KR101203900B1 - a keeping warm clothes - Google Patents

Abstract

PURPOSE: Heating clothes are provided to effectively obtain warmth-keeping effects due to thermal reflection and conduction functions. CONSTITUTION: Heating clothes comprise shell(1), liner(2), and an insulation layer(3) placed between the shell and liner. A first member made of an aluminium material and a second member made of a copper material cross each other on the surface of the liner facing a user. An accommodating unit is formed on one side of the liner to accommodate a heating body. The first member is prepared in the form of an aluminium wire. The second member is prepared in the form of a copper wire.

Description

Warm clothing {a keeping warm clothes}

The present invention relates to a thermal clothing, and more particularly to a thermal clothing provided to effectively exhibit the thermal effect according to the heat reflection action and the thermal effect according to the heat conduction action.

Recently, various types of thermal clothing have been introduced using heat reflection or heat generation of a heating element in order to further improve the thermal insulation effect, which is dependent only on the insulation layer, such as padding.

Insulating clothing using the double heat reflection action is to improve the warming effect by applying a material having excellent heat reflection effect, such as aluminum on the endothelial surface to reflect the heat emitted from the wearer's body back to the wearer.

In the case of thermal clothing using a heating element, a heating element is mounted on the endothelium so that the inside of the clothing can be heated by the heat of the heating element.

However, in the case of insulating clothing in which the aluminum material is entirely coated on the inner surface of the double inner skin, moisture such as sweat generated from the human body of the wearer is blocked by the aluminum material, so that it is unlikely to be discharged to the outside. Loss of heat inside the clothing had a problem that the thermal effect is reduced.

In addition, in the case of the warm clothing provided to warm the inside of the clothing by the heat emitted from the heating element, there was a limit in transferring the heat of the heating element to a position far from the heating element.

The present invention is to solve this problem, it is an object of the present invention to provide an insulating clothing provided to effectively exhibit the thermal effect according to the heat reflection action and the thermal effect at the same time.

To this end, the insulating clothing according to the present invention includes an outer skin, an inner skin, and an insulating layer provided between the inner skin and the outer skin, wherein the inner surface facing the wearer has a first material of aluminum and a second material of copper. It is provided so as to cross, at least one side of the endothelial is characterized in that the receiving portion is provided to accommodate the heating element in contact with the first or second grid.

The first material is provided in the form of aluminum wire, the second material is characterized in that it is provided in the form of copper wire.

The aluminum wire forms a first grid, the copper wire forms a second grid, and the first grid and the second grid are provided to cross each other.

The aluminum wire and the copper wire are provided in the form of a thin metal foil, characterized in that the coating on the endothelial surface.

The aluminum wire is provided in the form of a thin metal foil is coated on the endothelial surface, the copper wire is provided in the form of a fabric containing copper yarn is characterized in that it is sewn on the endothelial surface.

The aluminum wire is characterized in that it is arranged in the form of a grid crossing the copper wire.

The first material is provided in the form of a plurality of aluminum dots arranged to be spaced apart from each other, the second material is characterized in that provided in the form of a plurality of copper wires intersecting with each other through the aluminum dot.

The copper wires are arranged in a lattice form in which the aluminum dots are arranged at the intersections.

The accommodating part is provided in a bag shape in which one side forms an opening through a cloth having a predetermined size sewn on the endothelial surface except for one side, and the accommodating part is sewn on the endothelial between the first and second materials. It is characterized by.

The fabric forming the accommodating portion may be elastically woven including the elastic yarn so that the accommodating portion elastically adheres the heating element toward the endothelial surface.

The first material is further provided in a lattice form on the outer surface of the receiving portion, and the second material is further provided in a lattice form on the inner surface of the receiving portion.

As described above, insulated clothing according to the present invention, the heat emitted from the human body of the wearer is reflected and preserved toward the wearer through the heat reflecting action of the first material, the heat of the heat conductor to the second material and the first material Since it is directly conductive to the endothelium through the heat reflection action of the first material and the heat conduction action of the first and second materials it is possible to more effectively improve the heat insulation effect of the warm clothing.

In addition, since the warm clothing according to the present invention enables moisture such as sweat generated from the body of the wearer to be smoothly discharged to the outside through the first and second materials, heat inside the clothing due to moisture inside the warm clothing The loss can also be effectively prevented.

Figure 1 shows the structure of the warm clothing according to a first embodiment of the present invention, showing the structure of the warm clothing in the unfolded state before the sewing operation is performed.
Figure 2 shows the structure of the warm clothing according to the first embodiment of the present invention, showing the structure of the sewing operation is completed in the state of FIG.
Figure 3 shows a cross-sectional structure of the insulating clothing according to the first embodiment of the present invention.
Figure 4 is an enlarged view of the main portion of the endothelial surface in the insulating clothing according to the first embodiment of the present invention.
5 is an enlarged view of the main portion of the endothelial surface in the insulating clothing according to the second embodiment of the present invention.
6 is an enlarged view of the main portion of the endothelial surface in the thermal garment according to the third embodiment of the present invention.
7 is an enlarged view of the structure of the insulating clothing container according to the fourth embodiment of the present invention.

