JP3183858B2 - Multifunctional interlining material - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multifunctional interlining member, and more particularly to a multi-functional interlining member, which emits negative ions, uses far-infrared rays emitted simultaneously, and coats a layered sheet or a dot for preventing static electricity. The present invention relates to a multifunctional interlining member comprising a thin sheet obtained by perforating a sheet that has been processed or vulcanized or a sheet that has been vulcanized and vulcanized.

[0002]

2. Description of the Related Art In general, basic properties required for an interlining include lightness, flexibility, air permeability, resistance to wrinkling, washing resistance, detergent resistance, dry cleaning resistance, and the like. Strong strength, thinness, shape retention by ironing, and the like. For example, in the field of clothing, interlining is integrated with the outer fabric in the modeling of clothing, plays the role of the skeleton of the clothing, prevents the shape of the clothing from being out of shape, makes the outer fabric etc. taut, and adjusts the body shape of the wearer. It creates the beauty of clothing. 2. Description of the Related Art Conventionally, an interlining having high tension is used for men's clothing, and an interlining which does not collapse is used for children, and there are various interlinings for women's clothing.

[0003]

The types of interlining are roughly classified into woven interlining, bonded woven interlining, nonwoven interlining and its interlining, knitted interlining and its interlining. In addition, when the types of the fibers in the interlining are listed, there are a cotton core, a hemp core, a hair core, a strong spun rayon core, a polyamide core, a polyester core, a glass fiber core, and the like. At present, polyester fibers or polyester blended fibers are used as interlinings as fibers which are used by blending and weaving and satisfy the basic performance required for the interlining. The types of interlinings using these fibers are as described above, and knitted interlinings in which weft yarns are inserted have been proposed.For example, interlining members formed by processing latex rubber or rubber foam, etc. It has not been widely used due to the difficulty in satisfying the basic performance required for interlining such as breathability, washing resistance, and tear strength.

[0004] In general, interlining, for example, in the field of clothing, plays a role of a skeleton of the clothing as an integral part of the clothing in the modeling of clothing, prevents the clothing from being deformed, imparts tension to the exterior, and so on. Although the shape of the clothes is shaped by adjusting the body shape of the person, it is difficult to impart various functionalities directly to the outer material and the lining and to maintain it for a long period of time due to limitations and limitations. In this respect, the interlining is sandwiched between the outer material or the lining, and is located at a place where it is formed as a frame also on the modeling, and at the same time, it is difficult to be visually recognized directly from the outside. But,
In most cases, they have only a single function, and furthermore, their effects are difficult to maintain over a long period of time, and they are not as remarkable as expected.

In recent years, the air environment has increased pollution due to carbon dioxide, nitrogen oxides, dioxins and the like, and the pollution of the air, water, and soil has progressed. Accordingly, negative ions have decreased and positive ions have increased. ing. Looking at clothes, in an air environment with a lot of positive ions, positive ions converge on the clothes and positive static electricity has an adverse effect on the human body.At workplaces, fires due to static electricity and malfunctions of personal computers have been reported. ing. For this reason, antistatic garments treated with textiles that are not charged by static electricity have been marketed and have been effective, but only some of them are still used. As for the interlining, the fact is that no antistatic fiber is used at all.

[0006] Products that use far-infrared rays are used for clothes, underwear, and interlining, but are made of nonwoven fabric or woven fabric made by weaving tourmaline or far-infrared ceramic into a fiber base and spinning. In addition, processed non-woven fabrics and processed woven fabrics in which tourmaline or far-infrared ceramics are vapor-deposited on non-woven fabrics and woven fabrics are commercially available.
As for these products, since they are products that use far infrared rays, they are said to be good for prevention and alleviation of pain and the like by the effect of heating the body by the effect of far infrared rays. However, since it is a warming effect, it is warm and pleasant in the cold season of winter, but in summer it has a remarkable sweating effect and is not suitable for summer.

It is said that in a good environment or living organism, negative ions and positive ions are always kept in an equilibrium amount, whereas in a bad environment, negative ions and positive ions are biased to either side. In the modern environment, positive ions increase and minor ions decrease due to the use and disposal of synthetic materials brought about by the development of science and technology, causing mutations in our body, environment and bad bacteria, and adversely affecting the body It is believed to have affected. When positive ions increase, it is said that oxidative decay, internal abnormalities, and aging progress, and now our bodies, the environment, food, and water are weakly acidified, creating insufficient negative ions there and neutralizing them. It is the negative ion effect that is reduced to. In terms of improving the human body, the negative ion effect has been demonstrated to activate various tissues and autonomic nerves in the body, and has an effect of curing rheumatism, neuralgia and chronic diseases. Against this background, there has been a demand for a multifunctional interlining member that can be used easily and is inexpensive and that exhibits the negative ion effect.

