KR20200045936A - Assembled planar heating sheet - Google Patents

Abstract

The present invention relates to a planar heating sheet assembly comprising: a heating sheet formed by weaving metallic heating fibers in an area, thickness, and size set in advance; a first connector part provided at both ends of the heating sheet; an electrode part connected to the first connector part and connected to an external power source; and a resin layer covering the upper side and the lower side of the heating sheet and the first connector part respectively, to protect the surfaces of the heating sheet and the first connector part. When the resin layer covers the heating sheet and the first connector part, the upper resin layer and the lower resin layer may be fused to each other after being protruded from each edge.

Description

Planar heating sheet assembly {Assembled planar heating sheet}

The present invention relates to a planar heating sheet assembly, and more particularly, to a planar heating sheet assembly that can be applied to various sizes of outer garments by constructing an elastic part having a length adjustment.

In general, the heating element is divided into a linear heating element made of a metal or ceramic wire, a bulk heating element such as graphite, and a planar heating element coated with a heating element in a film on a flat electrode. Among these, the planar heating element is coated with a metal, ceramic, or carbon-based heating layer on a flat metal electrode, and has a structure in which upper and lower portions of the heating layer are sealed with an insulator. Recently, there is a need to manufacture such a planar heating element so as to have a curved shape rather than a flat surface or to flexibly bend during use.

However, since the flexibility of the substrate with the planar heating element is insufficient and the flexibility of the heating material coated on the substrate is limited, cracking or performance degradation occurs when fabricating with flexibility. In addition, in the conventional planar heating element, the heating material is brittle and easily broken or a problem occurs in the heating property when the heating material is filled inside using a mesh-like substrate. For example, in the case of a carbon-based electrode expected as a planar heating element, it is oxidized at a high temperature and brittle, so it is not easy to use for a long time due to a problem of cracking due to impact. In addition, when the far-infrared ceramic-based heating element is made by coating on a metal substrate, there is a limit to the bending of the ceramic heating element, and thus it cannot be used when the plane heating element has a large bending.

In order to overcome this, a technique is known in which a motorized material is made into a line to manufacture a planar heating element by weaving it. As described above, a conventional planar heating element manufactured by weaving is a general fiber and a metal fiber, as disclosed in Korean Patent Publication No. 10-2008-0090068 (Patent Document 1: Planar heating element and its physical structure and manufacturing method). The invention of weaving a planar heating element using a twisted weaving thread is known.

However, since the conventional techniques as described above can not weave the metal itself, the general fiber and the metal fiber are twisted together to produce a weaving thread or after coating a metal on the surface of a non-conductive polymer thread, and then weaving it to produce a planar heating element. To prepare. However, when weaving the planar heating element in this way, the planar heating element is not only flexible, but also has a problem in that the manufacturing process is complicated and the manufacturing cost increases.

Republic of Korea Patent Publication No. 10-2008-0090068 (2008.10.08. Published)

The present invention has been devised to solve the above problems, and provides a planar heating sheet assembly including a metallic woven fabric that allows heat generation in a limited temperature range and is partially installed and applied in response to various clothes. It has a purpose.

In addition, an object of the present invention is to provide a planar heating sheet assembly that can be easily applied to clothing of various sizes by configuring a length adjusting unit capable of adjusting a length in a heating element.

The present invention for achieving the above object, the heating sheet to be formed by weaving the metallic heating fiber to a predetermined area, thickness and size, a first connector portion provided at each end of the heating sheet, and the first It includes; 1 electrode connector that can be connected to an external power supply connected to the connector portion, and the resin layer covering the upper and lower sides of the heating sheet and the first connector portion to protect the surfaces of the heating sheet and the first connector portion; , When the resin layer covers the heating sheet and the first connector portion, the upper resin layer and the lower resin layer may be fused to each other after protruding from each edge.

In addition, the first connector portion may include a metal film that covers the end portion of the heating sheet and a portion of the electrode portion to electrically connect the heating sheet and the electrode portion.

In addition, a welding member may be further provided between the first connector portion and the metal film by melting at high temperature and high pressure to fill a space between the first connector portion and the metal film.

In addition, the electrode portion may further include a temperature sensor that protrudes over the length of the end of the electrode portion to reach the heating sheet to measure the temperature at the tip position of the heating sheet.

