KR20020070315A - Lining for use in the footwear industry - Google Patents

Abstract

The present invention relates to linings for use in the footwear industry, formed from nonwovens having a surface area weight of 80 to 170 g / m ² and a chain tear strength greater than 7N in longitudinal and transverse directions. The nonwoven fabric consists of multicomponent continuous short fibers having a fineness of less than 1.5 dtex, melt-spun, aerodynamically stretched and plated directly on the nonwoven fabric, wherein the multicomponent continuous short fibers are optionally at least 80% after precure Hardened by dividing into ultrafine-continuous short fibers with fineness of 0.1 to 0.8 dtex.

Description

LINING FOR USE IN THE FOOTWEAR INDUSTRY}

In the footwear industry, wear-resistant materials are used to cover the inner part of the shoe, the so-called lining. These materials, on the one hand, help release moisture from sweat on the feet, and on the other hand, distribute the force generated by the leather of the shoe during walking, to a large area, thereby accelerating the formation of wrinkles and subsequent wear. Should be prevented.

For this purpose, synthetic leather or natural based on thermally bonded, embossed calendered polyamide nonwovens, raised or brushed knitted fabrics with a fibrous appearance and soft feel, brushed fabrics, polyurethane coagulum Split leather based on raw materials was used.

The present invention relates to a lining for the footwear industry and a method of manufacturing the same.

It is an object of the present invention to provide a shoe industry lining having an initial tear strength and a chain tear strength of greater than 7N in the longitudinal and transverse directions at a surface area weight of 80 to 170 g / m ² .

It is also an object of the present invention to provide a very suitable method for producing such linings.

The object is achieved according to the invention by a lining having a chain tear strength of greater than 7 N in the longitudinal and transverse directions at a surface area weight of 80 to 170 g / m ² , wherein the lining is melt spun and aerodynamic It consists of multicomponent continuous filaments with fineness of less than 1.5 dtex, which are stretched and plated directly on the nonwoven. The multicomponent continuous short fibers are cured by dividing into ultrafine-continuous short fibers having a fineness of 0.1 to 0.8 dtex by at least 80% after precure. Such linings have high tensile strength and wear resistance at low surface area weights. In addition, in the case of the lining according to the present invention, the seam is not necessary due to the continuous short fibers, the owl is not loosened, and the enlargement of the seam portion and the occurrence of the pressing point are prevented.

The lining is formed of a nonwoven of multicomponent continuous short fibers having a fineness of 2-3 dtex, melt-spun, aerodynamically stretched and plated directly on the nonwoven fabric, wherein the multicomponent continuous short fibers are optionally precured. It is then preferred that it is a lining that is cured by dividing into at least 80% ultrafine-continuous short fibers with a fineness of 0.1-0.5 dtex. Therefore, it is not necessary to consider the direction of machine progress when cutting the lining.

The lining is preferably a lining wherein the multicomponent continuous short fibers are bicomponent continuous short fibers consisting of two incompatible polymers, in particular polyester (PES) and polyamide (PA). The bicomponent continuous short fibers thereby have an excellent splitting force and a very advantageous strength ratio to the surface area weight. It is preferred that the lining is a lining in which the multicomponent continuous short fibers have a cross section of a multi-segment structure, also called orange or "pie", wherein the segments each alternately contain one of two incompatible polymers. . In addition to this orange multisegment structure of multicomponent continuous short fibers, a "side-by-side" (s / s) segment structure of incompatible polymers in multicomponent continuous short fibers is also possible, which is desirable for producing crimped short fibers. Is used. This segmented structure of incompatible polymers in multicomponent continuous short fibers has been found to have a very high splitting force. Since the lining has a very advantageous surface area weight ratio to the thermal insulation capacity, soft and warm linings can be produced, in particular through subsequent processing steps such as raising.

The lining is preferably a lining in which a nonwoven fabric formed of multicomponent continuous short fibers is pre-calendered for precure. The material thus has a very good thickness uniformity.

Also preferred as lining is a material having a fibrous appearance and wear resistant surface, obtained through high pressure waterjet processing on structured and / or open mesh sieve supports.

Linings are also particularly preferred when linings containing at least one of the incompatible polymers formed as multicomponent continuous short fibers contain dyes, additives such as permanent antistatic agents and / or additives affecting hydrophobicity or hydrophilicity in amounts up to 15% by weight. desirable. Thereby the lining is positively influenced with regard to its daylight fastness, tendency to charge, sweat-absorbing capacity or the effect of dew wetting by moisture (poison: Feuchtigkeitstauwirkung). In addition, the addition of dyes to the emission can result in a dark wear resistant color.

Linings are also particularly preferred for linings in which multicomponent continuous short fibers are not crimped, as a result of which the fibrous texture is ensured due to the excellent splitability into ultra-fine continuous short fibers.

The lining is preferably a lining in which a molten adhesive is applied to one side. Such materials are particularly suitable for further processing via automated machines.