[0008] Further, when the ion concentration in the air environment in a modern city is captured, positive ions increase and negative ions decrease due to the influence of air pollution. As an example, in the measurement of the ion concentration in the air environment in Tokyo, positive ions average 160 particles / cc and negative ions average 6
It is said to be 0 / cc, which is considered to be in a bad environmental condition. Therefore, regardless of the air environment,
There is a demand for an interlining member that can provide a negative ion effect, that is, an interlining member that continuously releases a large amount of negative ions for a long period of time.

For example, Japanese Unexamined Patent Publication (Kokai) No. 6-184808 discloses a permanent electrode fiber in which a finely divided tourmaline powder is blended with a recycled fiber or a synthetic fiber and a tourmaline crystal is highly oriented and distributed on the fiber surface. Japanese Patent Application Laid-Open No. Hei 7-85861 discloses that the body is improved by wearing clothes and the like, especially underwear.
Coating fabrics such as clothing capable of improving health, and Japanese Utility Model Application Laid-Open No. 22579/1993 disclose a textile product constituted as a material of artificial fiber containing a large number of finely divided tourmaline crystals, or Japanese Utility Model Application Publication No. Japanese Patent No. 3135 proposes a coating fabric such as clothing, and Japanese Utility Model Registration No. 30174444 proposes a functional fiber product having a spontaneous / dielectric electrode. However, since the negative ions generated by tourmaline itself are weak, there is a problem that the effect cannot be expected so much. Furthermore, Japanese Unexamined Patent Publication (Kokai) No. 7-149956 discloses a tourmaline-bearing rubber composition exhibiting an electrode reaction in which a tourmaline fine powder is kneaded and uniformly dispersed in a rubber elastic body having a specific volume resistivity. However, there is no description of at least the effect of tourmaline-generated negative ions, nor is there any suggestion of focusing or a corresponding effect.

In order to solve the above-mentioned problems, the present invention has the following configuration. In the present invention, the invention according to claims 1 to 3 is characterized in that at least the front and back surfaces are made of either a nonwoven fabric and / or a woven or knitted fabric, and the intermediate layer is made of styrene-butadiene latex alone or natural rubber or synthetic rubber latex. The rubber latex composition mainly comprising the blended mixture has an average particle size of 0.1 μm or more.
A rubber elastic body obtained by mixing 1 to 100 parts by weight of a 1 mm tourmaline ore, and then thermally vulcanizing a mixture containing a vulcanizing agent and a vulcanization accelerator, or a foamed rubber elastic body. For a multifunctional interlining member or a nonwoven fabric or a woven or knitted fabric made of a layered sheet with laminated rubber, a styrene butadiene rubber or ethylene propylene diene rubber alone, or a silicone rubber alone 100 parts by weight, .1 μm to 1 mm tourmaline ore 1 to 100
A dot or a stripe, or a mesh, by a rubber elastic composition obtained by blending parts by weight, or a silicone rubber selected from 0.1 to 10 parts by weight of a foaming agent blended with the composition. A multifunctional interlining member characterized by being subjected to such a coating process, or a nonwoven fabric or a woven or knitted fabric, is subjected to SBR or EP.
Unvulcanized rubber obtained by mixing 1 to 100 parts by weight of 0.1 μm to 1 mm tourmaline ore to 0.1 to 10 parts by weight of a foaming agent with 100 parts by weight of DM or silicon rubber alone The present invention provides a multifunctional interlining member formed by punching holes in a sheet vulcanized by an oven or a sheet vulcanized by foaming after coating in a solution state.

Further, in the present invention, the invention according to claims 4 to 6 is characterized in that the non-woven fabric or the woven or knitted fabric is made of a polymer substrate which is hardly charged by static electricity, a rare earth oxide compound and either tourmaline or far-infrared ceramic. A multifunctional interlining member, or a nonwoven fabric or a woven or knitted fabric, obtained by coating a resin composition obtained by mixing a mixed powder containing, for example, a surface or a dot or a stripe, or a mesh with a coating process. , A resin composition obtained by mixing a polymer base material charged with negative static electricity and a single powder of a mineral containing a rare earth, or a mixed powder containing a mineral containing a rare earth and either tourmaline or far-infrared ceramic Or a sheet obtained by sticking and laminating a foamed resin composition formed by foaming and cross-linking, and a multifunctional interlining part formed by punching holes And at least the front and back surfaces are made of either non-woven fabric and / or woven or knitted fabric, and the intermediate layer is charged with static electricity containing silicone rubber latex alone, styrene butadiene rubber alone, or natural rubber latex and synthetic rubber latex. A resin composition obtained by mixing a hard polymer base material, a rare earth-containing mineral and a mixed powder containing tourmaline or far-infrared ceramic, is coated on the surface or any of dots, stripes, and meshes It is an object of the present invention to provide a multifunctional interlining member processed.

