KR20190077883A - Body-heat reflective textile sheet having improved warmth - Google Patents

Abstract

The present invention relates to a body heat reflective textile sheet having improved warmth. The body heat reflective textile sheet comprises: a fiber sheet layer prepared by mixing one or more of natural fiber, recycled fiber and synthetic fiber; a body heat reflective layer coated with a resin including a metal thin film or a metal material on the skin contact surface of the fiber sheet layer and formed in a dot, stripe or designed form; and a protective layer additionally formed on the body heat reflective layer.

Description

HEAT REFLECTIVE TEXTILE SHEET HAVING IMPROVED WARMTH BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

TECHNICAL FIELD The present invention relates to a heat-reflecting reflective fibrous sheet having improved heat retention, which improves heat retention by utilizing body heat generated from the body, and more particularly to a thermally reflective reflective fibrous sheet having improved heat retention suitable for clothing such as outdoor and sports in winter.

The concept of thermal insulation can be distinguished from the passive method of preventing the heat released from the human body from being lost to the outside and the aggressive concept of positively externally applying heat. The former method is to heat the heat generated from the body by the air layer of the fabric, to use the infrared reflective material which does not radiate radiant heat from the body to the outside of the clothes, And the like. In the latter method, a method of introducing an electric heating material, a chemical reaction heat insulating material, and a solar thermal insulating material into a coating has been proposed.

Among the former methods, the heat insulating method by the air layer is a reason to increase the thickness of the fabric constituting the covering, which causes the activity to be lowered. The method using other materials is a factor that deteriorates the washing property and durability of the covering There is a disadvantage that it is difficult to use it universally.

On the other hand, the thermal conductivity is also known as the thermal conductivity, which is a constant relating to the substance showing the degree of heat transfer. Refers to the ratio of the amount of heat that passes through a unit area of an isothermal surface at an arbitrary point in the body through the unit area perpendicular to this and the temperature gradient in this direction. That is, it is a constant about the substance that shows the degree of heat transfer, which depends on temperature and pressure. A scalar quantity in the case of an isotropic substance, and a tensile quantity in the case of an anisotropic substance. In particular, metals have a large value due to the heat conduction due to free electrons. Bidemann-Franz's law holds between thermal conductivity and electrical conductivity. Thermal conductivity is affected by density, specific heat, and viscosity. Fabrics, for example, flax fibers with high thermal conductivity are cool fibers and wool with low thermal conductivity are the warmest fibers.

WO 2002/34988 discloses a fabric made from conductive yarn for generating heat from a power source, the fabric comprising one or more nonconductive and one or more positive temperature coefficient (PTC) heating yarns, wherein the nonconductive and PTC heating yarns are combined Thereby forming a heating fabric. This proposal also requires a structure for generating a separate power source, and there is a problem that the suitability of the coating is deteriorated.

On the other hand, Korean Utility Model Publication No. 200227811 discloses that a silver yarn plated with silver on polyamide fibers is arranged at regular intervals in both the warp direction and the weft yarn direction in a fabric obtained by crossing yarns of warp yarns or multi- And the like. Although the silver plated yarn has the characteristics of excellent antistatic effect and thermal insulation or thermal insulation effect because the silver plating yarns are arranged in the warp or weft direction constantly, in order to expect a warming effect in the presence of the silver plated yarn arranged at regular intervals in the fabric, It is difficult to exhibit heat insulation and warmth due to the general yarn having no difference in the thermal conductivity of more wool which is woven together. Furthermore, it is doubtful whether the insulation of the fabric of the same layer can be realized due to the difference in the thermal conductivity of the fabric, since most of the fabric is made of fibers having low thermal conductivity in addition to the portion where the silver plating is disposed.

The conventional warming concept as described above depends only on the condition of the cloth or the cloth, and there is no consideration of the metabolism and mechanism of the human body to wear it.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a heat-reflecting reflective fibrous sheet having improved heat retention and improved heat retention using body heat in the body.

