JPS63126977A - Adhesive core cloth and its production - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an adhesive interlining for clothing that has a soft feel and excellent durability, and a method for manufacturing the same.

(Prior art) Conventionally, adhesive interlining is generally made of a non-woven fabric made by bonding fiber webs with an emulsion resin binder, or a non-binder-free non-woven fabric made by thermally bonding a web containing low-melting point fibers in dots using an embossing roll. It is formed by adhering adhesive resin in dots and is used as an adhesive interlining for dresses, suits, jackets, etc.

(Problems to be Solved by the Invention) However, adhesive interlining using these nonwoven fabrics as an interlining base material has a problem similar to that of poetry in that it is adhered to the outer material.

That is, interlining L1 using the former emulsion resin binder
Since the adhesive resin is present on the side that contacts the outer material on the resin binder layer that adheres to all the fiber layers of the web, the amount of resin in the part that adheres to the fabric is extremely large, resulting in a hard texture. Unless we can satisfy the finish, comfort, and functionality.
There are some problems.

In addition, the latter type of adhesive interlining using non-binder cloth has a soft texture and has recently become commercially available in large numbers, but the fibers are not fixed with a binder, and the thermoadhesive resin adheres in dots. When adhering to the outer material, the molten resin permeates inside the nonwoven fabric and then contributes to adhesion to the outer material. Therefore, in order to obtain the desired peel strength, it is necessary to increase the amount of heat-adhesive resin deposited. There is a problem that the texture becomes hard.

Furthermore, in order to solve these problems, in order to prevent the heat-adhesive resin from penetrating into the inside of the non-woven fabric, print bonding was performed using acrylic resin on the opposing back sides of the heat-adhesive resin attached in dots. In order to reduce the amount of heat-adhesive resin applied and obtain a predetermined peel strength, adhesive interlinings made by synchronizing heat-adhesive resins and acrylic resins are also commercially available.However, the above-mentioned adhesive interlinings are mechanically The problem is that adjustment is very difficult due to elongation of the nonwoven fabric and there is a lot of loss.

The object of the present invention is to solve all of the problems of the prior art described above, and to provide an adhesive interlining base metal that has a soft feel and exhibits excellent adhesive strength even to fabrics that are difficult to adhere to.

(Means for Solving the Problems) That is, the present invention insolubilizes a nonwoven fabric sheet (mainly non-binder embossed type) used as an interlining base sheet by metal ions added to paste dots of a thermoadhesive resin. Impregnated with a water-soluble resin, it is made of heat-adhesive resin such as polyamide or Gilliester resin powder in a wet state, and is fixed in many dots with a water-dispersed paste to which an electrolyte that dissociates into metal ions such as calcium and sodium is added. During drying, only the water-soluble resin located only on the surface of the nonwoven fabric sheet with which the water-dispersed paste adheres is insolubilized by substitution with all metal ions, and further the water-soluble resin other than the insolubilized portion is removed with hot water. This problem has been solved by providing an adhesive interlining and a method for manufacturing the same.

(Function) The adhesive interlining of the present invention having the above structure is as shown in FIG.
The thermoadhesive resin 13 is fixed to the surface of the embossed nonwoven fabric sheet 3 in dots, and the thermoadhesive resin contains only the water-soluble resin located only on the surface of the nonwoven fabric sheet that is in contact with the fixed thermoadhesive resin. Since it is formed with an insolubilized resin part 15 that is substituted with metal ions and made insolubilized, when adhering to the outer fabric, the softened and melted thermoadhesive resin is backed up by the insolubilized resin g15, and the nonwoven fabric fibers are Approximately % of the heat-adhesive resin that can be attached without penetrating into the layer contributes to adhesion to the outer fabric. Therefore, in order to obtain a predetermined peel strength, the amount of heat-adhesive resin to be applied is approximately % of the conventional amount, which is sufficient to achieve the objective and does not cause hardening of the texture at all.

(Embodiment) An embodiment of the present invention will be described below based on the drawings.0 As shown in Fig. 1, a web forming machine 1, for example, a card machine and a cross wrapper are used to produce synthetic fibers such as 6 nylon L5 denier x 38 cm (cut length: ) Spun using 1 wt.
A web is formed, passed through an embossing roll 2, and thermally bonded to form an embossed nonwoven fabric sheet (31L). The nonwoven fabric sheet 3 is then soaked in a water-soluble resin having the following composition in a dipping device 4.
Impregnation processing is performed by.

[Water-soluble resin combination]

Acrylic acid ammonium salt 100g Water solid content concentration 10% Next, the adhesion amount (WPU = 200% DPU
= 20%), and in a wet state, a water-dispersed paste 7 of a thermoadhesive resin of the following composition was applied with a screen roll 6 to form an embossed nonwoven fabric 9 impregnated with a water-soluble resin 8 as shown in FIG. A predetermined amount, for example 20, is applied to one side of the sheet 3.
t/rrp attached.

