KR102016132B1 - Body-heat reflective textile sheet having improved warmth - Google Patents

Abstract

The present invention is a fiber sheet layer prepared by mixing any one or two or more of natural fibers, regenerated fibers, synthetic fibers, and the heat reflection layer applied to the skin contact surface of the fiber sheet layer with a resin containing a metal thin film or metal material dot or It is formed in a stripe or designed shape, and relates to a thermal insulation fibrous sheet having improved thermal insulation is further formed a protective layer over the heat reflection layer.

Description

Thermal reflective fiber sheet with improved heat retention {BODY-HEAT REFLECTIVE TEXTILE SHEET HAVING IMPROVED WARMTH}

The present invention relates to a heat reflecting fibrous sheet having improved heat retention by improving heat retention using body heat generated in the body, and in particular, to a heat reflective fibrous sheet having improved thermal insulation suitable for clothing such as winter outdoor and sportswear.

The concept of thermal insulation can be divided into a passive method of preventing the heat emitted from the human body from being lost to the outside and an active concept of actively applying heat from the outside. The former method is to insulate the heat generated from the human body by the air layer of the fabric and to use infrared reflective material that does not radiate the radiant heat emitted from the human body to the clothing. A method of using has been proposed, and the latter method has been proposed in which an electric heating material, a chemical reaction heating heat insulating material, and a solar heat storage heat insulating material are introduced into a coating.

Among the former methods, the thermal insulation insulation method by the air layer is the reason for increasing the thickness of the fabric constituting the coating, causing the activity to be lowered, and the use of other materials is a factor that reduces the washability and durability of the coating. It is difficult to use universally.

On the other hand, the thermal conductivity is a constant relating to the material indicating the degree of heat transfer is also called thermal conductivity. It refers to the ratio of the amount of heat passing in the unit time perpendicularly to the unit area of the isothermal surface at any point inside the object and the temperature gradient in this direction. In other words, it is a constant for a material that indicates the degree of heat transfer, which depends on the temperature and pressure. In the case of an isotropic substance, it is a scalar amount, and in the case of an anisotropic substance, it is a tensor amount. In particular, metal has a large value due to thermal conduction by free electrons, and the Biedmann-Franz law holds between thermal conductivity and electrical conductivity. Thermal conductivity is affected by density, specific heat and viscosity. For example, cloth with high thermal conductivity flax fiber is a cool fiber, wool with a low thermal conductivity is the warmest fiber.

WO 2002/34988 discloses a fabric made of conductive yarns for generating heat from a power source, comprising at least one non-conductive yarn and at least one amount of temperature coefficient (PTC) heating yarn, wherein the non-conductive yarn and PTC heating yarn are combined. There has been proposed a structure for forming a heating fabric. This proposal also requires a structure for generating a separate power source, and there is a problem such as poor coating suitability.

Meanwhile, in Korean Utility Model Publication No. 200227811, in a fabric in which warp yarns and weft yarns, which are spun yarns or multifilament yarns, cross each other, silver plated yarns having silver plating on polyamide fibers are arranged at regular intervals in both diagonal directions or weft yarn directions. It is proposed a multi-functional fabric characterized in that. The fabric is characterized in that the silver plated yarn is arranged in a direction inclined or weft uniformly has excellent antistatic effect and heat insulation or heat insulation effect, but the silver plated yarn and the silver plated yarn is expected to be expected due to the presence of silver plated yarns arranged at regular intervals in the fabric. It is difficult to express heat insulation or heat insulation due to the common yarn without a difference in the number of thermal conductivity of the more coming together. Moreover, the fact that most of the silver-plated yarns are made of low thermally conductive fibers, in addition to the portion where the silver plated yarns are disposed, is doubtful of whether thermal insulation can be realized due to the difference in thermal conductivity of a part of the same layer of fabric.

The conventional concept of thermal insulation as described above depends only on the condition of the fabric or cloth, and there is no consideration of the metabolism and mechanism of the human body wearing it.

The present invention has been developed to solve the problems of the prior art as described above, and an object of the present invention is to provide a thermal insulation fibrous sheet having improved thermal insulation to improve the thermal insulation using the body heat in the body.

In addition, it is an object of the present invention to provide a thermo-reflective fiber sheet that improves the heat retention by maintaining the body temperature of the body as a sheet that amplifies or generates infrared rays generated in the body.

