JPH0122395B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention is directed to the entire surface of cloth such as knitted fabrics, woven fabrics, and non-woven fabrics that can be used as fabrics for sportswear, casual wear, working wear, gloves, etc. The present invention relates to a processed cloth on which a resin film is formed and a processing method.

[Conventional technology and its problems]

Conventionally, as a cloth with waterproofness and heat retention, there is a processed cloth in which a resin film is formed on the entire surface of cloth such as knitted fabrics, woven fabrics, and non-woven fabrics (Japanese Patent Application Laid-Open No. 1983-1999).
(Refer to Publication No. 191278 and Japanese Utility Model Application Publication No. 59-46235). This treated fabric is very effective as a clothing cloth because it has waterproof properties and heat retention properties, but because the resin coating is one color, it has poor fashionability and is not widely used as a casual clothing fabric.

Therefore, in recent years, we have applied the technology described in Japanese Utility Model Publication No. 51-40377 to sheet-like fabrics such as curtains,
Products were invented that increased the commercial value by printing a pattern or gravure coating on the resin film surface afterwards.

However, as shown in FIG. 3, this processed cloth is one in which a resin film 2 is formed on a raw cloth 1 by transfer, coating, etc., and a desired pattern 3 is printed or gravure coated thereon. Therefore, even if the dye penetrates into the resin film 2, from a microscopic perspective, the pattern 3 protrudes from the resin film 2, as shown in the figure, and the exposed area of the pattern 3 is large, and when worn and washed. Handle 3 due to friction such as
There is a problem that they are easily damaged and fall off.

In addition, in the case where the resin film 2 is mixed with aluminum powder to give it heat reflection properties to improve heat insulation properties, and the handle 3 is made with carbon-containing ink or glue to give it heat storage properties, the handle surface is placed on the side of the human body M. However, as shown by the arrow in the figure, the heat rays a from the human body M are not effectively reflected by the protruding handle 3, and the heat b conducted from the human body M to the handle 3 is dissipated in all directions. There are problems with insulation and heat retention.
Furthermore, as described above, if the handle 3 is damaged or falls off, the insulation and heat retention effects will not last.

For sheet-like fabrics such as curtains and tents, a technique is disclosed in Japanese Utility Model Application Publication No. 127576/1985 in which the pattern is coated with a synthetic resin. If this technique is applied to the conventional example shown in FIG. 3, it is possible to prevent the pattern from being damaged and falling off, but if a resin layer is used, the color impression will be poor and the commercial value will be lowered.

[Purpose of the invention]

The object of the present invention is to provide a processed cloth and a processing method thereof that solve the above-mentioned problems.

[Means to achieve the purpose]

In order to achieve the above object, in the processed cloth of the present invention, a resin film is formed by coating on the entire surface of cloth such as knitted fabrics, woven fabrics, non-woven fabrics, etc. A printed pattern is provided that is exposed at first, and this printed pattern is buried by forming a resin film.

In the processed cloth constructed in this manner, the surface of the resin film and the printed pattern are flush with each other, so there is little friction against the printed pattern when worn or washed.

In addition, in the processing method for achieving the above-mentioned purpose, when manufacturing a processed fabric in which a resin film is formed on the entire surface of a fabric such as a conventionally well-known knitted fabric, woven fabric, or non-woven fabric, a release film is applied to the surface of the fabric. A desired pattern is printed on the paper, and after drying, resin is applied to the printed surface to fill the gaps between the patterns to form a resin film, and one side of the cloth is bonded and integrated onto this resin film. The processed fabric according to the present invention is obtained by peeling off the release film either as it is or after drying.

The above-mentioned printed pattern can be formed by a well-known printing method such as gravure printing using a well-known ink, but the ink may be made of a base material such as an ultraviolet curing resin, a urethane resin, an acrylic resin, an epoxy resin, or various synthetic rubbers. It is based on a resin that has various functionalities (waterproofing, heat retention, etc.), and on top of this, materials (inorganic pigments such as carbon and aluminum, other organic pigments, antibacterial agents, It is preferable to use an ink mixed with heat-reactive chemical substances, etc.), and when the ink is mixed with carbon, the heat retention property is improved due to the heat storage property of carbon.
Furthermore, if the contaminant is a conductive material such as carbon, if the pattern is continuous, static electricity will be dissipated and the cloth will be prevented from being charged. Antistatic technology eliminates static electricity, improves comfort, and eliminates dust adhesion. For this reason, it is preferable as a clothing cloth for use in places where dirt and dust are averse, such as working wear in the semiconductor industry.

Various resins can be used as a single layer or multiple layers for the resin forming the resin film, depending on the purpose of use of the processed cloth (heat retention, waterproofing, insulation, moisture permeability, etc.).
It is preferable to have at least two layers, one of which is made of a solvent-based resin that has high adhesion to printing ink, such as one-component polyurethane resin, acrylic resin, epoxy resin, polyester resin, ultraviolet curing resin, etc., or a solvent-free resin. The layer thereon is preferably made of a resin that has adhesive strength to the fabric, such as a two-component polyurethane resin, an acrylic resin, a polyamide resin, or an ethylene vinyl acetate (EVA) resin.
The resin may or may not have moisture permeability.

