L embodied by the present invention can achieve a lighting effect equivalent to that of a conventional fluorescent lamp with a power consumption of 100 watts with an LED power consumption of 20 to 25 watts Since the present invention can be implemented by removing the fluorescent lamp in use and installing the LED lamp (L), it is possible to recycle the existing lighting means. In addition, the LED lighting is installed in only 20 - 25% of the existing fluorescent lamp capacity Can achieve the same level of illumination as conventional fluorescent lamps.

10: Ad device 20: Case
21: Power supply compartment 30: LED placement substrate
40: printing fabric 50: fixing means
B: power supply C1: primary coating layer
C2: Secondary coating layer C3: Third coating layer
L: LED lamp T: Fabric fabric

Claims (4)

Upper and lower processing rotates at a speed of 80 - 100RPM at a temperature of 180 ° - 230 °. The fabric is passed through a cloth fabric (polydaada, nylon, tropic, high density polyester fabric) Affinity processing;
25 to 30% by weight of tungsten and 3 to 5% by weight of a curing agent are mixed with 65% by weight of soft type dry PU 60 to 65% by weight, and the obtained primary coating solution is applied to the surface of the fabric at a thickness of 10 - A primary coating process for forming a primary coating layer on the fabric;
A primary drying step of applying a temperature of 160 ° to 200 ° to the fabric of the primary coating layer;
30% by weight of titanium dioxide (TiO2) and 20% by weight of acrylic binder resin were added to 50% by weight of acrylic beads as light diffusing material for improving brightness, and the secondary coating liquid obtained by stirring was coated on a fabric coated with a primary coating solution A secondary coating process for forming a secondary coating layer by coating the surface of the fabric at a thickness of 5-15 mu m;
A secondary drying process in which the fabric fabric having the secondary coating layer is passed through a drying device supplied with hot air or straight heat of 150 ° to 210 ° while being transported at a speed of 30 to 45 m /
10 to 25 wt% of dioctylterephthalic acid, 1 to 3 wt% of stabilizer, 5 to 10 wt% of soft type dry PU and 3 to 5 wt% of toluene were mixed with 50 to 75 wt% of polyvinyl chloride, A tertiary coating process for forming a tertiary coating layer by applying the obtained tertiary coating solution to a surface of a fabric to which a secondary coating solution is applied to a thickness of 5 to 15 탆;
And a third drying step of applying a temperature of 150 ° to 200 ° to the fabric having the third coating layer formed thereon. 25 to 30% by weight of a soft dry PU 60 to 65% by weight on the surface of a woven fabric or a woven fabric (polyurethane, nylon, tropicol, high density polyester fabric) , A secondary coating layer obtained by mixing 30 wt% of photocatalyst titanium dioxide (TiO2) and 20 wt% of an acrylic binder resin for improving brightness with respect to 50 wt% of acrylic beads as a light diffusing material, A tertiary coating layer is formed by mixing 10 to 25 wt% of dioctylterephthalic acid, 1 to 3 wt% of stabilizer, 5 to 10 wt% of soft type dry PU and 3 to 5 wt% of toluene with respect to 50 to 75 wt% of vinyl chloride Wherein the printing fabric is a printing fabric for lighting or non-lighting advertising. The mixture is mixed with 79 to 86% by weight of water, 4 to 6% by weight of a penetrating agent K2, 5 to 8% by weight of an anti-fogging material GRD and 5 to 7% by weight of a carrier, and agitated (300 to 400 rpm, Min.), Coating the surface of the woven fabric or the woven fabric treated with the coating agent by a method such as padding, and then drying the woven fabric at a temperature of 180 to 200 ° C by direct heat or hot air ≪ RTI ID = 0.0 > 1. ≪ / RTI > A power supply B provided on the power supply housing compartment 21 and a power supply B provided on the inner side of the case 21 to provide power A plurality of LED lamps L disposed on the LED array substrate 30; a plurality of LED lamps L mounted on the LED array substrate 30 and fixed on the open faces of the case 21 and fixed by the fixing means 50; (40) to form the advertising device (10);
The printing fabric 40 may be prepared by mixing 25 to 30% by weight of toluene and 3 to 5% by weight of a curing agent on a surface of a fabric fabric or fabric T A secondary coating layer C2 in which 30 weight% of titanium dioxide (TiO2) and 20 weight% of acrylic binder resin are mixed to 50 weight% of acrylic beads as a light diffusing material, A tertiary coating layer (C3) mixed with 50 to 75% by weight of polyvinyl chloride, 10 to 25% by weight of dioctylterephthalic acid, 1 to 3% by weight of a stabilizer, 5 to 10% by weight of a soft dry PU and 3 to 5% ) Is formed on the upper surface of the screen.

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