JP2003518965A - Shoe manufacturing liners - Google Patents

Abstract

(57) Abstract The present invention relates to the following liners for the shoe manufacturing industry. That is, the material of this liner has a unit area weight of 80 to 170 g / m ² and a tear propagation resistance in the longitudinal and transverse directions of> 7N. The non-woven fabric is formed by depositing melt-spun and aerodynamically stretched multi-component continuous filaments having a fineness of 1.5 to 5 dtex into a non-woven fabric. , At least 80% of which is divided into fine continuous filaments having a fineness of 0.1 to 0.8 dtex and fixed.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD OF THE INVENTION

  The present invention relates to a liner for the shoe manufacturing industry and a method of manufacturing the same.

[0002]

[Prior art]

In the shoe manufacturing industry, wear resistant materials, so-called liners, are used to line the inner parts of shoes. This material, on the one hand, helps wick moisture away from your feet to the outside, keeping your feet dry and, on the other hand, the force generated during the heel-to-toe movement in a wide range of shoe leather. It is for the purpose of preventing distribution and wrinkling, and accompanying premature wear.

For this purpose, conventionally, a polyamide non-woven fabric which has been heat-fused and embossed / calendered, a knit having a woven or brushed or brushed appearance and a soft touch, a woven woven fabric, or a polyurethane coagulated product is used. Synthetic leather as a base, or leather made from natural materials has been used.

[0004]

[Problems to be Solved by the Invention]

An object of the present invention is a liner for the shoe manufacturing industry, which has a unit area weight of 80 to 17
When it is 0 g / m ² , it means that it has a tear resistance of> 7 N and a tear propagation resistance both in the machine direction and in the transverse direction.

Another object of the invention is to indicate a method which is particularly suitable for producing such a liner.

[0006]

[Means for Solving the Problems]

The present invention solves this problem with the following liner. That is, the liner has a unit area weight of 80 to 170 g / m ² , a tear propagation resistance of> 7 N in both the machine and transverse directions, and a melt-spun and aerodynamically fineness of 1.5 to 5 d.
tex multi-component continuous filaments deposited immediately into a non-woven fabric, and the multi-component continuous filaments have at least 8 of them after pre-fixation.
0% is divided and fixed into fine continuous filaments having a fineness of 0.1 to 0.8 dtex. This liner exhibits high tensile strength and abrasion resistance despite its low unit area weight. In the case of the liner according to the invention, furthermore, since it is a continuous filament, no edging is necessary, no fraying occurs and the thickening of the seam area and thus the hitting are prevented.

[0007]

DETAILED DESCRIPTION OF THE INVENTION

Preferably, the liner is melt spun and aerodynamically stretched with a fineness of 2-3 dtex.
Of the multicomponent continuous filaments immediately deposited into a non-woven fabric, and at least 80% of the multicomponent continuous filaments have a fineness of 0.1 to 0.5 dtex after optionally pre-fixing. It shall be divided into fine continuous filaments and fixed. This liner has an isotropic filament distribution within the nonwoven. Therefore, it is not necessary to consider the machine direction when scoring the liner.

[0008] Preferably, the liner comprises multicomponent continuous filaments from two incompatible polymers, in particular one polyester (PES) and one polyamide (PA).
Shall consist of This multi-component continuous filament has improved splittability and exhibits an advantageous strength relative to the unit area weight. Preferably this liner is
A multi-component continuous filament is composed of those having a multi-segment structure called orange or "pie" in cross section, where these segments alternate with each of the two incompatible polymers. Not only this orange-like multi-segment structure of multi-component continuous filaments, but also the "side-by-side" (s / s) segment arrangement of incompatible polymers in multi-component continuous filaments is possible, This continuous filament is used in the production of crimped filaments. It has been found that such segmental arrangements of incompatible polymers in multicomponent continuous filaments allow very good splitting processing. This liner has a very favorable thermal insulation property per unit area weight, so that a soft and warm liner can be produced, especially by a post-treatment step such as brushing.

Preferably, the liner comprises a non-woven fabric formed of multi-component continuous filaments,
Pre-calendered for preliminary fixing. This material thus has a very good thickness uniformity.

Further, as the liner, a material having a woven cloth appearance and a surface having abrasion resistance is preferable. Such a material is obtained by high pressure water jet treatment on a structured and / or open mesh sieve support.

Even more particularly preferred is at least one of the incompatible polymers formed as multicomponent continuous filaments is a color pigment, a long acting antistatic agent, and / or
Or a liner containing up to 15% by weight of additives such as additives that affect hydrophilicity or hydrophobicity. As a result, this liner can have a positive effect on light resistance, chargeability, moisture permeability or waterproofness. Furthermore, by adding a coloring pigment to the spinning raw material, deep and abrasion-resistant coloring can be obtained.

Even more particularly preferred are liners in which the multicomponent continuous filaments are not crimped. This is because the fine continuous filaments can be satisfactorily divided so that the texture of the woven fabric can be obtained.

It is advantageous if this liner is provided with a hot melt adhesive on one side. Such materials are particularly suitable for reworking on automatic machines.

