KR102086920B1 - Heating Clothes Having Embroidery Heating Unit - Google Patents

Abstract

The present invention relates to heated clothing having an embroidered heating unit. According to the present invention, thermal conductivity is improved by conductive yarn of the heating unit having a first coating layer made of a polyethylene resin containing graphite particles on the outer periphery of carbon fiber yarn which is a core, so that heat dissipation from the core is efficiently performed to secure heat generation performance with little preheating time. It is also possible to provide the heating unit having excellent durability in which no disconnection occurs even when fabric is stretched or deformed during washing and wearing, and to reduce the weight of heated clothing by applying an embroidery method to the fabric in order not cause a sense of difference.

Description

Heated clothes having an embroidered heating unit {Heating Clothes Having Embroidery Heating Unit}

The present invention relates to a heat generating garment having an embroidery heat generating portion.

Due to the increasing interest in health care and body protection of consumers, the necessity of developing low frequency based heating fiber products that can be easily used in daily life is increasing.

Currently known heating products are traditionally composed of a power unit that can be charged with electricity and a heating element that uses the electrical properties of the heating wire and conductive fibers from the supplied power, and these components are mounted in the storage (storage) space inside the textile product. Or, it is most of the way to connect the separate conductor using the plane heating element.

When the heating element is installed in the storage (storage) space inside the textile product and used for clothing, a problem of remarkably inferiority occurs, and a planar heating element is developed and applied as a patch-attached type or a band type. Doing.

On the other hand, in recent years, linear heating fabrics using carbon fiber yarns have been developed, and these linear heating element fabrics have a tendency to decrease their electromagnetic wave and power consumption in the resistance heating process, and their use is gradually increasing. However, even in this case, the warp and weft made of carbon fiber yarn are simply woven in the form of plain weave, and the copper wire is still used as the conductor, and the planar heating element of this type is inflexible when applied to the garment with a patch or band type. In addition, since the conducting portion and the connecting portion for supplying power to the heating portion must be formed separately, when used for clothing, the durability of the connecting portion between the conducting portion and the heating portion is often broken, and the fiber portion, The heterogeneity between the heating part and the conductor was still large, so the wearability was still poor.

In addition, even in the case of using a conductive fiber using only carbon fiber, an insulation coating is used to ensure durability and insulation. In this case, it takes a lot of preheating time to obtain sufficient heat during heat generation, and has a problem of lowering the thermal conductivity. .

Republic of Korea Patent No. 10-1377583 (announced March 28, 2014)

Therefore, according to the present invention, the heat dissipation from the heating element can be efficiently ensured the heat generation performance with almost no preheating time, and provides a durable heat generating unit that does not occur disconnection phenomenon even when stretching and deformation of the fabric during washing and wearing It is a technical task to provide a heat generating garment that can achieve a light weight of the heat generating garment by eliminating the heterogeneity with the fabric.

Therefore, according to the present invention, the fabric formed of synthetic fibers or natural fibers,

A heat generation unit comprising a conductive pattern in the form of embroidery on at least one surface of the fabric, a power line for transferring power to the heat generation unit,

An insulation protection layer formed on the fabric to cover the heating part and the power line;

There is provided a heat generating garment having an embroidered heat generating unit comprising a battery unit electrically connected to the power line to supply power to the heat generating unit.

In addition, the heat generating portion of the heat generating garment having the embroidery heat generating portion of the present invention is characterized in that the conductive pattern of the embroidery form of carbon fiber yarn having a coating layer.

In addition, the carbon fiber yarn having the coating layer of the heating garment having the embroidery heat generating portion of the present invention as an insulating material on the outer circumference of the first coating layer and the first coating layer made of polyethylene resin containing graphite particles on the outer circumference of the core carbon fiber yarn It is characterized by consisting of a second coating layer made.

In addition, the first coating layer of the carbon fiber yarn having the coating layer of the heating garment having the embroidery heat generating portion of the present invention is characterized in that the polyethylene resin containing 5 to 10% by weight of graphite particles having a length of 8 ~ 15㎛.

In addition, the insulating material of the second coating layer of the carbon fiber yarn having the coating layer of the heating garment having the embroidery heat generating portion of the present invention is characterized in that made of any one of polyolefin resin, polyester resin, polyurethane resin, fluorine resin.

Therefore, according to the present invention, the thermal conductivity is improved by the conductive yarn of the heating portion having the first coating layer made of polyethylene resin containing graphite particles on the outer circumference of the carbon fiber yarn which is the core, so that the heat dissipation from the core is efficient and there is little preheating time. It can secure heat generation performance, and it can provide a heat-generating part that has excellent durability that does not cause disconnection even when the fabric is stretched or deformed during washing and wearing. Could be planned.

