JPH0730516B2 - Antifouling method for vinyl chloride resin cloth - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a vinyl chloride resin-treated cloth used for truck seats, field sheets, large tents, etc., in which a fiber cloth has been subjected to resin processing with a vinyl chloride resin. The present invention relates to an antifouling processing method.

2. Description of the Related Art Conventionally, tents, track sheets, and the like coated with vinyl chloride resin have been well known. These are knitted and woven fabric bases woven and knitted using spun yarn such as vinylon, polyamide, and polyester, using vinyl chloride resin, and processed by various methods such as dipping, coating, topping, and laminating. Being manufactured. The reason why vinyl chloride resin is widely used is that it has excellent processability, various processing methods can be adopted, and the flexibility of the resin can be arbitrarily adjusted by adjusting the plasticizer. Taking advantage of the fact that resin heats up due to high frequency dielectrics, it is possible to perform sewing by high frequency welder welding.

As described above, the vinyl chloride resin-treated cloth has many advantages, but it is easily soiled because it is used by being exposed outdoors for a long period of time. That is, in the vinyl chloride resin-treated cloth, the migration of various plasticizers in the vinyl chloride resin to the surface gradually progresses during use, it becomes sticky, dirt in the air is easily attached, and the appearance is remarkable. Getting worse. Various proposals have been made as methods for solving such a problem. As a typical example thereof, the surface of the work cloth is coated with an acrylic resin such as polyacrylic acid ester or polymethacrylic acid ester or a urethane resin. There is a way to do it.

Problems to be Solved by the Invention In order to prevent contamination during use of a vinyl chloride resin-treated cloth, the method of coating the surface of the acrylic acid resin or urethane resin as described above has a poor effect persistence, and other Including the above method, a method that satisfies all of the antifouling performance, durability, processability, cost, etc. has not yet been found.

The present invention, in the antifouling treatment of a vinyl chloride resin processed cloth, solves the above problems in the conventional method,
It is intended to provide a stainproofing method capable of imparting excellent durability and stainproofing property.

Means for Solving the Problems A method for antifouling a vinyl chloride resin-treated cloth of the present invention is to apply a solvent treatment to a fiber cloth at least on one side after subjecting the fiber cloth to resin treatment containing a vinyl chloride resin as a main component. 20 to 50% by weight of at least one of acrylic ester resin and urethane resin and 0.02 to 5% by weight of at least one of fluorine-based graft resin and silicone-based graft resin
It is characterized in that the contained solution is applied in a solid content of 3 to 50 g / m ² and dried by heating.

The fiber cloth as the vinyl chloride resin-processed cloth to which the present invention is applied includes cotton, rayon and polyester, polyamide,
It is a knitted fabric that is knitted and woven with a desired structure using spun yarn of synthetic fiber such as vinylon. Further, the vinyl chloride resin to be processed into the fiber cloth is a vinyl chloride polymer, vinyl chloride-
Vinyl acetate copolymer, vinyl chloride-acrylic acid ester copolymer, vinyl chloride-vinylidene chloride copolymer or a mixture of the above-mentioned polymers or copolymers, stabilizers, plasticizers, flame retardants and other additives It is a mixture. The processing method may be any of topping, coating, dipping, laminating, and after resin treatment,
Perform heat treatment such as baking.

Examples of the solvent-soluble acrylic ester-based resin used in the antifouling processing method of the present invention include homopolymers of lower alkyl esters of acrylic acid or methacrylic acid or copolymers containing these alkyl esters as the main components. Examples of the solvent-soluble urethane-based resin include those containing a diol component such as polyester and polyether and an aliphatic or aromatic diisocyanate. As the solvent, hexane, cyclohexane, trichloroethylene, benzene, toluene, acetone, methyl ethyl ketone, DMF,
An organic solvent such as dioxane or a mixture thereof can be used.

