KR20190055671A - Heating pad using a line-shaped carbon heating element and manufacturing method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating pad using a carbon heating element and a manufacturing method thereof, and more particularly, to a heating pad using a linear heating element.
The heating pad of the present invention comprises a lower fabric; A lower nonwoven fabric attached to an upper surface of the lower monolayer; An upper nonwoven fabric attached to an upper surface of the lower nonwoven fabric; An upper fabric attached to an upper surface of the upper nonwoven fabric; A linear heating element made of a plurality of carbon fibers sandwiched between the lower nonwoven fabric and the upper nonwoven fabric; And an electric wire connected to both ends of the linear heating element.
The heating pad according to the present invention is easy to manufacture using a linear heating element and has improved localized heating due to high heat dissipation. In addition, the bonding property between the linear heating element and the fiber is good, and the durability is excellent, and waterproofing is possible.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating pad using a linear carbon heating element and a manufacturing method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating pad using a carbon heating element and a manufacturing method thereof, and more particularly, to a heating pad using a linear heating element.

The carbon heating element that attaches to the fiber fabric and induces the heating of the fiber fabric is roughly classified into a linear heating element and a planar heating element.

The linear heating element is advantageous in that it is easier to manufacture than a planar heating element in which a carbon fiber weaving process is required, since fine carbon fibers having a diameter of 10 microns can be bundled and used as they are.

However, since the area of heat generation is not as wide as that of the area heating element, the area of the fiber fabric is heated only at a location where the heating element is located, that is, the area where the fabric is not warm, the area where the heating element is located is hot, The phenomenon of coldness occurs.

In order to solve this problem, a method has been developed in which a line heater is formed into a bundle and covered with a special material, which causes a problem that the cover reduces the heat generation efficiency.

Further, the contact area between the linear heating element and the fabric is narrow, which causes a problem that it is easily detached. Korean Patent Laid-Open Publication No. 10-2017-125114 filed by Woolyong Industry Co., Ltd. discloses a method of stably attaching a linear heating element to a fiber fabric by spraying a hot melt in a molten state along a linear heating element made by twisting carbon fibers have. This improves the adhesion durability, but the localization problem of heat generation is not solved.

In addition, since the linear heating elements are composed of several tens to several hundreds of micro carbon fibers, it is not easy to connect them to electric wires. In addition, there is a problem in that even when connected securely, short circuit easily occurs during use.

A problem to be solved by the present invention is to provide a heat generating pad having excellent bonding property between a line heater element and a fiber fabric.

A problem to be solved by the present invention is to provide a method of manufacturing a heat generating pad having excellent bonding property between a linear heating element and a fiber fabric.

A problem to be solved by the present invention is to provide a heat generating pad which is excellent in bonding property between a linear heating element and a fiber fabric and has high heat uniformity.

A problem to be solved by the present invention is to provide a method of manufacturing a heat generating pad which is excellent in bondability between a linear heating element and a fiber fabric and has high heat uniformity.

A problem to be solved by the present invention is to provide a heat generating pad which is excellent in bonding property between a linear heating element and a fiber fabric, has high heat uniformity, and has high stability of bonding between a linear heating element and a power supply line.

A problem to be solved by the present invention is to provide a method of manufacturing a heat generating pad having excellent bonding properties between a linear heating element and a fiber fabric, high uniformity of heat generation, and high bonding stability between a linear heating element and a power supply line.

According to an aspect of the present invention,

Lower fabric;

A lower nonwoven fabric attached to an upper surface of the lower monolayer;

An upper nonwoven fabric attached to an upper surface of the lower nonwoven fabric;

An upper fabric attached to an upper surface of the upper nonwoven fabric;

A linear heating element made of a plurality of carbon fibers sandwiched between the lower nonwoven fabric and the upper nonwoven fabric; And

And electric wires respectively connected to both ends of the linear heating element.

Without being bound by theory, it is believed that the nonwoven fabric attached to the inside of the fiber fabric provides stable bonding of the carbon fibers and causes heat transfer to the nonwoven fabric, thereby alleviating the local heating.

In the present invention, the carbon fibers have a diameter of 1-50 mu m, preferably 5-40 mu m, more preferably 10-30 mu m.

In the present invention, the linear heating elements are carbon fibers having the same length, preferably 500 to 3000 strands, more preferably 1,000 to 2,500 strands, and even more preferably 1,500 to 2,000 strands. Lt; / RTI >

In the present invention, it is preferable that the linear heating elements are bundled only at a portion connected to electric wires so as to relieve local heating, and are dispersed without being bundled at other portions.