It is another object of the present invention to provide a heat-reflecting reflective fibrous sheet for improving warmth by maintaining the body temperature of the body with a sheet for amplifying or generating infrared rays generated in the body.

The present invention relates to a fibrous sheet layer produced by mixing any one or two or more of natural fibers, regenerated fibers and synthetic fibers, and a heat reflecting layer coated with a resin containing a metal thin film or a metal material on the skin- And a protective layer is further formed on the body heat reflective layer. The heat-reflecting reflective fibrous sheet according to claim 1,

Also, the body heat reflecting layer is formed with 30 to 95% of the total sheet area.

Also, the protective layer is formed of a transparent resin, and the heat storage component is contained in an amount of 0.5 to 3% by weight.

Also, the heat storage component includes one or two or more of zirconium carbide, mica, and PCM.

Also disclosed is a heat-reflecting reflective fiber sheet having improved heat retention, characterized in that polyurethane yarn is contained in the fiber sheet.

As described above, the body heat reflective fiber sheet according to the present invention has the effect of preventing the body heat reflecting layer from being peeled off by the formation of the protective layer by reflecting the body temperature generated from the body back to the body due to the body heat reflecting layer.

In addition, infrared radiation generated in the body is amplified by the heat storage material of the protective layer, thereby improving warmth.

In addition, the heat-reflecting reflective fiber sheet of the present invention has an effect suitable for use for outdoor in winter.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a heat-reflecting reflective fiber sheet with improved heat retention according to the present invention. FIG.
2 is a view showing the shape of a heat-reflecting layer of a heat-reflecting reflective fiber sheet with improved warmth according to the present invention.
Fig. 3 is a view showing another embodiment of the thermally-reflecting layer of the heat-reflecting reflective fiber sheet with improved warmth according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

As used herein, the terms " about, " " substantially, " " etc. ", when used to refer to a manufacturing or material tolerance inherent in the stated sense, Accurate or absolute numbers are used to help prevent unauthorized exploitation by unauthorized intruders of the referenced disclosure.

FIG. 1 is a cross-sectional view showing a cross section of a heat-reflecting reflective fiber sheet with improved warmth according to the present invention, FIG. 2 is a view showing a shape of a heat- Heat reflecting layer of the heat-reflecting reflective fiber sheet with improved heat retention according to the invention.

The present invention is formed from a fiber sheet layer 100, a body heat reflecting layer 200 and a protective layer 300 as shown in Figs.

The fiber sheet layer 100 may be made of any one of natural fibers, regenerated fibers, and synthetic fibers, or may be formed by mixing two or more kinds of materials selected from natural fibers, knitted fabrics, and nonwoven fabrics.

According to the use of the heat-reflecting reflective fiber sheet of the present invention, the fiber sheet layer 100 may be formed of a functional fabric imparted with functionality such as quick-drying absorbency and antibacterial property.

In addition, polyurethane yarns may be included to improve the warmth of the fiber sheet layer 100 and to impart stretchability.

When the polyurethane yarn is contained in the fibrous sheet layer as described above, the tissue density of the fibrous sheet layer is increased due to the elasticity of the polyurethane yarn, thereby improving the warmth.

The polyurethane yarn is preferably contained in an amount of 5 to 30% by weight of the fibrous sheet layer. If the content of the polyurethane yarn is less than 5% by weight, the effect of improving the stretchability and thermal insulation of the fibrous sheet layer may be insignificant. The physical properties and morphological stability of the composition may be deteriorated.

The body heat reflective layer 200 is formed on the skin contact surface of the fibrous sheet layer in contact with the skin.

The body heat reflecting layer 200 reflects the body heat generated from the human body and returns the body heat back to the human body. As the layer for improving warmth, a metal thin film or a resin including a metal material can be used.

The metal thin film may be formed by joining a metal thin film such as gold foil, silver foil or aluminum thin film to the skin contact surface of the fiber sheet layer.

