KR20130134928A - Heating-part/cable unified heat generating textiles - Google Patents

Abstract

The present invention relates to a heat generating fiber product using a conductive yarn, so that the heat generating part can be partially formed, and the heat generating part / line part integral heating fiber which can be made integrally without separate bonding or sewing between the heat generating part and the whole fiber product. As the product relates to the heating fiber product of the present invention, there is no separate storage and storage space, there is no connection area, there is no heterogeneity when worn, and especially when the same power is applied in the heat generating function, it is possible to provide more effective heating performance. Can be.

Description

Heating part / line part integrated heating fiber product {Heating­Part ／ Cable Unified Heat Generating Textiles}

The present invention relates to a heat generating fiber product using a conductive yarn, so that the heat generating part can be partially formed, and the heat generating part / line part integral heating fiber which can be made integrally without separate bonding or sewing between the heat generating part and the whole fiber product. It is about a product.

As consumers' desire to improve the quality of life increases, the need for development of low-frequency heating fiber products that can be easily used in daily life is increasing due to increasing interest in health care and body protection.

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, the planar heating element was used to connect the separate conductors in most cases.

When the heating element is installed in the storage (storage) space inside the textile product and used for clothing, the flexibility is significantly reduced, and thus, a planar heating element is developed and applied as a patch-attached or 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 increase their use in recent years because the electromagnetic wave and power consumption are significantly reduced during the resistance heating process. 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. This type of planar heating element is inflexible when applied to the garment with a patch or band type. In addition, since the conductor part and the connection part for supplying power to the heat generating part must be formed separately, when used for clothes, the durability of the connection part between the conductor part and the heating part is often low, and the fiber part, when worn, The heterogeneity between the heating unit and the conductor was still large, so the wearability was still poor.

Therefore, in the present invention to solve the problems of the prior art, the durability of the connecting portion between the lead portion and the heating portion is reduced to reduce the case of disconnection, and to improve the wearability by eliminating the heterogeneity between the fiber portion, the heating portion and the conductor when worn. In addition, it is a technical task to provide a heating fiber product having a light weight and high efficiency that can provide a more effective heat generating performance even when the same power is applied in the heat generating function.

Therefore, according to the present invention, as a double-knit structure, the upper structure is composed of only the common yarn, the lower organization is composed of the conductive yarn and the common yarn in the ratio of 3: 7 ~ 7: 3 and the conductive yarn is connected in a loop form, the adjacent loops are in contact with each other A track portion organized to be;

As the double knitted structure connected from the track part, the lower structure is knitted with only general yarns, and the upper tissue is knitted with a ratio of 1: 9 to 2: 8, and the conductive yarns are connected in a loop shape, and adjacent loops are in contact with each other. A heat generating portion organized so as not to;

A connector part connected to the conductive yarn of the line part;

Provided is a heat generating part / line part integrated heat generating fiber product comprising a power supply part connected to the connector part to supply power.

The conductive yarn is characterized in that any one of copper, silver, gold is a metal coated yarn coated on the surface of the yarn.

The structure of the track portion may be any one of a plain stitch, a rib stitch, a pearl stitch, and a change tissue.

Between the line portion and the heat generating portion, the same structure as the line portion or narrower than the line portion, the loop length of the conductive yarns is characterized in that the addition of a bridge portion shorter than the loop length of the conductive yarns in the track portion.

Therefore, according to the present invention, a heating plate or a heating patch for heat generation is separately manufactured, and thus a separate storage and storage space is not provided as compared with the existing products which are attached or inserted into a pocket by a separate adhesive or sewing. There is no dissatisfaction, and in particular, it is possible to provide more effective heat generation performance when the same power is applied in the heat generation function by forming the bridge part, so that light weight and high efficiency can be used for longer heat generation time using a lighter battery. Textile products can be provided.

1 is a photograph of a heat generating part / line unit integrated heat generating fiber product of the present invention,
Figure 2 is a schematic diagram showing the structure of the line portion of the heating element / line unit integrated heating fiber product of the present invention,
Figure 3 is a schematic diagram showing the structure of the heat generating portion of the heat generating portion / line portion integrated heating fiber product of the present invention,
Figure 4 is a product photograph showing the connector portion of the heat generating portion / line portion integrated heating fiber product of the present invention,
Figure 5 is an infrared photograph showing the heat distribution at the time of wearing the heat generating part / line integrated heat generating fiber product of the present invention.
Fig. 6 is a photograph in which a heat generating part / line part integrated heat generating fiber product of the present invention is worn on a mannequin.

Hereinafter, the heating unit / line unit integrated heating fiber product of the present invention will be described in more detail with reference to the accompanying drawings.

The heating unit / line unit integrated heating fiber product of the present invention includes a line unit 1 for flowing power supplied as shown in FIG. 1, and a heat generation unit 2 for generating heat using power supplied from the line unit. ), A power supply unit (not shown) for supplying power, and a connector unit (not shown) for connecting the power supply unit and the track unit. In some cases, the bridge part 3 may be further formed.