In the present invention, the invention according to claims 1 to 3 is a construction of an interlining member in which a composite material in which tourmaline is mixed with a specific polymer compound is coated on a nonwoven fabric or a woven fabric. The processed interlining increases the negative ion concentration in the air and amplifies the negative static electricity, thereby exhibiting a negative ion effect useful for health treatment. In this case, since the environment is an environment where negative ions are amplified, the negative ion effect tends to be reduced when underwear or the like is interposed between the processed interlining and the human body. The technical idea of the construction of these interlinings is that the concentration of negative ions in the air environment is increased and amplified, so that it is considered that the degree of convergence differs depending on the number of negative ions in the air environment.

On the other hand, the invention according to claims 4 to 6 of the present invention relates to a polymer substrate which is hardly charged by static electricity or a polymer substrate which is charged to minus static electricity, a mineral containing rare earth and tourmaline or Focusing on the fact that the resin composition obtained by mixing the mixed powder containing one of the far-infrared ceramics can significantly release and sustain negative ions, and in addition to maintaining the basic performance as an interlining member, By processing this resin composition on the interlining material, the interlining material is provided with multifunctionality that emits negative ions for a long time and permanently and simultaneously emits far-infrared rays. Further, in the inventions according to claims 4 to 6, the static electricity having the function of neutralizing and attenuating the plus static electricity attached to the clothes is prevented, and the multi-functional interlining member is configured. is there.

That is, claims 4 to 6 of the present invention.
In the invention according to the invention, in order to solve the above-mentioned problems, when imparting multifunctionality to the interlining, (1) as an effective configuration for remarkably releasing negative ions and exhibiting multifunctionality, an electrostatic discharge The form of the resin composition obtained by mixing a polymer base material that is difficult to be charged, or a polymer base material that is negatively charged and a mixed powder containing one of tourmaline and far-infrared ceramics with a rare earth-containing mineral I do. (2) A processing method selected from a coating method of a surface thin layer, a dot, a stripe, and a mesh is adopted. (3) A sheet obtained by sticking and laminating the resin composition sheet or the foamed resin composition sheet on a non-woven fabric or a woven or knitted fabric, and a punched or punched hole, or a front and back surface Is composed of a nonwoven fabric and / or woven or knitted fabric, and the intermediate layer is constituted of a laminated sheet formed by laminating a latex rubber elastic body or foam rubber. While satisfying the necessary and sufficient conditions as the basic performance of the interlining by these configurations, long-term, permanent and remarkable release of minor ions,
At the same time, it has a configuration capable of exhibiting multifunctionality that radiates far infrared rays.

Further, in the present invention, based on the knowledge that the amount of negative ions is remarkably increased, the place of attachment is examined. As a result, interlining is generally used for personal belongings such as clothes, bags, and wallets, and daily necessities. Although it is widely used up to, it is hardly visible directly from the outside because it is sandwiched between outer and outer linings. However, the surface condition is directly exposed in the processing of the outer material and lining, and there are also restrictions such as the persistence of the effect may be inferior.For example, in the garment field, the shape of the garment is integrated with the outer material in the garment modeling. Attention was paid to the form of the interlining that plays the role of the framework that forms beauty and the attachment points.

Further, in the present invention, the above-mentioned rubber elastic body and its foamed body have been examined in view of the fact that there is generally a defect that the basic performance or conditions as an interlining material such as tear strength and air permeability cannot be satisfied. As a result, the base sheet is made of one selected from non-woven fabric and woven or knitted fabric. Sheet,
Or, after coating silicone rubber on non-woven fabric,
It is necessary to use as a thin sheet which has been subjected to a punching process or a thin layer sheet which has been subjected to a coating process of an SBR rubber foam on a nonwoven fabric and then subjected to a punching process. This is a multifunctional interlining member having sufficient conditions.

