KR102304836B1 - Heating pad using a line-shaped carbon heating element and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a heating pad using a carbon heating element and a method for manufacturing the same, and more particularly, to a heating pad using a linear carbon heating element and a method for manufacturing the same.
The present invention heating pad is a lower fabric; a lower nonwoven fabric attached to the upper surface of the lower fabric layer; an upper nonwoven fabric attached to an upper surface of the lower nonwoven fabric; an upper fabric attached to the 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 wires respectively connected to both ends of the linear heating element.
The heating pad according to the present invention is easy to manufacture by using a linear heating element, and has improved local heating properties due to high heat dissipation. In addition, the bonding property between the linear heating element and the fiber is good, so it has excellent durability and is waterproof.

Description

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

The present invention relates to a heating pad using a carbon heating element and a method for manufacturing the same, and more particularly, to a heating pad using a linear carbon heating element and a method for manufacturing the same.

The carbon heating element that attaches to the textile fabric and induces heat in the textile fabric is largely divided into a linear heating element and a planar heating element.

The linear heating element has the advantage that it is easy to manufacture compared to the planar heating element, which requires a weaving process of carbon fibers, in that it can be used as it is by bundling thin carbon fibers with a diameter of 10 microns in a bundle.

However, compared to the planar heating element, the heating area is not wide, so the problem of local heating in which heat is generated only in the portion where the linear heating element is located in the textile fabric, that is, the textile fabric is not warm as a whole, only the place with the linear heating element is hot, and where there is no linear heating element A cold phenomenon occurs.

In order to solve this problem, a method has been developed by making the linear heating element in a bundle form and coating it with a special material, but this causes a problem that the covering body lowers the heating efficiency.

In addition, since the contact area between the linear heating element and the fabric is narrow, a problem of easy detachment is caused. In Korean Patent Publication No. 10-2017-125114, filed by Waryong Industrial Co., Ltd., a method of stably attaching the linear heating element to the fiber fabric by spraying hot melt in the molten state along the linear heating element made by twisting carbon fiber is disclosed. have. This improves adhesion durability, but does not solve the problem of localization of heat.

In addition, since the linear heating element consists of tens to hundreds of micro carbon fibers, there is a problem in that it is not easy to connect them to the electric wire, respectively. In addition, even if it is connected safely, the problem of being short-circuited easily during use remains.

An object to be solved in the present invention is to provide a heating pad having excellent bonding properties between a linear heating element and a fiber fabric.

* An object to be solved in the present invention is to provide a method for manufacturing a heating pad having excellent bonding properties between a linear heating element and a fiber fabric.

An object to be solved in the present invention is to provide a heating pad having excellent bonding properties between a linear heating element and a textile fabric and having high heating uniformity.

An object to be solved in the present invention is to provide a method for manufacturing a heating pad having excellent bonding properties between a linear heating element and a textile fabric and having high heating uniformity.

An object to be solved in the present invention is to provide a heating pad having excellent bonding properties between the linear heating element and the textile fabric, high heat uniformity, and high bonding stability between the linear heating element and the power line.

An object to be solved in the present invention is to provide a method for manufacturing a heating pad having excellent bonding properties between the linear heating element and the textile fabric, high heat uniformity, and high bonding stability between the linear heating element and the power line.

In order to solve the above problems, the heating pad according to the present invention is

lower fabric;

a lower nonwoven fabric attached to the upper surface of the lower fabric layer;

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

an upper fabric attached to the 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

It is characterized in that it includes wires respectively connected to both ends of the linear heating element.

Although not limited by theory, the nonwoven fabric attached to the inner side of the fiber fabric provides stable bonding of carbon fibers and causes heat transfer to the nonwoven fabric, thereby mitigating local heating.

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

In the present invention, the linear heating element is carbon fibers having the same length, preferably 500 to 3000 strands, more preferably 1,000 to 2,500 strands, even more preferably 1,500 to 2,000 strands of carbon fibers having the same length. made of

In the present invention, the linear heating elements form a bundle only in the portion connected to the electric wire to relieve local heating, and it is preferable to be dispersed without being bundled in other portions.

In the present invention, the linear heating element may be connected to one electric wire at both ends, and preferably, each carbon fiber is connected through a conductive paste so that it can be connected to the electric wire. In this embodiment 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-type two-layer film having both ends open and extending long and flat to increase waterproofness. The tunnel-type film may extend from the wire to which one end of the invention is connected to the wire to which the other end is connected.

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

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

In the present invention, the heating pad may additionally attach a waterproof cloth to the upper and lower surfaces of the fabric for waterproofing.

In the practice of the present invention, it may further include a cap for covering the jack to prevent the immersion of the jack.

In the present invention, one side of the Velcro is attached to the outer surface of the heating pad, and may be detachably coupled to the other side of the Velcro attached to the clothes.

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

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

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 amps with a voltage of 5V.

The present invention in one aspect,

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

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

covering and attaching the upper nonwoven fabric on the lower nonwoven fabric so that the linear heating element is sandwiched; and

Attaching the upper fabric on the upper non-woven fabric; provides a heating pad manufacturing method comprising a.

In the present invention, the connection between the linear heating element and the 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 may use a melting powder, and the adhesion of the nonwoven fabric and the linear heating element may use an adhesive.