In the present invention, at least one of a fluorine-based graft resin and a silicon-based graft resin is added to the solution of the solvent-soluble acrylic ester-based resin or urethane-based resin. The fluorine-based graft resin has fluorine atoms and silicon atoms in the graft component. As commercially available products, the fluorine-based graft resin is Aron GF-150, Aron GF-300, and the silicon-based graft resin is Aron GS-30. Industrial KK)
There is. These fluorine-based graft resins and silicon-based graft resins are not mixed uniformly when conventional fluorine-based resins and silicon-based resins are added, causing separation and making it difficult to form a uniform film, and the peel strength of the film is significantly reduced. In addition, the antifouling property is low, but the compatibility is good and the interfacial migration is also good, and the antifouling effect is excellent with the addition of a small amount, and high water repellency and high oil repellency are exhibited.

The solvent-soluble acrylate resin and /
Or, the urethane resin solution may vary slightly depending on the coating method, but it is necessary to set the solid content concentration in the range of 20 to 50% by weight. Could not form the resin film of
Further, if the concentration becomes higher than 50% by weight, the viscosity becomes too high, and the coating becomes difficult, and a uniform film cannot be formed. If necessary, about 1 to 10% by weight of a crosslinking agent may be added to the solution. Next, the fluorine-based graft resin and / or the silicon-based graft resin has a solid content concentration of 0.02 to
It is necessary to set it to 5% by weight. If the concentration is lower than 0.02% by weight, the desired contamination effect cannot be obtained, and foaming with a concentration higher than 5% by weight becomes noticeable and processing becomes difficult, and the effect does not increase so much. Is.

The method of applying the solution to the vinyl chloride resin-treated cloth is
Either coating or dipping may be performed, and one side or both sides may be coated by a conventional method. The coating amount is required to be 3 to 50 g / m ² in solid coating amount is inferior is less if antifouling effect is insufficient durability than 3 g / m ^2, also 50
If the coating amount is higher than g / m ² , the basis weight increases and it is not practical,
It hardens and the texture decreases remarkably, and both are unsuitable.

After applying the solution, drying and heat treatment are carried out, but it can be processed at a general heat treatment temperature of 150 to 170 ° C. for acrylic ester-based resins and urethane-based resins, but heating at a normal dry degree is also sufficient. Show the effect.

The vinyl chloride resin-treated cloth obtained as an antifouling treatment as described above is extremely resistant to stains even when used outdoors for a long period of time, and stains are removed by wind and rain, and the durability of these effects Has good light resistance and excellent weldability.

Action In the present invention, a film in which a fluorine-based graft resin and / or a silicon-based graft resin is mixed with an acrylic ester resin and / or a urethane resin is formed on the surface of a vinyl chloride resin-treated cloth, Bleed of the plasticizer from the inside of the resin to the surface is prevented and the surface of the formed film is treated with fluorine-based graft resin and / or
Alternatively, the silicon-based graft resin is effectively transferred to modify the surface, impart stain resistance, and at the same time improve water repellency and oil repellency, and remove the attached dirt by wind and rain.

Examples Example 1. Polyester multifilament 750d / 7 for both warp and weft
Using 0f, weaving a plain weave fabric with a weaving density of 20 warps / inch, weft: 21 threads / inch, weaving the weaving machine at 185 ° C for 30 seconds, heat setting, and vinyl chloride of the following composition Both sides were subjected to topping processing with a resin composition (calendering machine processing temperature 170 ° C.) and baked at 180 ° C. to obtain a vinyl chloride resin processed cloth.

Vinyl chloride resin compound (Japan Carbide) 100 parts by weight DOP (plasticizer) 60 〃 calcium carbonate (filler) 20 〃 lead stearate (stabilizer) 30 〃 pigment 10 〃 Coating processing (solid content: 400 g / m ² ) was performed on one surface of the vinyl chloride resin-treated cloth of 1. using a knife coater.

Acrylic ester-based resin (Lackskin 6018: Seiko Kasei) 50% by weight Fluorine-based graft resin (Aron GF-300: Toa Gosei) 2〃 Silicon-based graft resin (Aron GS-30: Toa Gosei) 0.5% by weight Carvone Acid type graft resin (Aron GC-10: Toagosei Kagaku) 1〃 Crosslinking agent (Coronate HL: Dainippon Ink) 5〃 Methyl ethyl ketone-toluene 41.5〃 After drying (120 ℃, 1 minute), heat treatment at 170 ℃ for 1 minute I did.