With the above-described structure, the basic performance required for the interlining can be solved by applying a punching hole after coating, in addition to lightness, flexibility, and air permeability. Further, in addition to washing resistance, detergent resistance, dry cleaning resistance, strength, shape retention by ironing, etc., all can satisfy the necessary conditions for interlining. In addition, since the negative ions generated by the tourmaline ore mixed with the foam rubber or the elastic rubber or the foam thereof are remarkably increased, the multi-functionality by the negative ions can be sufficiently exhibited.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention relates to a nonwoven fabric or a woven or knitted fabric having an average thickness of at least 0.2 mm on the front and back surfaces, and a styrene-butadiene latex alone or a mixture containing natural rubber or synthetic rubber latex in the intermediate layer. An average particle size of 0.1 μm to 1
mm of tourmaline ore is mixed with 1 to 100 parts by weight, and a mixture of a vulcanizing agent and a vulcanization accelerator is thermally vulcanized. Multi-functional interlining member formed by layering Mullaba,
And a styrene-butadiene rubber or ethylene-propylene-diene rubber alone or a silicone rubber alone 10 for a nonwoven fabric or a woven or knitted fabric having an average thickness of 0.5 to 1.0 mm.
0.1 parts by weight to 1 mm of tourmaline ore 1 to 1 part by weight
Dot coating or stripe 5 mm interval processing with a rubber elastic composition containing 100 parts by weight, or any silicone rubber containing 0.1 to 10 parts by weight of a foaming agent with the composition. For a multifunctional interlining member or a non-woven fabric or a woven or knitted fabric, which has been subjected to a punching process after a mesh coating process, a SB
R or EPDM alone or silicone rubber alone 10
0 parts by weight, 0.1 μm to 1 mm tourmaline ore 1
100 to 100 parts by weight of rubber or foaming agent
0 parts by weight of unvulcanized rubber, in the form of a solution,
After the coating process, the sheet vulcanized with the oven or the sheet vulcanized and vulcanized is a multifunctional interlining member formed by punching holes, or a nonwoven fabric, a woven or knitted fabric or a fabric. A multifunctional interlining member is formed by coating or dipping a mixture of tourmaline ore and a material such as mica, feldspar or the like on any of the mulberry.

Further, in the present invention, a non-woven fabric or a woven or knitted fabric is mixed with a polymer base material which is hardly charged by static electricity, and a mixed powder containing a rare earth-containing mineral and tourmaline or far-infrared ceramic. Multifunctional interlining member, or a woven fabric or a woven or knitted fabric, which is obtained by coating the surface of the resin composition with any one of dot, stripe, and mesh, A resin composition comprising a base material and a single powder of a rare earth-containing mineral, or a mixed powder containing a rare earth-containing mineral and one of tourmaline and far-infrared ceramics, or a foamed resin formed by foaming and crosslinking A sheet on which the composition is adhered and laminated, a multifunctional interlining member formed by punching holes, and at least the front and back surfaces are nonwoven And / or a rubber latex composition mainly composed of a mixture of silicone rubber latex alone, styrene butadiene rubber alone, or a mixture of natural rubber latex and synthetic rubber latex, and a rare earth element. Or a single powder of a mineral containing rare earth, or
A rubber elastic body obtained by mixing a mixed powder containing either a rare earth-containing mineral and tourmaline or one of far-infrared ceramics, and thermally vulcanizing a mixture containing a vulcanizing agent,
A multifunctional interlining member composed of a laminated sheet obtained by laminating a foam rubber selected from any of the foamed rubber elastic bodies.

As a method of processing a resin composition for maintaining the basic performance of the interlining member, a nonwoven fabric or a woven or knitted fabric is coated with a thin surface layer or a dot, stripe, or mesh coating. Or a sheet obtained by adhering and laminating a resin composition sheet or a foamed resin composition sheet to a nonwoven fabric or a woven or knitted fabric, and an interlining member formed by punching holes, , Non-woven fabric and / or
Or, a sheet obtained by adhering and laminating a resin composition sheet or a foamed resin composition sheet to a woven or knitted fabric, and an interlining member formed by punching holes, And / or the intermediate layer includes a method of processing an interlining member made of a laminated sheet in which a latex rubber elastic body or a foamer is laminated.

As non-woven fabric and woven or knitted fabric, cotton, hemp,
There are wool, spun rayon, polyamide, polyester, glass fiber and the like, and non-woven fabrics and woven or knitted fabrics using each fiber alone, or blended or interwoven can be used.

As the polymer substrate that is hardly charged, a polymer substrate that is hardly charged, that is, a polymer that is hardly charged by at least static electricity can be used. For example, silicon rubber, modified silicone rubber, fluorine resin, modified fluorine resin, and the like can be given. Also, as a latex rubber composition, styrene butadiene latex, natural rubber latex, styrene butadiene latex and natural rubber latex mixture, styrene butadiene latex and synthetic rubber latex mixture, synthetic rubber latex isoprene latex, chloroprene latex, acrylonitrile latex, polyurethane latex, Ethylene propylene copolymer latex or the like can be used. Among the above, the most preferable polymer materials which are hardly charged by static electricity are silicone rubber, styrene-butadiene latex and foamed foam rubber.