The track portion 1 is a double knit structure, the upper structure is knitted only with a common yarn and the lower organization is a combination of a conductive yarn and a general yarn as shown in Figure 2 as shown in Figure 2 the lower tissue is a conductive yarn 10 and a general The yarns 20 are knitted in a ratio of 3: 7 to 7: 3, and the conductive yarns are connected in a loop shape so that neighboring loops are contacted with each other to flow power supplied from the power supply unit.

In the present invention, the conductive yarn is one of copper, silver, and gold is used as a metal coating yarn coated on the surface of the yarn, the metal coating yarn has a specific resistance of each coated metal has a low resistance in some cases It may also serve as a conductor and sometimes as a heating unit that generates heat with high resistance.

In the present invention, the track portion is knitted in a ratio of 3: 7 to 7: 3 in the lower structure of the double knit structure and the conductive yarns are connected in a loop shape so that neighboring loops are contacted with each other to widen the conductor surface area. By showing a lower resistance value than the resistivity of the conductive material, it acts as a line for transmitting the power supplied from the power supply unit without loss.

For example, when the silver coated conductive yarn has a resistance value of 14.2 to 16.3Ω / m, the line part has a resistance value of 4.1 to 4.5Ω / m to serve as a line. The structure of the track portion may be any one of a plain stitch, a rib stitch, a pearl stitch, and a change tissue, and may exhibit lower resistance than the resistance of an independent conductive yarn. It is important that the adjacent loops are organized in contact with each other as shown in FIG. 2.

The heating part 2 is a double knit structure connected from the track part, and the lower structure is knitted with only general yarns, and the upper tissue is knitted with a ratio of 1: 9 to 2: 8, and the conductive yarns are connected in a loop form. While the adjacent loops are knitted so as not to contact each other, as shown in FIG. 3, the conductive yarn loops of the upper structure are arranged to be separated and arranged by ordinary yarns without being in contact with each other to express the resistance of the conductive yarns as it is. In the case of flowing, heat is generated by a high resistance value. Thus, the present invention can partially generate heat by the heat generating portion, it is possible to adjust the heat generating portion according to the design. In the case of the track part 1, it is preferable to configure the conductive yarn to protrude from the human body to the outer part when worn, and the heat generating part 2 toward the human body.

The connector part 4 shown in FIG. 4 is connected to the conductive yarns of the line part 1 and serves to connect the power part and the line part described later. The connector part may be any of the upper or lower structure of the double knit structure. It can be formed at any place and its shape and material can be varied so that power can be transmitted smoothly without loss of power.

Although not shown in the drawing to be connected to the connector 4 to form a power supply for supplying power to the heat generating fiber product of the present invention, to have a switch and a temperature control device capable of turning on and off the power.

Depending on the size and shape of the heat generating portion, the bridge portion 3 between the line portion and the heat generating portion has the same structure as the line portion or the width thereof is narrower than the line portion, so that the loop length of the conductive yarn is shorter than the loop length of the conductive yarn in the track portion. In addition, the efficiency of the power supply unit can be improved. In the case where the silver-coated conductive material constituting the line unit has a resistance value of 14.2 to 16.3Ω / m, the bridge part has a resistance value of 1.1 to 1.5Ω / m to improve the efficiency of the power supply unit. Will be improved. The track part and the bridge part are composed of the same structure, and when the length of both ends of the heat generating part is increased, the bridge part has a high resistance value, and thus the battery consumption is increased, thereby preventing the efficiency from being lowered.

1: track part 2: heating part
3: bridge portion 4: connector portion
10: Challenger 20: General History

Claims (4)

As a double knit structure, the upper structure is composed of only the common yarn, the lower organization is composed of the conductive yarn and the common yarn in the ratio of 3: 7 ~ 7: 3 and the conductive yarn is connected in a loop shape, the track portion is knitted so that neighboring loops are in contact with each other;
As the double knitted structure connected from the track part, the lower structure is knitted with only general yarns, and the upper tissue is knitted with a ratio of 1: 9 to 2: 8, and the conductive yarns are connected in a loop shape, and adjacent loops are in contact with each other. A heat generating portion organized so as not to;
A connector part connected to the conductive yarn of the line part;
Heat generating unit / line unit integrated heating fiber product, characterized in that consisting of a power supply for supplying power connected to the connector. The method of claim 1, wherein the conductive yarn is copper, silver, gold, medium A heat generating part / line part integrated heat generating fiber product, wherein any one is a metal coated yarn coated on the surface of the yarn. The heat generating part / line part integral type according to claim 1, wherein the structure of the track part is any one of flat stitches, rib stitches, pearl stitches, and change tissues. Pyrogenic fiber products. 4. The structure according to any one of claims 1 to 3, wherein the width of the conductive yarns is smaller than that of the conductive yarns in the track portion because the width between the track portion and the heat generating portion is the same as that of the track portion or is narrower than that of the track portion. A heat generating part / line part integrated heat generating fiber product characterized by adding a short bridge part.

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