The method of the present invention for producing this liner comprises spinning multicomponent continuous filaments from a melt, aerodynamically drawing and immediately depositing them into a non-woven fabric, optionally pre-calendered or needle punched. After fixing, the non-woven fabric is fixed by a high-pressure fluid jet, and at the same time, it is divided into fine continuous filaments having a fineness of 0.1 to 0.8 dtex, preferably a fineness of 0.1 to 0.5 dtex. The product thus obtained is very homogeneous in terms of its strength because of the isotropic fiber distribution present in a wide range in the product. These products do not exhibit a tendency to delaminate and exhibit high tensile modulus, tear resistance, and tear propagation resistance. Moreover, the liner according to the invention has a very good moisture vapor transmission rate, which is advantageous in terms of water vapor transmission and also in the comfort of a shoe with this liner when drying wet shoes.

Another advantageous development of the process is the addition of a high-pressure fluid jet to the optionally pre-fixed non-woven fabric at least once from either side,
It is for fixing and dividing multi-component continuous filaments. This type of fixing and splitting of multicomponent continuous filaments results in a very dense nonwoven with a smooth surface.

Preferably, the final high pressure water jet treatment is carried out on a sieve support having a mesh size of 5 to 50 mesh. This adds further fixation to the liner material, increases abrasion resistance and gives the woven appearance.

As a preferred method, a post-treatment such as coloring, tumbling, polishing, and / or sunhorizing (shrinkproofing) is further added to the impregnated material. By this measure, the surface characteristics and the tactile sensation of the obtained material can be further improved.

[0018]

【Example】

A filament web having a unit area weight of 110 g / m ² was produced from PES / PA bicomponent continuous filaments, and a water jet needle punching treatment was applied to the filament web at a pressure of up to 280 bar. Here, the needle-punching treatment with a water jet was carried out in a total of 4 processing passes, and these 4 passes were carried out on a 20-mesh sieve support. This produced a textured and / or perforated surface and the liner acquired the woven appearance and soft feel. By the needle punching treatment with a water jet, the initial filament was simultaneously divided into fine particles having a fineness of 0.2 dtex or less. The liner produced in this way is spray-coloured and can be used regardless of the machine direction. The resulting liner exhibited the strength parameters listed in the table below and was well suited for the intended purpose.

[0019]

[Table 1]

─────────────────────────────────────────────────── ─── Continued front page    (81) Designated countries EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, I T, LU, MC, NL, PT, SE), AU, BA, B G, BR, BY, CA, CN, CZ, EE, HR, HU , ID, IL, IN, JP, KP, KR, LT, LV, MA, MD, MX, NO, PL, RO, RU, SG, S I, SK, TR, UA, US, VN, YU, ZA F-term (reference) 4F050 BA02 HA26 HA59 HA60 HA80                       HA82                 4L047 AA21 AA23 AA27 AB03 AB07                       AB09 BA03 BA04 CC16

Claims (13)

[Claims] 1. A liner for the shoe manufacturing industry having a unit area weight of 80 to 170.
It consisted of a non-woven fabric with a tear propagation resistance in the longitudinal and transverse directions of> 7 N at g / m ² , which was immediately melt-spun and aerodynamically drawn multicomponent continuous filaments with a fineness of 1.5-5 dtex were deposited on the non-woven fabric. This multi-component continuous filament is fixed and preliminarily fixed, and at least 80% thereof is divided into fine continuous filaments having a fineness of 0.1 to 0.8 dtex and fixed. 2. The non-woven fabric is melt-spun and aerodynamically stretched to have a fineness of 2 to 3 dte.
The multi-component continuous filament of x is immediately deposited on a nonwoven fabric, and this multi-component continuous filament is 80% of which is a fine continuous filament having a fineness of 0.1 to 0.5 dtex after preliminarily fixing. The liner according to claim 1, wherein the liner is divided and fixed. 3. The multicomponent continuous filament according to claim 1, wherein the multicomponent continuous filament is a two-component continuous filament consisting of two incompatible polymers, in particular one polyester and one polyamide. Liner. 4. The multi-component continuous filament has a cross-section with an orange-like multi-segment structure, the segments comprising alternating ones of two incompatible polymers, and / or “side-by-side”. Liner according to any one of claims 1 to 3, characterized in that it has a "side" construction. 5. The liner according to claim 1, wherein the non-woven fabric formed from the multi-component continuous filaments is pre-calendered for pre-fixing. 6. The liner exhibits the appearance of a woven fabric.
The liner according to any one of 1 to 5. 7. At least one of the incompatible polymers forming the multicomponent continuous filament is such as a color pigment, a long-acting antistatic agent, and / or an additive that affects hydrophilicity or hydrophobicity. Liner according to any one of claims 1 to 6, characterized in that it contains up to 15% by weight of additives. 8. The liner according to claim 1, wherein the multicomponent continuous filament is not crimped. 9. The liner according to claim 1, wherein one surface is coated with a hot melt adhesive. 10. A high pressure fluid jet wherein said multicomponent continuous filament is spun from a melt, aerodynamically drawn and immediately deposited on a non-woven fabric, optionally pre-fixed by precalendering or needle punching. 10. The non-woven fabric is fixed by the method, and is simultaneously divided into fine continuous filaments having a fineness of 0.1 to 0.8 dtex, followed by impregnation with one polymer. A method for producing the liner according to. 11. A multicomponent continuous filament is fixed and divided by applying a high-pressure water jet at least once from either side to the non-woven fabric which has been preliminarily fixed in some cases. Item 11. The method according to Item 10. 12. The final high-pressure water jet treatment is performed with a mesh size of 5 to 5.
Method according to claim 10 or 11, characterized in that it is carried out on a 0 mesh sieve support. 13. Method according to claim 10, characterized in that a post-treatment such as coloring, tumbling, polishing and / or shrink-proofing is carried out.