The following materials can be used as the polymer base material that is not easily charged by negative static electricity. (1) As thermoplastic polymers, thermoplastic cross-linked foamed polymers, polyethylene, polypropylene, polyethylene-polypropylene composite, polyethylene-EPDM composite,
A polyethylene-based or polypropylene-based composition as a polypropylene-butyl rubber composite and a crosslinked foaming composition can be used. In the case of polyethylene, most preferably, a polyethylene elastic body polymerized with a metallocene catalyst is advantageous in amplifying ions. For polystyrene, polystyrene, styrene / butadiene / styrene copolymer, styrene / isoprene / styrene copolymer, styrene / butadiene / isoprene
Styrene copolymer, acrylonitrile, butadiene,
A composition such as a styrene copolymer and a foamed composition can be used. In the styrene system, most preferably, a styrene-butadiene-styrene copolymer is advantageous in amplifying the negative ion. (2) Styrene butadiene, natural rubber, ethylene propylene diene rubber, and a blend mixture can be used as the rubber elastic body and the rubber foamed elastic body. Most preferably, styrene butadiene or ethylene propylene diene rubber alone and a rubber foam are advantageous in amplifying negative ions.

(1) Monazite, bastnezite, xenotime and the like can be used as natural ores containing rare earths. If necessary, other natural or synthetic ceramics can be used as a filler as a mixture with the rare earth compound. Most preferably, monazite and monazite mixtures are advantageous in releasing large amounts of ions. As other mixed fillers, silica, calcium carbonate, magnesium carbonate and the like can be mixed. (2) As the powder of the mineral containing the rare earth, a powder pulverized to a particle size of 0.1 μm to 1 mm can be used. Most preferably, 10
It is more advantageous to use a powder having a size of about μm for mixing. (3) 500 parts by weight or less can be blended with respect to 100 parts by weight of the polymer base material as the number of blending parts. Most preferably, 10 to 50 parts by weight is advantageous in stabilizing negative ion release.

As the far-infrared ceramic, (1) a far-infrared ceramic which emits far-infrared rays having a wavelength of 2 to 50 μm in an ordinary temperature and body temperature range at an emissivity of 50% or more can be used. (2) As a component of far-infrared ceramic,
A mixture of alumina, silica, sodium oxide, potassium oxide, iron oxide and the like can be used. As a commercial far-infrared ceramic containing the above components,
Ceragit OK Trading Co., Ltd. ", which is advantageous in that it amplifies negative ions and simultaneously emits far-infrared rays. (3) It is more advantageous to use a powder having a particle size of about 10 μm as a powder in terms of mixing. (4)
As the blending number, for 100 parts by weight of the polymer base material,
500 parts by weight or less can be blended. Most preferably, 10 to 50 parts by weight is advantageous in integrating with the polymer base material.

As tourmaline, (1) tourmaline is:
Shore tourmaline, lithium tourmaline, dravite tourmaline, ruberite tourmaline, pink tourmaline, indecolite, baribato tourmaline, water
Melon or the like can be used, and particularly, tourmaline called black tourmaline is preferable. (2) It is more advantageous to use a powder having a particle diameter of about 10 μm as a powder. (3) 500 parts by weight or less can be blended with respect to 100 parts by weight of the polymer base material as the number of blending parts. Most preferably, 10 to 50 parts by weight is advantageous in stabilizing negative ion release.

[0027]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be specifically described below.

Example 1 A rubber elastic material containing tourmaline ore or a foam rubber selected from the foamed rubber elastic material is laminated as an intermediate layer on the front and back cloths of a non-woven fabric in a manner similar to the following method. A multifunctional interlining member made of the layered sheet thus obtained was obtained. First, a front punch and a rear punch are each subjected to a needle punch or a water punch.
A rubber latex composition mainly composed of either styrene butadiene latex alone or a mixture of natural rubber or synthetic rubber latex was used for the intermediate layer, and a monazite having an average particle size of 10 μm and an average particle size of 0 were used for the intermediate layer. .1
A rubber elastic body obtained by mixing 1 to 100 parts by weight of a tourmaline ore of 1 μm to 1 mm and blending a vulcanizing agent and a vulcanization accelerator and thermally vulcanizing the foamed rubber elastic body, or a foamed rubber elastic body. A layered sheet having an average thickness of 0.5 mm was obtained by laminating the above foam rubbers. Further, when air permeability is required, a layered sheet having a desired hole diameter and subjected to a punching hole forming process can be formed. Using the multifunctional interlining member of the layered sheet obtained above as a core material, a hand-held bag product was produced.