Next will be described in detail with reference to the accompanying drawings, the structure of the insulating clothing according to a first embodiment of the present invention.

Figure 1 shows the structure of the insulating clothing according to the present embodiment unfolded in the form of a developed view before the sewing operation is performed, Figure 2 shows the insulating clothing structure of the sewing operation is completed. Figure 3 shows a cross-sectional structure of the insulating clothing according to the present embodiment, Figure 4 is an enlarged view of the main portion of the endothelial surface.

For reference, the thermal clothing of the present embodiment has been described as an example of a jacket provided in the form of a vest for convenience of description, but in the present invention, the thermal clothing includes both a jumper-type top and a pants-type bottom or a top and bottom all-in-one type.

As shown in Figures 1 to 4, the insulating clothing comprises a shell (1) and the endothelium (2), and a heat insulating layer (3) interposed between the shell (1) and the endothelium (2).

The outer shell 1 may be formed through a laminating fabric or a coating fabric to effectively prevent the wind, etc. The inner shell 2 may be provided through a material such as cotton to easily absorb sweat or the like. And the heat insulating layer (3) is provided with a normal padding, etc. to block the temperature movement between the inside and outside of the warm clothing.

Insulating clothing has a pair of front cover parts (4,5) provided to cover the front of the wearer's body by parts, and a rear cover connected to the front cover parts (4,5) on both sides to cover the back of the wearer's body. The part 6 is provided.

Each front cover portion (4, 5) is connected to each other detachable through a zipper (4a) formed on one end of the front cover portion 4, the outer circumference of the bottom of the warming clothing that the cold air is introduced into the warming clothing In order to block the fastening part 7 is provided in the form of an elastic strip. The front and rear cover portions 4, 5, and 6 may be coupled to each other through a stitched state in a separately manufactured state.

On the other hand, as shown in detail in Figure 4, the endothelial (2) surface facing the wearer in such a warm clothing, the first grid 10 provided with aluminum wire 11 of aluminum material as a first material, and As the second material, the second grid 20 provided with the copper wire 21 of copper material is provided to cross each other, and at least one side of the endothelium 2 includes the heating element 30 on the first or second grid 10. Receiving portion 40 is provided to accommodate in the state in contact with 20. For reference, in the drawing, the copper wire 21 forming the second grid 20 was treated as an imaginary line so as to be clearly distinguished from the aluminum wire 11 forming the first grid 10.

First of all, the first material provided with the first lattice 10 made of aluminum reflects heat radiated from the wearer's body back to the wearer by using the heat reflection effect of aluminum, thereby suppressing the radiating of the heat of the human body to the outside. It will perform the function.

In the second material provided with the second grid 20 made of copper, the heat of the heating element 30 is directly conducted to the endothelium 2 by using the thermal conduction effect of copper, so that the heat of the heating element 30 is more directly. To be delivered to the wearer's side. In addition, the second grid 20 also serves to effectively transmit heat emitted from the heating element 30 to a position far from the heating element 30 along the second grid 20.

The aluminum wires 11 and the copper wires 21 forming the first and second grids 10 and 20 are preferably provided in the form of a thin metal foil so as to increase the heat reflection area and the heat conduction area. The aluminum wire 11 and the copper wire 21 may be simply coated on the surface of the endothelium 2 by a simple method such as adhesion. In the case of the copper wire 21, the copper wire 21 is provided in the form of a fabric containing copper yarn. It may be sewn on the surface.

The first and second grids 10 and 20 so that the heat reflection effect by the first grid 10 and the heat conduction action of the heating element 30 by the second grid 20 can be exerted evenly throughout the endothelium 2. ) Is preferably formed as a whole on the outer inner endothelium (2).

In this way, the insulating clothing, which is formed through the first and second grids 10 and 20 arranged to cross the structure of performing the heat reflection and performing the heat conduction, crosses each other. Since it can be discharged to the outside through the endothelium (2) between the first and second grid (10, 20), it is also possible to effectively prevent the loss of heat in the clothing due to moisture in the clothing.

In addition, in the state where the first and second grids 10 and 20 are formed on the surface of the endothelial 2, the slack of the endothelial 2 provided with the cloth is suppressed through the first and second grids 10 and 20. Even if the warm clothing is worn for a long time, it is possible to effectively prevent the endothelial 2 from stretching.

In addition, in a state where the first grid 10 and the second grid 20 are provided to intersect, the first grid 10 assists the heat conduction of the second grid 20 to heat the inside of the warm clothing. The corners can be more evenly transmitted, and the second grid 20 can assist the heat reflection of the first grid 10 to more effectively preserve heat inside the warm clothing. The first and second grids 10 and 20 may be connected to each other in a state in which the aluminum wire 11 and the copper wire 21 overlap each other.