The present invention is a fiber sheet layer prepared by mixing any one or two or more of natural fibers, regenerated fibers, synthetic fibers, and the heat reflection layer applied to the skin contact surface of the fiber sheet layer with a resin containing a metal thin film or metal material dot or It is formed in a stripe or designed shape, it provides a thermal insulation fibrous sheet with improved thermal insulation, characterized in that the protective layer is further formed on the heat reflection layer.

In addition, the heat reflection layer provides a heat reflective fiber sheet with improved thermal insulation, characterized in that formed from 30 to 95% of the total area of the sheet layer.

In addition, the protective layer is formed of a transparent resin, it provides a thermal reflective fiber sheet with improved thermal insulation, characterized in that the heat storage component is contained 0.5 to 3% by weight.

In addition, the heat storage component provides a thermally reflective heat-repelling fiber sheet, characterized in that containing one or two or more of zirconium carbide, mica, PCM.

In addition, the fiber sheet provides a thermal reflective fiber sheet with improved thermal insulation, characterized in that the polyurethane yarn is included.

As described above, the heat reflecting fiber sheet according to the present invention improves heat retention by reflecting the body temperature generated in the body back to the body due to the heat reflecting layer, and has an effect of preventing peeling of the heat reflecting layer by forming a protective layer.

In addition, the heat generated by the heat storage material of the protective layer amplifies the infrared rays generated in the body has the effect of improving the heat retention.

In addition, the heat reflecting fiber sheet of the present invention has an effect suitable for use for outdoor winter (Outdoor).

1 is a cross-sectional view showing a cross-section of the thermal reflecting fiber sheet improved heat retention according to the present invention.
Figure 2 is a view showing the form of the heat reflection layer of the thermal reflecting fiber sheet with improved heat retention according to the present invention.
Figure 3 is a view showing another form of the heat reflection layer of the thermal reflecting fiber sheet with improved heat retention according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in the drawings, the same components or parts denote the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As used herein, the terms 'about', 'substantially', and the like, are used at, or in close proximity to, numerical values when manufacturing and material tolerances inherent in the meanings mentioned are provided, and an understanding of the invention Accurate or absolute figures are used to assist in the prevention of unfair use by unscrupulous infringers.

1 is a cross-sectional view showing a cross-section of the thermal reflecting fibrous sheet having improved thermal insulation according to the present invention, Figure 2 is a view showing the form of the heat reflecting layer of the thermal reflecting fibrous sheet improved thermal insulation according to the invention, Figure 3 It is a view showing another form of the heat reflection layer of the heat reflective fiber sheet improved heat retention according to the invention.

As shown in FIGS. 1 to 3, the present invention is formed of the fiber sheet layer 100, the heat reflection layer 200, and the protective layer 300.

The fiber sheet layer 100 may be mixed with one or two or more selected from natural fibers, regenerated fibers, and synthetic fibers to use general fabrics such as woven, knitted, and nonwoven fabrics.

The fiber sheet layer 100 may be a functional fabric given the functionality, such as absorption quick-drying, antibacterial, depending on the use of the heat reflective fiber sheet of the present invention.

In addition, polyurethane fiber may be included to improve the thermal insulation of the fiber sheet layer 100 and to give elasticity.

As described above, when the polyurethane sheet is contained in the fiber sheet layer, the structure density of the fiber sheet layer is increased due to the elasticity of the polyurethane yarn, thereby improving heat retention.

The polyurethane yarn is preferably contained 5 to 30% by weight of the fiber sheet layer, if the polyurethane yarn content is less than 5% by weight, the effect of improving the elasticity and thermal insulation of the fiber sheet layer may be insignificant. The physical properties and shape stability of the may be lowered.

The heat reflection layer 200 is formed on the skin contact surface in contact with the skin of the fiber sheet layer.

The heat reflection layer 200 may be a resin containing a metal thin film or a metal material as a layer to improve the heat retention by reflecting the heat generated in the human body to return to the human body.

The metal thin film may be formed by bonding a metal thin film such as gold foil, silver foil, aluminum thin film to the skin contact surface of the fibrous sheet layer to form the heat reflection layer 200.

In addition, resins containing powder metal materials such as gold, silver, and aluminum may be formed on the skin contact surface of the fiber sheet layer in various methods such as printing, coating, lamination, and padding. will be.

When the heat reflection layer 200 is formed to less than 30% of the total area of the fiber sheet layer, the heat reflection effect may be insignificant, and when the heat reflection layer 200 exceeds 95%, the thermal insulation effect may not be large and the fabric properties may be degraded. 100) It may be desirable to form 30 to 95% of the total area.