1 is a cross-sectional schematic view of one embodiment of a heat generating garment having an embroidery heat generating portion of the present invention,
Figure 2 is a picture of the heating portion of the heating garment having an embroidery-type heating portion of the present invention,
Figure 3 is a perspective view of a carbon fiber yarn having a coating layer of the heat generating portion of the heat generating garment having the embroidery heat generating portion of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the configuration shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

1 is a schematic diagram of one embodiment of a heat generating garment having an embroidery heat generating portion of the present invention. Referring to Figure 1, the heat generating garment having an embroidery heat generating portion of the present invention is a fabric 10 made of synthetic fibers or natural fibers, and a heat generating portion 20 made of a conductive pattern of the embroidery form on at least one side of the fabric and And a power line 30 for transmitting power to the heat generating unit, an insulating protective layer 40 formed on the fabric to cover the heat generating unit and the power line, and electrically connected to the power line to supply power to the heat generating unit. It characterized in that it comprises a battery unit 50 for supplying.

In the exothermic garment having the embroidery-type heat generating unit of the present invention, the fabric is formed of synthetic fibers or natural fibers, and the fabric used in conventional garments is used.

As shown in FIG. 2, the heat generating part 20 is made of a conductive pattern in the form of embroidery on at least one surface of the fabric, and a carbon fiber yarn 1 having a coating layer, which is a kind of conductive yarn, is formed in an embroidery form on one surface of the fabric. To form a conductive pattern. The heat generating portion formed in the embroidery form to form the conductive pattern is to generate heat by receiving power from a battery unit to be described later.

In particular, the carbon fiber yarn having the coating layer of the heat generating portion is preferably made of a conductive pattern in the embroidery form of the carbon fiber yarn having two coating layers, which is preferable for the protection of the carbon fiber yarn and the durability of the heating portion. As shown in the first coating layer 200 made of polyethylene resin containing graphite particles on the outer circumference of the carbon fiber yarn 100 as a core and the second coating layer 300 made of an insulating material on the outer circumference of the first coating layer It is preferable that the heat dissipation from the carbon fiber yarn can be more efficiently dissipated to the outside.

In particular, the thermal conductivity is improved by the first coating layer made of polyethylene resin containing graphite particles on the outer circumference of the carbon fiber yarn which is the core, so that heat dissipation from the core can be efficient. The first coating layer of the carbon fiber yarn having the coating layer is preferably made of polyethylene resin containing 5 to 10% by weight of graphite particles having a length of 8 to 15㎛, and when the particle length is less than 8㎛, the thermal conductivity improving effect is It is weak, and if it exceeds 15㎛ there is a problem that the exothermic rate is lowered and a lot of unreacted material remains.

The second coating layer is made of an insulating material made of any one of polyolefin resin, polyester resin, polyurethane resin, and fluorine resin to protect carbon fiber yarn from the outside and improve moldability.

In the heat-generating garment having the embroidery heat generating part of the present invention, a power line for delivering power to the heat generating part, and a battery part electrically connected to the power supply line to supply power to the heat generating part, supplying power from the battery part to the heat generating part through the power line. Done. A controller unit 60 is further formed between the power line and the battery unit to adjust temperature and operating time. An insulation protective layer is formed on the distal end to cover the heat generating unit and the power line to protect the heat generating unit and the power line from the outside. The insulating protective layer may be made of synthetic fibers or synthetic resin film.

1: carbon fiber yarn with coating layer
10: fabric 20: heating portion
30: power line 40: insulating protective layer
50: battery unit 100: carbon fiber yarn
200: first coating layer 300: second coating layer

Claims (5)

Fabric formed of synthetic fibers or natural fibers,
It is formed on at least one side of the fabric, the first coating layer made of polyethylene resin containing 5 to 10% by weight of graphite particles having a length of 8 ~ 15㎛ on the outer circumference of the core carbon fiber yarn and a polyolefin resin on the outer circumference of the first coating layer And a heat generating portion made of a conductive pattern of embroidery of carbon fiber yarn having a coating layer made of an insulating material made of any one of polyester resin, polyurethane resin and fluorine resin;
A power line for transferring power to the heating unit;
An insulation protection layer formed on the fabric to cover the heating part and the power line;
And a battery unit electrically connected to the power line to supply power to the heat generating unit. delete delete delete delete

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