In the present invention, the linear heating elements may be connected to one electric wire at both ends, and preferably, each carbon fiber may be connected to the electric wire through a conductive paste. In the practice of the present invention, the conductive paste may be a conductive paste containing silver.

In the present invention, the linear heating elements may be wrapped with a thin tunnel-like two-layer film having both ends open and long and flat to increase the water resistance. The tunnel type film may extend from the wire to which one end of the linear inventive body is connected to the wire to which the other end is connected.

In the practice of the present invention, it is preferable that the conductive face connecting the carbon fibers and the electric wire be sandwiched between the lower nonwoven fabric and the upper nonwoven fabric for stable fixing.

In the present invention, it is preferable that the other end of the electric wires is connected to a power jack into which a power plug connected to a portable battery can be inserted.

In the present invention, the heat generating pad may be further provided with a waterproof cloth on the upper and lower surfaces of the fabric for waterproofing.

In the practice of the present invention, the cap may further include a jack to cover the jack so as to prevent submersion of the jack.

In the present invention, one side of the ball valve may be attached to the outer surface of the heating pad, and may be detachably coupled to the other side of the ball valve attached to the garment.

In the present invention, the garment may further include a ball to which a heating pad is attached, a cover covering the heating pad attached to the ball, and a battery connected to the heating pad.

In the present invention, the heating pad may further include a thermometer for adjusting the temperature.

In the practice of the present invention, it is preferable that the heating pad has a size capable of generating heat using a current of 1 to 2 amperes at a voltage of 5V.

According to an aspect of the present invention,

Attaching a lower nonwoven fabric to one surface of the lower fabric;

Attaching a plurality of linear heating elements made of carbon fibers to the lower nonwoven fabric, and connecting electric wires to both ends of the linear heating element;

Attaching the upper nonwoven fabric on the lower nonwoven fabric so as to sandwich the linear heating element; And

And attaching the upper fabric to the upper nonwoven fabric.

In the present invention, the connection between the linear heating element and the electric wire is made by using a conductive paste at both ends of the linear heating element. The conductive paste may be a conductive paste containing silver.

In the present invention, the adhesion of the nonwoven fabric and the fabric can be carried out using a melting powder, and the adhesion between the nonwoven fabric and the linear heating element can be performed using an adhesive.

The heating pad according to the present invention is easy to manufacture using a linear heating element and has improved localized heating due to high heat dissipation. In addition, the bonding property between the linear heating element and the fiber is good, and the durability is excellent, and waterproofing is possible.

1 is a cross-sectional view illustrating a heat generating pad according to the present invention.
2 is a cross-sectional view showing a section taken along the line AA 'in FIG.
3 is a cross-sectional view showing a cross section of the waterproof heat generating pad according to the present invention.
FIG. 4 is a view showing a state in which a heating pad according to the present invention is attached to clothes.
FIG. 5 is a photograph (0.1 t) showing a state in which a lower nonwoven fabric is applied on a lower wool and a polyester or polyamide based powder of 80 to 200 micrometer is evenly spread on the wool,
6 is a photograph (0.1t) showing a state in which a polyester or polyamide-based bead type adhesive of 80 to 200 micrometers is evenly applied on the lower nonwoven fabric,
7 is a photograph of a polyurethane (100 micrometer) film arranged on a nonwoven fabric.
Fig. 8 is a photograph showing a case where a conductive resin paint is applied to both ends of a plurality of carbon (carbon) filament bundles to uniformly flow current to each filament to maximize the heat generating performance.
FIG. 9 is a photograph showing a state where both ends where a plurality of carbon (carbon) filament bundle conductive resin paints are applied and + and - of the DC input terminal are combined with filaments and insulated.
10 is a photograph showing a state in which the upper nonwoven fabric (polypropylene-based black sheet) is covered and the same powder is sprayed thereon.
Fig. 11 is a photograph showing a state in which the upper fabric (wool) is superimposed and the temperature of 110 to 130 DEG C is evenly distributed on the wool.
FIG. 12 is a photograph showing a state in which a waterproof fabric having a polyurethane coating formed on a completed heat generating pad is built up, and the waterproofing pad is manufactured to have a water resistance by being processed to a high frequency on the outside.
13 is a photograph showing a state in which the linear heating element is surrounded by a tunnel-shaped film encapsulating material.
14 is a view showing a linear heating element surrounded by a tunnel-shaped film encapsulating material. (a) a plan view, (b) a section along line AA '

The present invention will be described in detail through the following examples. The following examples are not intended to limit the invention but to illustrate the invention.