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

1 is a cross-sectional view showing a cross section of a heating pad according to the present invention.
FIG. 2 is a cross-sectional view showing a cross-section taken along line AA′ of FIG. 1 .
3 is a cross-sectional view showing a cross-section of a waterproof heating pad according to the present invention.
4 is a view showing a state in which the heating pad according to the present invention is attached to clothes and used.
5 is a photograph showing a state in which the lower non-woven fabric is padded on the lower wool, and 80-200 micrometers of polyester or polyamide-based powder is evenly sprayed on the wool (0.1t )
6 is a photograph showing a state in which a polyester or polyamide-based 80-200 micrometer bead-type adhesive is evenly sprayed on the lower nonwoven fabric (0.1t )
7 is a photograph in which a polyurethane (100 micrometer) film is arranged on a nonwoven fabric.
8 is a photograph of maximizing the heating performance by applying a conductive resin paint to both ends of a plurality of carbon (carbon) filament bundles so that current flows evenly through each filament.
9 is a photograph showing a state in which + and - of a plurality of carbon (carbon) filament bundles, both ends to which conductive resin paint is applied, and + and - of the DC input terminal are combined with the filament 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.
11 is a photograph showing a state in which the upper fabric (wool) is stacked and a temperature of 110 to 130° C. is applied evenly on the wool.
12 is a photograph showing a state in which a waterproof fabric having a polyurethane coating on the inside is stacked on a finished heating pad and manufactured to have water resistance by high-frequency processing on the outside thereof.
13 is a photograph showing a state in which a linear heating element is surrounded by a tunnel-type film encapsulant.
14 is a view showing a linear heating element surrounded by a tunnel-type film encapsulant. (a) a plan view, (b) a cross-sectional view along line segment AA'

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

1 to 2, the heating pad 100 according to the present invention includes a lower fabric 110, a lower nonwoven fabric 120 attached to the upper surface of the lower fabric 100, and the lower nonwoven fabric ( The upper nonwoven fabric 130 attached to the upper surface of 120 , the upper fabric 140 attached to the upper surface of the upper nonwoven fabric 130 , and a plurality of sandwiched positions between the lower nonwoven fabric 120 and the upper nonwoven fabric 130 . The linear heating element 150 made of carbon fiber, and the wire 160 is sandwiched between the lower non-woven fabric 120 and the upper non-woven 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 polypropylene nonwoven fabrics.

The linear heating element 150 is made of about 1800 carbon fibers 151 of the same length. 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 a PAN-based carbon fiber that is manufactured in a way that only carbon is left by firing the fiber in the previous stage called a precursor. 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 . Bonding is performed by spraying and 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 then pressing it with a press to heat and fusion to bond.

On the lower nonwoven fabric 120 , a 100 micrometer thick polyurethane film 171 cut in a strip shape is disposed in parallel at predetermined intervals.

A conductive paste or conductive resin paint is applied to both ends of the linear heating element 150 , and the electric wire 160 is connected. After additionally applying the powder for adhesion, the upper nonwoven fabric 130 is covered and fused to form a bonding layer 170 , the adhesion powder powder is applied on the upper nonwoven fabric 130 , and the upper fiber fabric 140 is applied. laminated and glued. An adhesive layer 170 is formed between the upper nonwoven fabric 130 and the upper fabric 140 .

The linear heating element 150 forms one bundle at both ends in contact with the wire, but may have various shapes between both ends. When divided into 2 to 100 small bundles and arranged, the uniformity of heat generation can be increased like a planar heating element, and the height of the bundle is lowered, so that the bonding strength between the lower nonwoven fabric 120 and the linear heating element 150 and the lower nonwoven fabric 120 The bonding force between the and the upper nonwoven fabric 130 is improved.

The electric wire protruding from the heating pad 100 is connected to the battery plug 230 or a USB for battery connection, and is connected to the battery power source. The battery can use a voltage as low as 5V.

As shown in FIG. 3, in order to provide waterproofness so that the heating pad 100 according to the present invention can be washed, the polyurethane-coated tarpaulin 180 is folded and the heating pad 100 is placed therebetween, By heating using high frequency, the waterproof heating pad 200 is manufactured.

As shown in FIG. 4 , a female Velcro 210 is attached to one surface of the waterproof heating pad 200 , and a male Velcro 310 is formed and coupled to the inner surface of the garment 300 . A cover 320 is formed on the inner surface of the garment 300 to prevent the waterproof heating pad 200 from coming into direct contact with the user's body.

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

100: heating pad
110: lower fabric
120: lower non-woven fabric
130: upper non-woven fabric
140; upper fabric
150: line heating element
160: wire
170: bonding layer

Claims (6)

lower fabric,
A lower non-woven fabric attached to the upper surface of the lower fabric,
an upper nonwoven fabric attached to the upper surface of the lower nonwoven fabric;
The upper fabric attached to the 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
A heating pad including wires respectively connected to both ends of the linear heating element,
Here, an adhesive layer is formed between the lower fabric, the lower nonwoven fabric, the upper nonwoven fabric, and the upper fabric, respectively, and the linear heating element has a diameter of 1 to 50 μm and a predetermined length, and an electrical resistivity of 10 ^-1 to 10 ^-2 500 to 3,000 carbon fibers of Ω·cm are divided into 2 to 100 small bundles and arranged, both ends of the linear heating elements and the electric wire are connected through conductive paste, and the electric wire protrudes to the outside of the heating pad, respectively ;
a tarpaulin attached to the upper and lower surfaces of the heating pad; and
Waterproof heating pad comprising a battery power connected to the electric wire. According to claim 1,
The electric wire is connected to the conductive paste containing silver at both ends of the linear heating element, the waterproof heating pad, characterized in that the additional fixed by a fusible film between the upper nonwoven fabric and the lower nonwoven fabric. According to claim 1,
The linear heating element is a waterproof heating pad, characterized in that it is surrounded by a film encapsulant. [Claim 5] Heating garments, characterized in that the waterproof heating pad according to any one of claims 1 to 3 is attached to the inner surface and has a cover covering the waterproof heating pad.

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