In addition, substances with various functions (heat retention, waterproofing, etc.) can be mixed into the resin for resin film formation depending on the purpose of use, etc. For example, fine metal powder such as aluminum, fine carbon powder, etc. In the case of aluminum fine powder mixed alone or in combination, the resin surface exhibits metallic luster and can form a reflective layer.
In this case, as shown in FIG. 1, the printed pattern 11 does not interfere with the reflection of the radiant heat rays a, and the conductive heat (heat storage) b stored in the carbon is absorbed by the surrounding metal surface acting as a heat reflecting wall. , not dissipated in all directions.
Additionally, if ceramic powder is mixed in, this powder will convert radiant heat rays into far infrared rays, increasing the heat retention effect.

As the release film, a well-known film such as white wood-free paper, synthetic resin film, etc. extruded and laminated with polypropylene (hereinafter referred to as PP) is used.

〔Example〕

Embodiments of the present invention will be described below with reference to the accompanying drawings.

First, PP is extruded and laminated on one side of white high-quality paper using PP lamination to obtain a release film 10 having a thickness of 20 to 30 μm. On the release surface of the film 10, a continuous hexagonal pattern 11 shown in FIG. Roll it up with the printed side inside.

As shown in FIG. 2, the printed release film 10 is pulled out from this roll, the one-component urethane resin 13 is applied onto the printed pattern 11 using a first bar coater 12, and a dryer 16 After drying, a two-component adhesive resin 15 is further applied onto the urethane resin 13 film using a second bar coater 14 and dried using a drier 16. A crosslinking agent is added to the resin 15, and the crosslinking agent is an aromatic isocyanate or an aliphatic isocyanate, and the promoter thereof is an organic amine, an organic metal salt, or the like. During this coating, the gap between the release film 10 and the bar coaters 12 and 14 is 50μ to 100μ, the amount of resin/solvent solution attached is 40g/m ² to 120g/m ² , and the resin film after drying is a one-component type. The amount is 7μ to 20μ (depending on the pigment, it may be more than 80μ, for example), and the two-component type is 10 to 20μ.

Next, the release film 10 on which the resin films 13 and 15 are formed is inserted between the heating roll 17 and the press roll 18, and a base fabric (fabric cloth) 19 such as knitted fabric, woven fabric, or nonwoven fabric is inserted. The adhesive force of the two-component adhesive resin 15 allows the two to be bonded and integrated (dry lamination). At this time, heating roll 1
In step 7, the temperature is 130°C, and the pressure is 5 kg/cm ² or less. After gluing, roll it up and leave it to mature for at least 24 hours. This is to react the isocyanate in the adhesive resin 15, and is preferably carried out in a temperature controlled room at 25 to 40°C.

After the aging is completed, the release film 10 is peeled off using a peeling machine to obtain the processed cloth A. This processed cloth A is subjected to selvage cutting and water repellent treatment.

In addition, when the base fabric 19 is knitted, if a pattern is processed on the base fabric 19 by gravure coating, the pattern surface may be cut due to expansion and contraction of the base fabric 19, resulting in unclearness or deformation of the pattern. However, in the case of transfer using the release film 10 as in the embodiment, such a problem does not occur because printing is performed on the film 10 and the base fabric is then bonded.

〔Effect of the invention〕

As can be understood from the above explanation, the processed fabric of this invention has a printed pattern inside the resin film, so the printed pattern will not be damaged or fall off, and a clear pattern can be obtained for many years. It also has a high heat retention (heat reflection) effect. Furthermore, since the handle is exposed, there is no deterioration in color appearance, and since the resin film and handle are flush, the product has a texture that has never been seen before.

Furthermore, the processing method can easily produce the above-mentioned effective processed fabric, and is particularly effective for knitted fabrics.

[Brief explanation of drawings]

1A and 1B are a sectional view and a plan view of an embodiment of the work cloth according to the present invention, FIGS. 2A and 2B are illustrations for explaining the processing thereof, and FIG. 3 is a sectional view of a conventional work cloth. 1, 19... Fabric cloth (base fabric), 2... Resin film,
3, 11... Pattern, 10... Release film, 13...
...One-component urethane resin (resin film), 15... Two-component urethane resin (resin film), 16... Dryer,
17... Heating roll, 18... Press roll, A
...Processed cloth.

Claims (1)

[Claims] 1. A resin film is formed by coating on the entire surface of cloth such as knitted fabrics, woven fabrics, non-woven fabrics, etc., and a printed pattern is provided in this resin film, which is exposed flush with the surface of the resin film. A processed fabric characterized in that the printed pattern is embedded by forming a resin film. 2. The work cloth according to claim 1, wherein the resin film has a metallic luster by incorporating fine metal powder. 3. The processed fabric according to claim 1 or 2, wherein the resin film is made of ceramic, carbon, or a mixture of powders of both. 4 The above printed pattern is made of carbon powder, fine metal powder,
4. The processed fabric according to claim 1, wherein the fabric is printed with an ink containing one or more types of ceramic powder. 5. When manufacturing fabrics such as knitted fabrics, woven fabrics, non-woven fabrics, etc., in which a resin film is formed on the entire surface, a desired pattern is printed on the surface of a release film, and after drying, resin is applied on the printed surface. is applied to fill the gaps between the patterns to form the resin film, one side of the cloth is adhered and integrated onto the resin film, and after drying, the release film is peeled off and the processing is carried out. A cloth processing method characterized by obtaining cloth. 6. The processing method according to claim 5, wherein the film-forming resin contains fine metal powder mixed therein. 7. The processing method according to claim 5 or 6, wherein the coating resin is a mixture of ceramic, carbon, or powders of both. 8 The above printed pattern is coated with carbon powder, fine metal powder,
Claim 5, characterized in that ceramic powder is printed using ink containing one or more types of ink.
The processing method according to any one of Items 7 to 7.