In addition, the heating sheet may be configured by being divided into two or more, and may include a length adjusting unit for adjusting the length of the heating sheet while electrically connecting the divided heating sheets.

In addition, the length adjusting unit is connected between the divided heating sheet, and is formed in the elastic member in the same shape as the elastic member and the elastic member formed in a wavy shape of a predetermined length so as to adjust the length, and the division It comprises a wiring portion for electrically connecting between the heat dissipation sheet, and a second connector portion provided between both ends of the elastic member and the end of each divided heating sheet to electrically connect the heating sheet and the plurality of wiring parts. You can.

According to the present invention, the area of the heating sheet is positioned at a location desired by a user among all clothing so that the body is attached to the clothing, and the electrode part is electrically connected to the power supply through the portion of the clothing that has already been set. Or accordingly, it changes flexibly in response to the shape deformation of the garment, and there is an effect of protecting the human body by forming and maintaining the temperature at a desired level in the corresponding area.

In addition, by configuring the length adjusting portion for adjusting the length of the heating sheet, it can be applied to clothes of various sizes, so that the product does not need to be configured in various ways depending on the size of the clothes, thereby improving the usability of the product and unit cost Can also save.

1 is an exploded perspective view showing a part of the arrangement structure between the heating sheet and the resin layer in the planar heating sheet assembly according to the first embodiment of the present invention.
Figure 2 is a plan view showing a planar heating sheet assembly according to the first embodiment of the present invention.
3 and 4 are cross-sectional views showing the structure of the connector portion of the planar heating sheet assembly of FIG. 2.
5 is a plan view showing a planar heating sheet assembly according to a second embodiment of the present invention.
Figure 6 is a cross-sectional view showing the structure of the length adjustment portion of the planar heating sheet assembly of Figure 5;
7 is a view showing a garment to which the planar heating sheet assembly of FIG. 5 is applied.

The terms or words used in the specification and claims are not to be construed as being limited to a conventional or lexical meaning, but the inventors may properly define the concept of terms in order to best describe their own invention in the best way. It can be interpreted as meaning and concept in accordance with the technical idea of the present invention based on the principle of 'can be.'

In addition, the configuration shown in the embodiments and drawings described in this specification is only a preferred embodiment of the present invention, and does not represent all of the technical spirit of the present invention, and can replace them at the time of this application. It should be understood that there may be various equivalents and variations.

1 is an exploded perspective view showing a part of the arrangement structure between the heating sheet and the resin layer in the planar heating sheet assembly according to the first embodiment of the present invention, and FIG. 2 is planar heating according to the first embodiment of the present invention 3 and 4 are cross-sectional views showing the connector structure of the planar heating sheet assembly of FIG. 2.

1 to 4, the planar heating sheet assembly according to the first embodiment of the present invention has a high level of tensile strength, electrical conductivity, and resistance while being in the form of a fiber, including the metallic heating fiber described in the prior art. It may be configured to include a sheet-shaped heating sheet 12 formed by a normal weaving method using a metal or metallic fiber made.

The heating sheet 12 may be configured with an already set area, thickness, and size. The heating sheet 12 may be determined to correspond to the size of each part based on the body size of the person so that it can be applied to the clothes of the person. The heating sheet 12 may be formed to have different predetermined areas, thicknesses, and sizes so as to correspond to the sizes of the garments. The heating sheet 12 may be configured to have limited conditions for the shape of clothes, etc. in relation to a worker's work clothes working in a cold place or worn in places such as polar regions. For example, the heating sheet 12 may be formed in a rectangular shape having a predetermined length, as shown in FIG. 2.

The heating sheet 12 may include first connector portions 18 on both ends in the longitudinal direction among the four edges. The first connector portion 18 is a form of a connecting portion that allows the heating sheet 12 to be connected to an external power source. Each of the first connector portions 18 on both sides may be provided with electrode portions 22 connected to external power sources.

On the other hand, the heating sheet 12 is the first connector portion 18 provided on both the upper and lower surfaces, and corresponding to the external physical action, the heating sheet 12 and the first connector portion 18 are damaged. A resin layer 14 that can cover the front surface of the heating sheet 12 and the first connector portion 18 may be provided to prevent it. The resin layer 14 may be formed by covering a part of the electrode portion 22 connected to the first connector portion 18 so as to completely cover the first connector portion 18.