1 and 2, a heating pad 100 according to the present invention includes a lower fabric 110, a lower nonwoven fabric 120 attached to an upper surface of the lower fabric 100, And an upper fabric 140 attached to an upper surface of the upper nonwoven fabric 130 and a plurality of sandwiched portions sandwiched between the lower nonwoven fabric 120 and the upper nonwoven fabric 130. The upper non- And a plurality of electric wires 160 which are sandwiched between the lower nonwoven fabric 120 and the upper nonwoven fabric 130 and connected to both ends of the linear heating element 150.

The lower fiber fabric 110 and the upper fabric 140 were made of wool and the lower nonwoven fabric 120 and the upper nonwoven fabric 130 were made of polypropylene nonwoven fabric.

The linear heating element 150 is composed of about 1800 strands of the same length of carbon fibers 151. Here, the carbon fiber is an inorganic fiber composed of almost 100% carbon atoms and refers to a " fibrous carbon material having a fine graphite crystal structure ". That is, it is PAN-based carbon fiber produced by baking the pre-step fiber called precursor and leaving only carbon. Having a diameter of about 5㎛, 10 ^-1 ~ 10 ^- has a resistivity of ² Ω cm and. Both ends of the linear heating element 150 are connected to the electric wire 160 through a conductive paste 152 containing silver.

A bonding layer 170 is formed between the lower fiber fabric 110 and the lower nonwoven fabric 120. The bonding is carried out by applying a polyester or polyamide-based adhesive powder having a diameter of 80 to 200 micrometers on the surface of the lower fiber fabric 110, and pressing the same with a press while heating to fuse.

On the lower nonwoven fabric 120, fused polyurea films 171 having a thickness of 100 micrometers, which are cut in the form of strips, are arranged in parallel at predetermined intervals.

A conductive paste or a conductive resin paint is applied to both ends of the linear heating element 150, and the electric wire 160 is connected. The bonding layer 170 is formed by covering the upper nonwoven fabric 130 by applying the adhesive powder powder to the upper nonwoven fabric 130 and applying the adhesive powder powder onto the upper nonwoven fabric 130, Laminated and bonded. An adhesive layer 170 is formed between the upper nonwoven fabric 130 and the upper end 140.

The linear heating element 150 forms one bundle at both ends in contact with the electric wire, but may have various forms between the both ends. When the lower nonwoven fabric 120 is divided into two to 100 small bundles, the uniformity of heat generation can be enhanced and the bundle height is lowered, so that the bonding force between the lower nonwoven fabric 120 and the linear heating element 150, And the upper nonwoven fabric 130 are improved.

The electric wire protruding from the heat generating pad 100 is connected to the battery plug 230 or the battery connecting USB or the like, and is connected to the battery power source. The battery can use a low voltage of 5V.

As shown in FIG. 3, in order to provide a waterproof property for washing the heating pad 100 according to the present invention, a waterproof cloth 180 having a polyurethane coating is folded to put the heating pad 100 therebetween, And is heated by using a high frequency wave to manufacture the waterproof heating pad 200.

4, an arm valve 210 is attached to one surface of the waterproof heating pad 200, and a male ball 310 is formed on the inner surface of the garment 300. As shown in FIG. The cover 320 is formed on the inner surface of the garment 300 to prevent the waterproof heating pad 200 from directly contacting the user's body.

As shown in FIGS. 13 and 14, the linear heating element 150 is connected through a tunnel-type double film 151 made of a transparent PE film from the electric wire 160 to the electric wire.

100: heat pad
110: lower fabric
120: Lower nonwoven fabric
130: Upper nonwoven fabric
140; Upper fabric
150: Line heating element
160: Wires
170: bonding layer

Claims (6)

Lower fabric;
A lower nonwoven fabric attached to an upper surface of the lower monolayer;
An upper nonwoven fabric attached to an upper surface of the lower nonwoven fabric;
An upper fabric attached to an upper surface of the upper nonwoven fabric;
A linear heating element made of a plurality of carbon fibers sandwiched between the lower nonwoven fabric and the upper nonwoven fabric; And
And an electric wire connected to both ends of the linear heating element. The method according to claim 1,
Wherein the electric wire is connected to both ends of the linear heating element using a conductive paste or a conductive paint, and is fixed between the upper nonwoven fabric and the lower nonwoven fabric. The method according to claim 1,
Wherein the linear heating element forms one bundle at both ends in contact with the electric wire and is divided into 2 to 100 small bundles between both ends. The method according to claim 1,
Wherein the heat-generating pad is a water-proofing heat-generating pad having a water-resistant cloth adhered to the upper and lower surfaces of the heat-generating pad. A heat-generating garment having a water-resistant heat-radiating pad according to claim 4 attached to an inner surface thereof and covering the water-resistant heat-generating pad. The heating pad according to any one of claims 1 to 4, wherein the linear heating element is surrounded by a sealing film.

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