[Thermoadhesive resin water dispersion paste formulation]

Polyamide resin powder 100 parts plasticizer 20 parts powder
20 parts thickener
2 parts calcium carbonate
2 parts Total solids concentration 35% Viscosity 15000Cp8
(2 rpm) The non-woven fabric sheet 3 on which a large number of dots of the thermal adhesive resin paste are adhered to the entire surface is further introduced into a dryer 10, where it is dried at a temperature of 150°C and subjected to an insolubilization treatment by replacing water-soluble resin with calcium ions. .

Next, after completely removing unnecessary water-soluble resin from the areas other than those subjected to the above-mentioned insolubilization treatment in the hot water treatment device 11, the parts are immersed in a resin liquid having the composition shown below as needed, subjected to softening treatment 12, and dried. An adhesive interlining base metal having a basis weight of 53 t/m and a thickness of 0.4 linm was formed.

[Flexible processing]

Amino silicone resin 100 parts fluorescent dye
1st part Total solids concentration 2% DPU 2%, WPU 100% 3rd
The figure is a schematic cross-sectional view of the adhesive interlining of the present invention formed as described above, in which the thermoadhesive resin 13 adheres to the embossed nonwoven fabric sheet 3 in the form of many dots, and adheres to the dots. The water-soluble resin other than the part that has been removed is removed by hot water treatment, and the dotted thermoadhesive resin 13 has porous voids 14.
Only the water-soluble resin layer on the surface of the nonwoven fabric sheet, which is located on the lower surface in contact with the resin paste, forms a cine-solubilized resin part 15 by replacing the metal ions added to the resin paste, and only the upper part of the insolubilized resin part is heated in spots. Adhesive sebum 13 is fixed to form an adhesive interlining base metal.

Comparative Example Except for the water-soluble resin impregnated treatment in Example, the ponds were made of the same fibers.
An adhesive interlining base metal having a fabric weight of 51 #/m' and a thickness of 0.4 m (fiber fabric weight: 30 yen, thermoadhesive resin: 20 v, amino silicone: 1 t/, 1) was formed in the same manner according to the fabric weight. FIG. 4 shows a schematic cross-sectional view of the comparative example formed in this manner, in which the thermoadhesive resin 13 is fixed in dots on the surface of the embossed nonwoven fabric sheet 3, and some of it penetrates into the inside of the nonwoven fabric 161. It adheres to form an adhesive interlining.

Next, in order to compare the adhesive interlining of the present invention and the adhesive interlining obtained in the comparative example, an adhesion test and a texture test after lamination of the outer material were conducted.

Adhesion test Adhesion conditions: roller type, temperature 155°C, pressure 3.0VI
! , time: 10 seconds, outer material: rayon velvet texture measurement Kato Iron Works shear and bending measurements The obtained results are shown in the table below.

(Effect of the invention) As is clear from the above test results, the adhesive interlining of the present invention has approximately IQO% of the fabric without the applied thermal adhesive resin penetrating into the interior of the embossed nonwoven fabric used as the interlining base material. Because it contributes to adhesion to the non-woven fabric sheet, it has a greater peel strength than the comparative example, and the heat-adhesive resin is backed up by the insolubilized water-soluble resin, preventing it from penetrating into the inside of the nonwoven fabric sheet. , the texture of the interlining becomes soft (without hardening). In addition, in order to obtain a predetermined peel strength, it is sufficient to apply approximately the same amount of conventional heat-adhesive resin. It has excellent effects, such as being able to increase the number of adhesive interlining materials without worrying about it, and being able to be applied to fabrics that could not be used in the past.

[Brief explanation of the drawing]

Fig. 1 is a schematic process diagram showing the method for manufacturing the adhesive interlining of the present invention, Fig. 2 is a cross-sectional view of an intermediate product of the adhesive interlining, Fig. 3 is a schematic cross-sectional view of the structure of the adhesive interlining, and Fig. 4 is a cross-sectional view of an intermediate product of the adhesive interlining. The figure is a schematic cross-sectional view showing the adhesive interlining base metal of a comparative example.

Claims (3)

[Claims] (1) A water-dispersed paste made of a heat-adhesive powder resin mixed with an electrolyte that dissociates into metal ions is fixed to at least one surface of the interlining base material sheet in dots, and a core is located at the fixed contact point of the water-dispersed paste. An adhesive interlining characterized in that it has an insolubilized resin portion in which only the water-soluble resin on the surface of the base material is insolubilized by substitution with the metal ions. (2) The adhesive interlining according to claim 1, which is subjected to a softening treatment using an amino silicone resin. (3) An interlining base sheet is impregnated with a water-soluble resin that becomes insolubilized by metal ions, and one side of the base sheet is made of heat-adhesive resin powder to which an electrolyte that dissociates into metal ions is added to one side of the base sheet in a wet state. After fixing the water-dispersed paste in many dots, in the drying process, only the water-soluble resin on the surface of the interlining base material located at the adhesion contact point of the water-dispersed paste fixed in the dots is removed. A method for producing an adhesive interlining, which comprises insolubilizing by substitution with metal ions mixed in a water-dispersed paste, and further dissolving and removing water-soluble resins other than the insolubilized resin by hot water treatment.