In the tourmaline mixed with the multifunctional interlining member, since the negative ions are remarkably focused by the foam rubber, the effect can be maintained for a long time. That is, in addition to moderate cushioning and shock absorption, germicidal properties and deodorization of odors such as cigarette smoke, and reduction of negative ions in places where bad electromagnetic waves are present and there is a lot of bad electricity in the living body are present. It has a neutralizing effect and has an effect of shielding the influence of the electromagnetic wave.

Example 2 A non-woven fabric was coated with a rubber elastic composition containing tourmaline ore or a silicone rubber compounded with a foaming agent with a nonwoven fabric by a dot method or other coating method. Thereafter, a multifunctional interlining member made of a thin layer sheet subjected to a punching process was obtained. (1) A rubber elastic composition comprising a nonwoven fabric having an average thickness of 0.5 to 1.0 mm, 100 parts by weight of silicone rubber alone, and 1 to 100 parts by weight of tourmaline ore of 0.1 μm to 1 mm, or A 100% by weight of a silicone rubber prepared by mixing 0.1 to 10 parts by weight of a foaming agent with the composition is subjected to dot coating to give a thin layer sheet having air permeability.
A multifunctional interlining member made of (2) For a nonwoven fabric or a woven or knitted fabric having an average thickness of 0.5 to 1.0 mm, tourmaline ore of 0.1 μm to 1 mm is added to 100 parts by weight of styrene butadiene rubber or ethylene propylene diene rubber or silicone rubber alone. A rubber elastic composition obtained by mixing 1 to 100 parts by weight or a silicone rubber obtained by mixing 0.1 to 10 parts by weight of a foaming agent with the composition is used to form a core having a stripe spacing of 5 mm.
After coating or mesh coating,
Punting was performed to obtain a multifunctional interlining member made of a thin sheet having air permeability.

The multifunctional interlining member made of the thin sheet obtained in the above (1) is used as an interlining material for a suit with a collar, a back core, a front core, a sleeve hem core, and a sleeve core. , For the core of the opening, the core of the pocket, and the core of the buttonhole. Further, using the multifunctional interlining member made of the thin layer sheet obtained by the above (2), a cotton-shoulder, a shoulder core, a breast-enhancing core of a suit with a wide suit,
Used for girder cotton and belt core. Since tourmaline in the coated silicone rubber has remarkably focused negative ions, its effect can be maintained for a long period of time, and the silicone rubber processing enables washing fastness, detergent resistance, and dry cleaning resistance. In addition to maintaining conditions of ironing and air permeability, it retains the shape of the ironing, and is integrated with the outer material in clothing modeling to fulfill the role of a skeleton, and satisfies the necessary and sufficient conditions as an interlining structure for clothing use. In addition, depending on the wearer of the clothes, deodorizing or sterilizing action such as smoking, and in places where there are many bad electromagnetic waves, the action of reducing and neutralizing with negative ions is exerted, preventing damage to environmental pollution,
It exerts effects such as health maintenance and stress relief by attenuation.

Example 3 A nonwoven fabric or a woven or knitted fabric was prepared by the following method.
SBR or EPDM alone or silicone rubber alone, tourmaline ore blended rubber or unvulcanized rubber blended with a foaming agent, after coating processing, vulcanized sheet or foam vulcanized sheet Was drilled to obtain a multifunctional interlining member. For non-woven fabric, SBR or EP
100 parts by weight of DM simple substance or silicone rubber simple substance,
A rubber mixed with 1 to 100 parts by weight of tourmaline ore of 0.1 μm to 1 mm or an unvulcanized rubber mixed with 0.1 to 10 parts by weight of a foaming agent is coated in a solution form after coating. A multifunctional interlining member made of a thin sheet obtained by punching a sheet vulcanized by a bun or a sheet vulcanized and vulcanized is provided. Using the multifunctional interlining member made of the thin sheet obtained as described above as a core material, a casual shoe product was produced.

Tourmaline in the rubber foam coated with the above-mentioned core material has a remarkably concentrated negative ion, so that its effect can be maintained for a long time. The above shoe
This product has an appropriate cushioning property and impact resistance, and at the same time, exhibits multi-functional effects such as deodorizing property such as odor due to wearing of shoes and sterilizing property.

In the present invention, the composition of the polymer composition according to the fourth to sixth aspects of the present invention is as shown in Tables 1 to 3.