In addition, it is possible to form a resin including a powdery metal material such as gold, silver and aluminum on the skin contact surface of the fiber sheet layer by various methods such as printing, coating, lamination, padding, will be.

If the body heat reflecting layer 200 is formed to be less than 30% of the total area of the fiber sheet layer, the effect of heat reflection may be insignificant. If the body heat reflecting layer 200 is more than 95% 100 to 30% to 95% of the total area.

The body heat reflecting layer 200 may have a dot shape as shown in FIG. 2 or a stripe shape as shown in FIG. 3. If the shape of the body heat reflecting layer is not limited to dots or stripes as described above, The reflective layer 200 can be formed.

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

The protective layer 300 may be any transparent resin for coating that can be used for fibers such as an acrylic resin or a silicone resin having excellent transparency.

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

The heat insulating property of the body heat reflecting fiber sheet of the present invention can be further improved by containing a heat storage component in the protective layer 300.

Any of materials capable of absorbing, amplifying or storing infrared rays generated in the human body such as zirconium carbide, mica and PCM may be used as the heat storage component, and one or two or more materials may be contained in the protective layer 300 to improve the warmth .

It is preferable that the heat storage component contained in the protective layer 300 is 0.5 to 3 wt%. If the heat storage component is less than 0.5 wt%, the effect of the heat storage component may be insufficient. If the heat storage component is less than 3 wt% , The tactile feeling and flexibility of the fiber sheet may be deteriorated.

In the heat-reflecting reflective fiber sheet of the present invention, in which the protective layer containing the heat accumulating component is formed as described above, the body heat reflecting layer reflects the infrared rays generated in the body back to the body and absorbs and amplifies infrared rays by the heat- .

Hereinafter, embodiments of the method for producing heat-reflecting reflective fiber sheet with improved warmth according to the present invention will be described, but the present invention is not limited to the examples.

Example  One

A resin containing aluminum powder was laminated on a surface of a fiber sheet formed of polyester yarn in a circular form as shown in Fig. 2 to form a body heat reflecting layer occupying about 83% of the surface area of the fiber sheet. Mica as a heat storage material 2% by weight of an acrylic resin for coating to form a protective layer, thereby producing a heat-reflecting reflective fiber sheet having improved warmth according to the present invention.

Example  2

The fiber sheet was prepared in the same manner as in Example 1 except that 70D / 72F 83% by weight of polyester yarn, and 17% by weight of polyurethane yarn was used.

◈ Thermal insulation evaluation experiment

The clo value of the heat-reflective heat-reflecting fiber sheet according to the present invention was measured and the warmth was evaluated.

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

* The warmth (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 heat-reflecting reflective fiber sheet with improved warmth according to the present invention is superior in heat insulation value to the comparative example in which the heat-conducting layer is not formed.

Particularly, it can be seen that the fiber sheet containing polyurethane yarn has an increased density of the fiber sheet and thus has a very high thermal insulation value.

DESCRIPTION OF THE RELATED ART [0002]
100: fiber sheet layer 200: thermally-reflecting layer
300: protective layer

Claims (5)

A fibrous sheet layer produced by mixing any one or more of natural fibers, regenerated fibers and synthetic fibers,
A body heat reflecting layer coated with a resin including a metal thin film or a metal material is formed on the skin contact surface of the fiber sheet layer in a dot shape,
And a protective layer is further formed on the body heat reflecting layer. 3. The method of claim 2,
Wherein the body heat reflecting layer is formed to be 30 to 95% of the total area of the sheet layer. The method according to claim 1,
Wherein the protective layer is formed of a transparent resin, and the heat storage component is contained in an amount of 0.5 to 3 wt%. The method of claim 3,
Wherein the heat storage component comprises at least one of zirconium carbide, mica, and PCM. The method according to claim 1,
Characterized in that polyurethane yarn is contained in the fiber sheet layer.

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