When the resin layer 14 covers the heating sheet 12 and the first connector portion 18, the upper and lower sides of the heating sheet 12 and the upper and lower sides of the first connector portion 18 may be covered, respectively. At this time, the resin layer 14 covering each of the upper and lower sides may be formed by overhanging the edges of the heat generating sheet 12 and the edges of the first connector portion 18 and then welding the protruding parts to each other by fusing each other. . Therefore, the heating sheet 12 and the first connector portion 18 can be completely covered with the upper and lower surfaces by the resin layer 14.

In addition, the first connector portion 18 further includes a metal film 24 on the upper and lower facing surfaces corresponding to the heating sheet 12 and the electrode portion 22. That is, the metal film 24 may be configured to cover a part of the end of the heating sheet 12 and a part of the end of the electrode part 22 so that the heating sheet 12 and the electrode part 22 can be electrically connected. .

The metal film () is formed in a thin thin film form, and may be formed of a material such as copper, aluminum, chromium, nickel, and the like, but is not limited to this. You can.

In addition, a welding member 20 may be further provided on the opposite surface of the first connector portion 18 to fill the space between the opposite surfaces by melting by high temperature and high pressure with a larger area than the metal film ().

In addition, the surface of the first connector portion 18 or the partial surface of the electrode portions 22a and 22b may further include a coupling portion (not shown) that allows the coupling to be made in response to proximity to other fabrics.

Such a coupling portion, as commonly known as velcro, may be made to have a hook-like portion while one side is dragged, and a surface opposite to it may be made soft or have a ring-shaped portion, or the like, so that mutual coupling is achieved, or It may be made of an adhesive or a double-sided adhesive tape.

And this coupling portion is to maintain or form the temperature for the site to a certain level by attaching the surface heating sheet assembly 10 including the metallic woven fabric according to the present invention to a surface of a fabric covering a person or a specific facility.

The electrode portion 22 is installed at the end of the electrode portion 22 so as to be connected to other electrical supply means, a conventional connector (not shown) is installed.

In addition, the electrode portions 22a and 22b may further include a separate temperature sensor 24 as illustrated in FIG. 3. The temperature sensor 24 is formed so that the end portion is formed larger than the electrode portions 22a and 22b to protrude beyond the end portion of the electrode portion to contact or approach the tip of the heating sheet 12 to measure the temperature of the heating sheet 12. It is desirable.

It is natural that the temperature sensor 24 applies the measured temperature to a controller (not shown) provided in a power supply (not shown) or the like so that the controller can control power supply to the heating sheet 12.

5 is a plan view showing a planar heating sheet assembly according to a second embodiment of the present invention. 6 is a cross-sectional view showing the structure of the length adjusting portion of the planar heating sheet assembly of FIG. 5. 7 is a view showing a garment to which the planar heating sheet assembly of FIG. 5 is applied.

5 and 7, the planar heating sheet assembly according to the second embodiment of the present invention includes a heating sheet 12 formed by weaving a metal heating fiber to an area, thickness, and size already set, and a heating sheet A first connector portion 18 that electrically connects to both ends of the 12, an electrode portion 22 connected to the first connector portion 18, a heating sheet 12, and a first connector portion 18 ) Comprises a resin layer 14 covered to protect, but is provided in the middle of the heating sheet 12 to divide the heating sheet 12 while being configured to be stretchable to adjust the length of the heating sheet 12. It can be configured to further include (30).

The heating sheet 12 is formed in the same form as the heating sheet 12 in the first embodiment of the present invention, and may be divided into two or more by a length adjusting unit 30 to be described later. The heating sheet 12 in the second embodiment of the present invention will be described as an example that is divided into two by one length adjusting unit 30 as shown in FIG. 6.

The first connector portion 18 and the electrode portion 22 are the same as the first connector portion 18 and the electrode portion 22 in the first embodiment of the present invention, and detailed descriptions thereof will be omitted.

The length adjusting unit 30 is stretchable so that it can be stretched or returned to its original state, and the side cross-section can be formed in a wavy shape. That is, the length adjusting unit 30 may be configured in a form of a wave shape when the heat (tensile force) is not applied to the heat generating sheet 12 and then extends when the force (tensile force) is applied.