[0035]

[Table 1]

[0036]

[Table 2]

[0037]

[Table 3]

The interlining fibers used in Examples 1 to 6 described in Tables 1 to 3 above are cotton woven fabric HMS plain woven in Examples 1 and 2, and cotton woven fabric HMS in Examples 3 and 4 as well. Plain weave, Example 5
In the case of ~ 6, cotton woven fabric HMS plain weave for the front cloth and 0.2 mm for the back cloth
It is a polyester nonwoven fabric. Further, in the interlining method, in Examples 1 and 2, dot coating processing,
In No. 4, after punching to the interlining, punching holes were formed. In Examples 5 to 6, foaming and coating vulcanization (form rubber processing) were performed. Next, the material of the polymer composition will be described. 1. SE1980: water-based silicone rubber, solid content 45%,
1. Product name "SE1980" manufactured by Toray Dow Corning Silicon Ceragit ALF9: Far-infrared ceramic, trade name “Ceragit ALF9” 3. Blowing agent ADCA: Abbreviation of blowing agent azodicarbonamide. 4. Crosslinking agent DCP: Abbreviation of crosslinking agent dicumyl peroxide. EG8100: Metallocene polyethylene elastomer-trade name "Affinity EG8100" manufactured by Dow Chemical Company

The preparation of the interlining sample is as follows. (1) A mixture obtained by blending the predetermined amounts of Examples 1 and 2
The mixture was stirred and mixed with an L ball mill for 2 hours. The mixture was subjected to dot dot coating at intervals of 2 mm on a cotton woven fabric HMS plain weave by a sizing machine, and the coating amount was 100 g / m ^2.
The interlining members of Examples 1 and 2, which were applied and dried in a drying oven at 120 ° C. for 10 minutes, were prepared. (2) A mixture obtained by blending the predetermined amounts of Examples 3 and 4 with 18
Using an inch roll machine, knead at 120 ° C for 15 minutes, 5m
The sheet from which the sheet having a thickness of m has been taken out is placed in a hot press machine, and foamed and crosslinked at 160 ° C. for 20 minutes to obtain a foamed sheet having a thickness of about 40 mm which is foamed eight times. A foamed sheet obtained by slicing the sheet to a thickness of 1 mm using a slicing machine was attached with a natural rubber-based adhesive to obtain a laminated sheet. The sheets were punched with holes of 1.5 mm in diameter using a punching machine at intervals of 2 mm to form interlining members of Examples 3 and 4. (3) A mixture obtained by blending a predetermined amount of each of Examples 5 and 6 with a continuous foaming machine, Oxmixer, was foamed continuously three times, and applied to a cotton woven fabric HMS plain weave at 100 g / m ^2. And immediately after that, 0.2m
m-thick polyester non-woven fabric directly, and in a drying oven,
Interlining members of Examples 5 and 6 were produced by processing laminated sheets vulcanized at 150 ° C. for 7 minutes.

Table 2 shows the measurement results of the interlining member.

[0041]

[Table 4]

In the negative ion measurement, an ion tester
Measurement temperature 25 ℃ by KST-900 (made by Kobe Denpa)
Was measured. The far-infrared measurement was performed at a measurement temperature of 35 ° C. using an infrared spectral emissivity meter. According to the results shown in Table 3 above, in the negative ion measurement, all of Examples 1 to 6 emitted an average of 155 to 210 negative ions per second. In the far-infrared measurement, all of Examples 1 to 6 emitted 80 to 92% of far-infrared rays in a normal temperature range.

Next, a practical fiber product using the interlining member according to the present invention was prepared. 1. In the case of clothing, the shoulder pads of the men's clothing were cut and sewn using the interlining members of Examples 1 to 6, and 10 pieces of men's clothing were produced. In addition, the belt core on the back of the belt part of the pants was cut using the interlining member of Examples 1 to 6,
Ten pieces of sewn men's clothing pants were created. 2. Try-on period and try-on The try-on was carried out for ten people each, one month in particular, who had severe stiff shoulders and low back pain.

The results of the fitting are as follows. (1) Thermography-measurement results The body surface temperature before and after one hour of fitting was measured at room temperature 25 ° C using Thermography, TVS-100 (manufactured by Nippon Avionics). Only the shoulders and waist of the try-on persons of Examples 1 to 6 are compared with those before fitting, and the body surface temperature is
The temperature increased by 1.5 to 2.5 ° C. (2) Results of measurement of human body electrostatic potential Using a floor-lab electrostatic measurement device, room temperature 25 ° C, humidity 60%,
Table 5 shows the results of measuring the electrostatic potential of the human body before and after 30 minutes of fitting under the condition of the mortar floor. From the test results shown in Table 5, it was found that there was an action of neutralizing and attenuating the positive static electricity charged on the human body.