The heat reflection layer 200 may have a dot shape as shown in FIG. 2 or may have a stripe shape as shown in FIG. 3, and the heat reflection layer 200 may be heated in various designed shapes as long as the shape of the heat reflection layer is not limited to dots or stripes. The reflective layer 200 may be formed.

The protective layer 300 is formed on the heat reflection layer 200 so that the heat reflection layer is not peeled off by washing or living friction.

The protective layer 300 may be any coating transparent resin that can be used for fibers such as acrylic resin, silicone resin excellent in transparency.

The heat reflective fiber sheet according to the present invention may be formed by coating the protective layer 300 on the heat reflective layer 200 after the heat reflective layer 200 is formed on the fiber sheet 100.

By containing a heat storage component in the protective layer 300 will be able to further improve the heat retention of the heat reflective fiber sheet of the present invention.

The heat storage component is a material capable of absorbing, amplifying or storing infrared rays generated in the human body, such as zirconium carbide, mica, and PCM. Any one or two or more of the heat storage components may be included in the protective layer 300 to improve insulation. Can be.

The heat storage component contained in the protective layer 300 is preferably 0.5 to 3% by weight. When the heat storage component is contained in the protective layer at less than 0.5% by weight, the effect of the heat storage component may be insignificant, and the heat storage component is 3% by weight. If it exceeds, it may lower the feel and flexibility of the fiber sheet.

The heat reflective fiber sheet of the present invention having a protective layer containing a heat storage component as described above, the heat reflecting layer reflects infrared rays generated from the body back to the body, and the heat storage material of the protective layer absorbs and amplifies the infrared rays to improve heat retention. Let's go.

Hereinafter, an embodiment of a method for producing a thermally reflective fibrous sheet having improved thermal insulation according to the present invention is shown, but the present invention is not limited to the embodiment.

Example  One

A resin containing aluminum powder was laminated on one surface of the fiber sheet formed of polyester yarn in a circular shape as shown in FIG. 2 to form a heat reflecting layer so as to occupy about 83% of the surface area of the fiber sheet, and the mica as a heat storage material was formed on the heat reflecting layer. Coating with an acrylic resin for coating containing 2% by weight to form a protective layer to prepare a thermal reflecting fiber sheet with improved thermal insulation according to the present invention.

Example  2

Prepared in the same manner as in Example 1, but the fiber sheet is 70D / 72F A fiber sheet formed of 83 wt% polyester yarn and 17 wt% polyurethane yarn was used.

◈ Insulation test

Table 1 shows the thermal insulation properties by measuring the claw value of the thermally reflective fiber sheet having improved thermal insulation according to the present invention.

As a comparative example, a fiber sheet formed of polyester yarn was used.

* Thermal insulation (clo) was measured by the ASTM D 1518 method.

division Example 1 Example 2 Comparative example Thermal insulation (clo) 0.15 0.29 0.11

As shown in Table 1, it can be seen that the thermal reflecting fibrous sheet having improved heat retention according to the present invention has an excellent thermal insulation value compared to the comparative example in which the heat dissipation layer is not formed.

In particular, it can be seen that the fiber sheet containing polyurethane yarn has an excellent thermal insulation value due to the increased density of the fiber sheet.

<Description of Major Symbols in Drawing>
100: fiber sheet layer 200: heat reflection layer
300: protective layer

Claims (5)

Fiber sheet layer prepared by mixing any one or two or more of natural fibers, regenerated fibers, synthetic fibers,
The heat reflection layer coated with a resin containing a metal thin film or a metal material on the skin contact surface of the fiber sheet layer is formed in a dot or stripes or designed shape,
A protective layer is further formed on the heat reflection layer,
The protective layer is formed of a transparent resin, heat retention fiber sheet with improved heat retention, characterized in that the heat storage component is contained 0.5 to 3% by weight. The method of claim 1,
The heat reflection layer is a heat reflective fiber sheet, characterized in that the thermal insulation layer is formed of 30 ~ 95% of the total area of the sheet layer. delete The method of claim 1,
The heat storage component is heat retention reflective fiber sheet, characterized in that containing one or two or more of zirconium carbide, mica, PCM. The method of claim 1,
Thermal insulation reflective fiber sheet, characterized in that the polyurethane sheet is included in the fiber sheet layer.

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