The length adjusting part 30 is connected between the divided heating sheets 12 and is composed of a stretching member 31 of a certain length in a wave form so as to be adjustable in length, and a wave form in the stretching member 31, the heating sheet ( A heating portion 32 arranged in the longitudinal direction of 12 to electrically connect the divided heating sheet, and provided between both ends of the expansion and contraction member 31 and the ends of each divided heating sheet 12, the heating sheet 12 And a second connector unit 33 electrically connecting a plurality of wires.

The expansion and contraction member 31 is formed to have the same width as the heating sheet 12, and is formed in a wavy shape as a part for adjusting the length of the heating sheet 12, and may be configured to have a length when expanded. The stretching member 31 may be formed of fabric, vinyl, silicone, or the like.

The wiring part 32 is formed together in the expansion and contraction member 31, and is formed in the same wavy shape as the expansion and contraction member 31 and configured to increase in length when unfolded. The wiring part 32 may be formed of a material that allows electricity to be electrically connected between the divided heating sheets 12.

The second connector part 33 is provided between the ends of the heating sheet 12 facing each other in the divided heating sheet 12 and both ends of the length adjusting part 30 to provide the heating sheet 12 and the wiring part 32. It can be connected electrically.

The second connector portion 33 is formed of a current-carrying material that faces the heating sheet 12 and is in direct contact with the wiring portion 32 and the heating sheet 12, so that the wiring portion 32 and the heating sheet ( 12) It is configured to electrically connect between them.

The second connector part 33 may be configured to have a separate metal film that conducts electricity on a surface facing the heating sheet 12 so that the wiring part 32 and the heating sheet 12 are in contact and electrically connected.

The resin layer 14 may cover the upper side and the lower side of the length adjusting portion 30 so as to protect the length adjusting portion 30 as well as covering the divided heating sheet 12. When the resin layer 14 covers the length adjusting portion, the resin layer 14 is provided to protrude to both sides of the length adjusting portion 30, the length when the upper resin layer 14 and the lower resin layer 14 are fusion-bonded Like the side cross-section of the adjustment unit 30 may be formed by fusion in a wavy shape.

10: planar heating sheet assembly
12: heating sheet 14: resin layer
16: Metal film 18: First connector part
20: welding member 22: electrode portion
24: temperature sensor
30: length adjustment
31: expansion and contraction member 32: wiring part
33: second connector unit

Claims (6)

A heating sheet formed by weaving the metallic heating fibers in an already set area, thickness, and size;
A first connector portion provided at both ends of the heating sheet;
An electrode portion connected to the first connector portion and connected to an external power source;
Includes; the resin layer covering the upper and lower sides of the heating sheet and the first connector portion, respectively, to protect the surfaces of the heating sheet and the first connector portion.
When the resin layer covers the heating sheet and the first connector portion, the surface heating sheet assembly may be configured to fuse the upper resin layer and the lower resin layer to each other after protruding from each edge. The method according to claim 1,
The first connector portion,
A planar heating sheet assembly further comprising a metal film covering the end portion of the heating sheet and a portion of the electrode portion to electrically connect the heating sheet and the electrode portion. The method according to claim 2,
Between the first connector portion and the metal film is melted by high temperature and high pressure can be further provided with a welding member to fill the space between the connector portion and the metal film, a planar heating sheet assembly. The method according to claim 1,
The electrode portion protrudes more than the end of the electrode portion to reach the heating sheet further comprises a temperature sensor for measuring the temperature of the tip position of the heating sheet, a planar heating sheet assembly. The method according to claim 1,
The heating sheet,
It is composed of two or more divided, and comprises a length adjusting unit for adjusting the length of the heating sheet while electrically connecting between the divided heating sheets, the planar heating sheet assembly. The method according to claim 5,
The length adjustment unit,
A stretching member connected between the divided heating sheets and formed in a wavy shape of a predetermined length to adjust the length;
A wiring unit configured in the stretching member in the same shape as the stretching member and electrically connecting the divided heat dissipation sheets;
A planar heating sheet assembly comprising a second connector part provided between both ends of the elastic member and the end of each divided heating sheet to electrically connect the heating sheet and the plurality of wiring parts.

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