KR20020084837A - Fusible interlining - Google Patents

Abstract

PURPOSE: Provided is interling which is characterized by being coated on one side with individual points of adhesives. The adhesive spots are composed of plastic resin containing a cross-linking initiator. CONSTITUTION: In an interling consisting of a textile strip(1) which is coated on one side with individual points of adhesive(2), the adhesive is a partially cured plastic resin containing a cross-linking initiator. A process for manufacturing the fixing insert comprises the steps of: applying adhesive points(2) to the insert strip at individually spaced locations; heating the points to the resin melting point and directing UV (ultra-violet) light at the adhesive free side of the strip to cause partial cross-linking, particularly of areas facing the textile strip; and finally cooling a handleable product.

Description

Adhesive Wick {FUSIBLE INTERLINING}

The present invention relates to an adhesive wick consisting of a fibrous web on which one side is applied as an adhesive spot.

Bilayer adhesives are known from documents DE-A 22 14 236, DE-A 22 31 723, DE-A 25 36 911, and DE-A 32 30 579. The use of relatively light nonwovens, ie low surface weight nonwovens, in these documents results in very soft laminates, which of course has the disadvantage that the nonwoven is susceptible to Rueckvernietung of the molten adhesive. Counter-attachment here refers to unwanted adhesion between two wick materials that may appear when a web applied as an adhesive spot, denoted as an adhesive wick in the text below, is bonded to the outer fabric by a sandwiched adhesive method. Here, the sandwich interior is formed of a continuous layer consisting of an outer fabric, an applied web and an applied web, and an outer fabric, that is, the uncoated side of the web is placed in succession. In fact, it may be further reduced if the coating amount per m ² is supplied to the web at the beginning of 18-25 g / m ² was reduced to 7-15g / m ² considering the venting capacity of water fiber layer. At the same time, however, the demand for adhesion and durability of laminates also increases. In particular, the nature of the management of fiber laminates requires that these laminates survive several washings at cleaning temperatures below 60 ° C. In particular, the adhesion of the upper spot to the lower spot always has difficulty between the two layers. This problem is usually caused by the use of different grades of polymer in the upper and lower spots. In fact, attempts to increase the adhesion by means of very high sintering temperatures or by the addition of compatibilizers, but in these two cases a definite improvement is usually achieved only by physical interaction. In addition, in the known double spot adhesives, a problem arises that the molten adhesive forming the upper spot is limited by the process, and not only adheres to the upper spot in the vertical direction but also to the lower spot in the horizontal direction. Since the bottom surface of the lower spot is smaller than the diffusion of the upper spot, backstroke may appear when the surface weight of the wick material is low.

It is an object of the present invention to provide an adhesive wick which overcomes the disadvantages of the prior art.

1 shows that an adhesive spot 2 is preferably present on a web 1 made of a nonwoven fabric, wherein the adhesive spot 2 is at least partially crosslinked at a surface adjacent to the web. It is shown.

FIG. 2 shows an adhesive wick known in the art, which is formed such that a lower spot 3 and an upper spot 4 sintered in the lower spot 3 are preferably present on a web 1 made of a nonwoven fabric. .

* Description of the symbols for the main parts of the drawings *

1: web 2: adhesive spot

3: lower spot 4: upper spot

According to the present invention, this object is achieved by an adhesive wick consisting of a fibrous web having one side coated with an adhesive spot formed such that the adhesive spot consists of a partially crosslinked synthetic resin containing a crosslinking initiator. do. By means of the adhesive wick according to the invention, a separation force of 50% or, in particular, after washing at a temperature of 60 ° C., a separation force of at least 100% is obtained over the adhesive wick made of known double layer adhesive spot material.

Preferably there is provided an adhesive wick formed so as to exhibit crosslinking of the synthetic resin on the side facing the fiber web. The crosslinking of the synthetic resin in the direction according to the invention results in a very improved counter-blocking.

Preferably, an adhesive wick is provided so that the adhesive spot contains a crosslinking initiator that can be activated by UV-light. By using a crosslinking initiator that can be activated by UV-light, simple and predetermined partial crosslinking of the adhesive spot is possible.

Preferably, an adhesive wick is provided in which the adhesive spot is formed so as to include a polymer or acrylate containing an epoxide group as a synthetic resin. Polymers or acrylates containing such epoxide groups have proved to be very well processed and achieve a certain adhesion.

Preferably, an adhesive wick is provided in which the adhesive spot contains an additive. The use of additives allows the use of inexpensive materials and allows the melting behavior of the adhesive to be more accurately matched to the processing conditions, in particular the application conditions.

Preferably an adhesive wick is provided in which the adhesive spot is formed such that the additive spot comprises a thermoplastic polymer such as polyamide, polyamido amine, polyester, polyurethane or vinyl copolymer.

Epoxides are solid epoxy resins at room temperature, said epoxy resins being the reaction product of epichlorhydrin comprising bisphenol (A) and / or of epichlorhydrin comprising bisphenol (F). Reaction product is shown. In addition, a polyfunctional epoxide may be used as the epoxy resin. Among them, for example, epoxidized novolac.

Polyamides, polyesters, polyurethanes and / or vinyl copolymers containing carboxyl-, anhydro-, hydroxy- and / or amido-side groups used are low melting thermoplastic polymers. Also polymer blends consisting of low melt polyamides, polyesters, polyurethanes and / or vinyl copolymers comprising carboxyl-, anhydro-, hydroxy- and / or amido-side groups can be used. . Here, the polymer is formed of linear monomers or branched monomers. Polyamides are formed of the following monomers:

At least one difunctional carboxylic acid and

At least one difunctional amine and / or

ω-amino acids and / or

-Lactam.