[0045]

[Table 4]

(3) Healing Effect of Human Body The opinions of the majority of the wearers in Examples 1 to 6 are summarized as follows. I felt, my waist and shoulders became easier,
The pain has been alleviated after one day of wear. As a result of wearing it for one month, it has been alleviated so as not to feel pain even without wearing it. (4) Consideration of operation The above-mentioned interlining member has obtained the healing effect of the human body on three factors: the emission of negative ions, the function of the interlining itself, the emission of far-infrared rays, and the attenuation of neutralization of static electricity. This demonstrates that the interlining member has a necessary and sufficient condition of multifunctionality that exhibits a synergistic effect of the above.

As described above, an embodiment according to the present invention has been described. However, the present invention is not limited to the above-described configuration, and the present invention is applicable even if there is a design change or the like without departing from the gist of the present invention. include.

[0048]

According to the present invention, the interlining member generates a large amount of negative ions, and the effect can be maintained for a long period of time. In addition, the interlining member is light, and satisfies the basic conditions required for interlining such as flexibility, tear resistance, and air permeability. Moreover, in addition to the effect due to the neutralization and attenuation factor of static electricity, the interlining member has a multifunctional function that also has a healing action on the human body, and exhibits a remarkable effect.

[Table 5]

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI B32B5 / 24 B32B5 / 24 (56) References JP-A-6-173162 (JP, A) JP-A-8-205968 (JP) , A) JP-A-9-327523 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) D06M 17/00 A41D 27/06 A61N 1/10 A61N 5/06 B32B 1/00 -35/00

Claims (6)

(57) [Claims] 1. A rubber mainly composed of a styrene-butadiene latex alone or a mixture of a natural rubber or a synthetic rubber latex, wherein at least the front and back surfaces of the non-woven fabric and / or the woven or knitted fabric are constituted. A rubber elastic body obtained by mixing a latex composition with 1 to 100 parts by weight of tourmaline ore having an average particle size of 0.1 μm to 1 mm, and vulcanizing and vulcanization accelerator, and then vulcanizing the mixture, or a rubber elastic body thereof. A multifunctional interlining member comprising a layered sheet formed by laminating a foam rubber selected from any of foamed rubber elastic bodies. 2. A non-woven fabric or a woven or knitted fabric is added with 100 parts by weight of styrene-butadiene rubber or ethylene-propylene-diene rubber alone or silicone rubber alone at 0.1 part by weight.
A rubber elastic composition comprising 1 to 100 parts by weight of tourmaline ore having a size of 1 to 1 mm, or a silicone rubber selected from 0.1 to 10 parts by weight of a foaming agent. A multifunctional interlining member characterized by being subjected to a coating process of any one of a dot, a stripe, and a mesh. 3. A non-woven fabric or a woven or knitted fabric,
Alternatively, EPDM alone or silicone rubber alone 100
Parts by weight of tourmaline ore of 0.1 μm to 1 mm
0.1 to 10 parts by weight of rubber or foaming agent
The unvulcanized rubber compounded by weight is coated in a solution in a solution state, and then the sheet vulcanized in an oven or the sheet vulcanized and vulcanized is punched into a punching hole. A multifunctional interlining member characterized in that: 4. A resin composition obtained by mixing a nonwoven fabric or a woven or knitted fabric with a polymer base material that is not easily charged by static electricity, and a mixed powder containing a mineral containing a rare earth and either tourmaline or a far-infrared ceramic. A multifunctional interlining member characterized in that the object is subjected to a coating process of one of a surface, a dot, a stripe, and a mesh. 5. A non-woven fabric or a woven or knitted fabric, comprising a polymer substrate charged with negative static electricity and a single powder of a rare earth-containing mineral, or one of a rare earth-containing mineral and tourmaline or far-infrared ceramic. Multifunctional interlining characterized in that a punching process is performed on a laminated sheet on which a resin composition obtained by mixing a mixed powder containing the same or a foamed resin composition formed by foaming and crosslinking is adhered. Element. 6. A nonwoven fabric or a woven or knitted fabric at least on the front and back surfaces, and the intermediate layer is mainly composed of a silicone rubber latex alone, a styrene butadiene rubber alone, or a mixture of a natural rubber latex and a synthetic rubber latex. Mixed with a single powder of a mineral containing a rare earth or a single powder of a mineral containing a rare earth, or a mixed powder containing a rare earth oxide compound and either tourmaline or a far-infrared ceramic. A rubber sheet obtained by thermally vulcanizing a mixture containing a vulcanizing agent, or a laminated sheet formed by laminating a foam rubber selected from any of the foamed rubber elastic bodies. Multifunctional interlining member. [0001]