The obtained antifouling-treated cloth was put into a stain compound having the following composition, and the mixture was stirred 100 times / day for 3 months to observe the stain state and the state after washing with water. In addition, the weldability, light resistance and waterproofness after the coating were evaluated. The results are listed in Table 1.

Example 2.Vinyl chloride resin-treated cloth obtained by processing in the same manner as in Example 1, except that the solution composition for antifouling treatment is changed as follows, the same method as in Example 1 above, Antifouling treatment was performed under the conditions, and the same evaluation was performed. The results are shown in Table 1.

Urethane resin (Crisbon 8226: Dainippon Ink) 40 parts by weight Fluorine-based graft resin (Aron GF-300: Toagosei Kagaku) 0.8〃 Dimethylformamide 40〃 Methyl ethyl ketone 15〃 Comparative example 1. Processed in the same manner as in Example 1. The vinyl chloride resin-treated cloth thus obtained was evaluated for various performances in exactly the same manner as in Example 1. The results are shown in Table 1.

Comparative Example 2. A vinyl chloride resin-treated cloth obtained by processing in the same manner as in Example 1 was treated with a fluorine-based graft resin and a silicon-based graft resin in the composition of the antifouling processing solution used in Example 1. Except that it was not added, a solution having exactly the same composition was processed under the same method and conditions as in Example 1 and evaluated in the same manner. The result is first
Shown in the table.

Comparative Examples 3 to 4. The vinyl chloride resin-treated cloth obtained by processing in the same manner as in Example 1 was completely the same as in Example 1 except that the solution composition for antifouling treatment was changed as follows. The antifouling treatment was carried out according to the method and conditions described in 1 above and evaluated in the same manner. The results are shown in Table 1.

Comparative Example 3. Acrylic ester-based resin (Lackskin 6018: Seiko Kasei) 50% by weight Fluorine-based graft resin (Aron GF-300: Toa Gosei) 0.01 〃 Carboxylic acid-based graft resin (Aron GC-10: Toa Gosei) ) 1 〃 Cross-linking agent (Coronate HL: Dainippon Ink) 5 〃 Methyl ethyl ketone-toluene 43.9 〃 Comparative example 4. Acrylic ester resin (Lackskin 6018: Seiko Kasei) 50% by weight Fluorine-based graft resin (Aron GF-300: Toa Gosei Co., Ltd. 7 〃 Carboxylic acid type graft resin (Aron GC-10: Toa Gosei Kagaku) 1% by weight Crosslinking agent (Coronate HL: Dainippon Ink) 5 〃 Methyl ethyl ketone-toluene 37 〃 Antifouling in Comparative Example 4 above. Foaming of the processing solution was remarkable and processing was difficult.

As is clear from the results shown in Table 1, the antifouling processed cloths obtained in the respective examples have less stain adhesion than the processed cloths obtained in the respective comparative examples except Comparative Example 4. It was easy to remove, had high water pressure resistance, good light resistance, and had weldability. The processed cloth obtained in Comparative Example 4 had good stain resistance and other performances, but as described above, the foaming of the antifouling processing solution was remarkable and the processing was difficult.

EFFECTS OF THE INVENTION According to the present invention, it is possible to impart excellent antifouling property to a vinyl chloride resin-processed cloth, which has less dirt attached even when exposed outdoors for a long time and is easily removed by rainwater or the like. In addition, the film formed on the surface of the vinyl chloride resin has good adhesiveness and does not peel off, and is provided with durable antifouling properties.
It can be applied to various uses such as truck seats, open-air seats, tents, and simple houses.

Claims (1)

[Claims] 1. A fiber cloth is treated with a resin containing a vinyl chloride resin as a main component, and then at least one surface thereof is coated with at least one of a solvent-soluble acrylic ester resin and a urethane resin in an amount of 20 to 50. % By weight and at least one of fluorine-based graft resin and silicon-based graft resin
A solution containing 0.02 to 5% by weight is used as a solid content of 3 to 50 g /
A method for antifouling a vinyl chloride resin-treated cloth, which comprises applying m ² and heating and drying.