The preparation of the polyester consists of the following monomers:

At least one difunctional carboxylic acid and

At least one difunctional alcohol and / or

ω-hydroxycarboxylic acid and / or

-Lactones.

Polyurethanes may be composed of diisocyanate, polyols and diols.

Preferably the fibrous web is formed such that the fibrous web is composed of a nonwoven, woven or knitted fabric based on fibers, threads or filaments made of polyester, polyamide, viscose, cotton, polyacrylonitrile or mixtures thereof A wick is provided.

The adhesive wick according to the invention is provided at each point where the adhesive spot is spatially separated on the web and is heated to its melting temperature, the side of the web on which the adhesive spot is not provided is partially exposed by emitting UV-light. It is provided in such a way that it is activated for crosslinking and made steerable and transportable by cooling.

As the epoxy resin, an epoxy resin having a softening point of 70 to 130 ° C., preferably of 90 to 110 ° C. and having an epoxy equivalent of 500 to 4000 mVal / kg is used.

In a preferred manner, the adhesive wick according to the present invention is provided by hot melt methods, such as thermal rotation, melt printing or rotary screen printing, to provide an adhesive spot on the web.

The adhesive wick according to the invention is also preferably obtained by the adhesive spot maintaining its melting temperature by means of an IR-radiator to activate partial crosslinking.

The invention is explained in more detail by two figures and two examples.

1 shows an adhesive wick according to the invention provided such that an adhesive spot 2 is at least partly crosslinked on the side adjacent to the web, preferably on a web 1 made of a nonwoven fabric.

FIG. 2 shows an adhesive wick known in the art, which is formed such that a lower spot 3 and an upper spot 4 sintered in the lower spot 3 are preferably present on a web 1 made of a nonwoven fabric. .

Example 1

On one side of a 35 g / m ² weight nonwoven made of 100 wt% polyamide 6 (PA6) and provided as a web 1 heat-set by a spot calender, UV-light according to the screen printing method. A mixture of 10 g / m ² , which can be crosslinked and composed of an epoxy resin and a thermoplastic polymer, is pressed at 120 ° C. with screen printing using a CP52 template (52 spots / cm ² ). Subsequently, the adhesive spot 2 is maintained at this temperature almost by means of an IR-radiator and the adhesive spot directed toward the web 1 with UV-light emitted to the face of the web 1 which is not provided with the adhesive spot ( Partial crosslinking reaction to the face of 2) is initiated. Subsequently, the adhesion wick is cooled and rolled. The adhesive wick according to the present invention may be laminated to an outer fabric in a circulation press of approximately 120 ° C.

Example 2

Gravure roller of CP37 on one side of a 35 g / m ² weight nonwoven provided as web 1 fixed by high pressure-waterjet-treatment consisting of 85 weight% polyester (PES) and 15 weight% polyamide (PA) According to the thermal rotation method by (37 spots / cm ² ), a mixture of 12 g / m ² composed of epoxy resin and thermoplastic polymer and capable of crosslinking by UV-light is pressed at 90 ° C. Subsequently, the adhesive spot 2 is maintained almost at this temperature by an IR-radiator and UV-light is emitted to the face of the web 1 where no adhesive spot is provided and the web of the adhesive spot 2 ( The partial crosslinking reaction on the side directed to 1) is initiated. Subsequently, the adhesion wick is cooled and rolled. Adhesive wick according to the present invention can be laminated to an outer fabric in a circular press of 100 to 120 ℃.

The present invention provides an adhesive wick that overcomes the disadvantages of the prior art.

Claims (10)

In the adhesive wick which consists of the fiber web 1 by which the surface as the adhesive spot was apply | coated, The adhesive spot (2) is characterized in that the adhesive wick consisting of a partially crosslinked synthetic resin containing a crosslinking initiator. The method of claim 1, Adhesive core, characterized in that the crosslinking of the synthetic resin is formed on the side facing the fiber web (1). The method according to claim 1 or 2, The adhesive spot (2) is characterized in that it contains a crosslinking initiator that can be activated by UV-light. The method according to any one of claims 1 to 3, The adhesive spot (2) is an adhesive wick, characterized in that it comprises a polymer or an acrylate containing an epoxide group as a synthetic resin. The method according to any one of claims 1 to 4, The adhesive wick, characterized in that the adhesive spot (2) contains an additive. The method of claim 5, The adhesive spot (2) is characterized in that it contains a thermoplastic polymer such as polyamide, polyamido amine, polyester, polyurethane or vinyl copolymer as an additive. The method according to any one of claims 1 to 6, The fibrous web 1 is composed of a nonwoven, woven or knitted fabric based on fibers, threads or filaments made of polyester, polyamide, viscose, cotton, polyacrylonitrile or mixtures thereof. Adhesion wick, characterized in that. The method according to any one of claims 1 to 7, Providing the adhesive spot 2 at each spatially separated point on the web, heating to its melting temperature, activating the face of the web on which the adhesive spot is not provided for partial crosslinking by radiation of UV-light A method of manufacturing an adhesive wick, characterized in that for making it controllable and transportable by cooling. The method of claim 8, The adhesive spot (2) is provided on the web (1) by a hot melting method such as thermal rotation, melt printing or rotary screen printing. The method according to claim 8 or 9, The adhesive spot (2) is maintained at its melting temperature by means of an IR-radiator for activation of partial crosslinking.