In the lining manufacturing method according to the present invention, the multicomponent continuous short fibers are melt-spun and aerodynamically stretched and then plated directly on the nonwoven fabric, and in some cases, preliminary curing is performed through precalendering or needling. Is cured by high pressure liquid jet and simultaneously divided into ultra-continuous short fibers having a fineness of 0.1 to 0.8 dtex, preferably 0.1 to 0.5 dtex. The product thus obtained is very homogeneous in view of its strength resistance, because it has isotropic yarn splitting properties, does not exhibit a tendency to crack and has a high modulus value and initial / chain tear strength. In addition, the lining according to the invention has very excellent moisture release properties, which contributes to the comfort of the shoe with respect to water vapor discharge and drying of the wet shoe.

In another preferred embodiment of the present invention, at least one high pressure waterjet is optionally applied to each side of the precured nonwoven, thereby curing and splitting the multicomponent continuous short fibers. This method of curing and splitting multicomponent continuous short fibers produces a very dense nonwoven fabric with a smooth surface.

Preferably the final high pressure-waterjet processing is carried out on a screen support having a mesh size of 5 to 50 mesh. This results in additional lining of the lining fabric, higher wear resistance and a fibrous appearance.

Preferably the impregnated material is again subjected to a post treatment step by dyeing, tumbling, rubbing and / or sanforizing. Such measures can further improve the surface condition and feel of the material obtained.

Short fiber webs having a surface area weight of 110 g / m ² are produced from PES-PA-bicomponent continuous short fibers, and waterjet needling is carried out at pressures of up to 280 bar alternately on both sides. In this case, the waterjet needling is carried out in all four machining steps, with the fourth step being performed on a sieve support of 20 mesh. This results in a structured and / or perforated surface, and the lining achieves a fibrous appearance and a soft feel. At the same time, water jet needling splits the first short fibers to a fineness of less than 0.2 dtex. The resulting lining is subjected to a jet dyeing process and can be used without consideration of the machine direction. The linings thus obtained have the strength parameters set out in the table below, which makes them well suited for their intended use.

characteristic Unit of measure value weight g / m ² 110 10% modulus (vertical) N / 5cm 60 10% modulus (horizontal) N / 5cm 40 Chain Tear Strength (Portrait) N 8 Chain Tear Strength (Landscape) N 8 Martindale (wear at 12 kPa) Dry rating after 51200 revolutionsWet rating after 12800 revolutions Good

Claims (13)

Lining with a chain tear strength greater than 7 N in the longitudinal and transverse directions at a surface area weight of 80 to 170 g / m ² , wherein the nonwoven fabric is melt-spun, aerodynamically stretched and plated directly on the nonwoven fabric, of less than 1.5 dtex A lining consisting of multicomponent continuous short fibers with fineness, wherein the multicomponent continuous short fibers are divided and cured into ultrafine-continuous short fibers having a fineness of 0.1 to 0.8 dtex by at least 80% after precure. The method of claim 1, The nonwoven fabric is composed of multicomponent continuous short fibers having a fineness of 2-3 dtex, melt-spun, aerodynamically stretched and plated directly on the nonwoven fabric, wherein the multicomponent continuous short fibers are optionally at least 80 after precure A lining, characterized in that it is divided and cured into ultrafine-continuous short fibers having a fineness of 0.1 to 0.8 dtex by%. The method according to claim 1 or 2, The multicomponent continuous short fibers are lining, characterized in that the bicomponent continuous short fibers consisting of two incompatible polymers, in particular polyester and polyamide. The method according to any one of claims 1 to 3, Wherein said multicomponent continuous short fibers have a cross section of an orange multisegment structure, said segments alternately contain each one of two incompatible polymers and / or have a "side-by-side" structure Lining. The method according to any one of claims 1 to 4, Lining, characterized in that the non-woven fabric consisting of the multi-component continuous short fibers are pre-calendered for preliminary curing. The method according to any one of claims 1 to 5, Lining characterized by having a fibrous appearance. The method according to any one of claims 1 to 6, At least one of the incompatible polymers forming the multicomponent continuous short fibers contains a dye, an additive such as a permanent antistatic agent, and / or an additive that affects hydrophobicity or hydrophilicity in an amount of up to 15 weight percent . The method according to any one of claims 1 to 7, And the multicomponent continuous short fibers are not crimped. The method according to any one of claims 1 to 8, Lining, characterized in that the molten adhesive is applied to one side. A method for producing a lining according to any one of the preceding claims, Multi-component continuous short fibers are melt spun and stretched aerodynamically and plated directly on the nonwoven fabric, optionally pre-cured through precalendering or needling, and the nonwoven fabric is cured by high pressure liquid spraying, Simultaneously dividing into ultrafine-continuous short fibers having a fineness of 0.1 to 0.8 dtex, and then impregnating the polymer in the nonwoven fabric. The method of claim 10, Wherein said curing and splitting of said multicomponent continuous short fibers is effected by applying a high-pressure waterjet to each side of said precured nonwoven fabric, optionally one or more times. The method according to claim 10 or 11, wherein Final high pressure waterjet processing is performed on a sieve support having a mesh size of 5 to 50 mesh. The method according to any one of claims 10 to 12, A post-treatment such as dyeing, tumbling, rubbing and / or sanforizing.