In addition, the heating element 30 is provided to generate heat using a power source, but may be used in various forms such as a self-heating element that is sealedly packaged inside the sealed container and heats for a predetermined time according to contact with external air when the sealed container is opened. have.

The heating element 30 is provided in the receiving portion 40 is provided to accommodate the inner side of the bag through the cloth 40A of a predetermined size is sewn on the surface of the endothelial 20 except for one side of the pocket to form an opening It is provided in a form to accommodate the heating element 30 therein. The heating element 30 and the receiving portion 40 are disposed in pairs respectively installed inside the front cover portions 4 and 5 so that the heat of the heating element 30 can be more evenly transmitted to the entire surface of the endothelium 2.

 In this case, the sewing line formed when the receptacle 40 is sewn on the endothelium 2 does not cause a heat reflection effect of the first lattice 10 to be inhibited or a heat conduction action of the second lattice 20 to be inhibited. The receiving portion 40 is preferably provided to be sewn on the endothelium 2 between the aluminum wire 11 and the copper wire 21 corresponding to the first and second grid 10, 20.

The accommodating part 40 includes the heating element 30 accommodated therein so that the heat of the heating element 30 can be more effectively transmitted to the first and second lattice 10, 20. 20) is preferably provided to be elastically in close contact, for this purpose, the fabric (40A) forming the receiving portion 40 is preferably used to include a woven fabric including an elastic yarn to have an elastic force, the heating element ( The receiving part 40 has the heating element 30 outside the receiving part 40 so that the elastic action of the receiving part 40 which closely adheres the 30 toward the first and second grids 10 and 20 can be made more desired. It is preferable that the gap between the inner surface of the accommodating part 40 and the surfaces of the first and second grids 10 and 20 inside the accommodating part 40 in the drawn state is smaller than the thickness of the heating element 30.

Therefore, when wearing the warm clothing configured as described above, and put the heating element 30 in the receiving portion 40, the heat emitted from the wearer's body through the heat reflection action of the first and second grids (10, 20) Reflected and preserved toward the wearer, the heat of the heating element 30 is transmitted to the endothelium 2 as a whole through the second grid 20 and the first grid 10, the heat of the first and second grids (10, 20) Through the reflecting action and the heat conduction action of the first and second grids 10 and 20, the warming effect of the warming clothes can be more effectively improved.

In this case, since moisture such as sweat generated from the wearer's body can be smoothly discharged to the outside of the clothing through the first and second grids 10 and 20, heat inside the clothing due to moisture in the warm clothing, etc. The loss can also be effectively prevented.

On the other hand, as shown in Figure 5 the structure of the insulating clothing endothelial (2) surface according to the second embodiment of the present invention, the first material and the second material in the present invention only the first material of the aluminum wire (11) ) And the second material may be provided with a plurality of copper wires 21 disposed only in one direction to cross the aluminum wires 11. In the present embodiment, although the copper wire 21 is disposed in the horizontal direction, the copper wire may be arranged in the longitudinal direction or the diagonal direction.

In addition, as shown in Figure 6 the structure of the insulating clothing endothelial surface according to a third embodiment of the present invention, the first material in the present invention is provided in the form of a plurality of aluminum dots (11 ') arranged to be spaced apart from each other and the second The material may be provided in the form of a plurality of copper wires 21 crossing each other through aluminum dots. In this case, the copper wire 21 has a lattice shape in which an aluminum dot 11 'is disposed at an intersection portion.

In the second embodiment, the number of the aluminum wires 11 is relatively higher than that of the copper wire 21, and in the third embodiment, it is advantageous to increase the area of the first material provided in the form of dots. In the case of the third embodiment, it is more suitable to increase the heat reflection effect by the first material than in the first embodiment.

Preferably, the first material is preferably provided to occupy about 50 to 70% of the total endothelial area, and the second material is preferably provided to occupy about 5 to 10% of the total endothelial area.

In addition, as shown in Figure 7 is shown the receiving portion 40 'of the insulating clothing according to the fourth embodiment of the present invention, the aluminum wire 51 of the aluminum material as the first material on the outer surface of the receiving portion 40' in the present invention; The third grid 50 may be provided, and the fourth grid 60 may be further provided on the inner surface of the accommodating part 40 ′ as a second material.

As such, when the third grid 50 provided with the aluminum wire 51 and the fourth grid 60 provided with the copper wire 61 are formed on the outer surface and the inner surface of the accommodation portion 40 ', the third grid 50 is formed. In the case of), the heat reflection area is increased to further improve the heat reflection effect toward the endothelial 2, and the fourth grid 60 has the heat of the heating element 30 being the second grid 20 outside the receiving portion 40 '. To be more effectively communicated.

The copper wire 61 of the fourth grid 60 is connected to the copper wire 21 of the second grid 20 so that the heat transferred to the fourth grid 60 can be easily conducted directly to the second grid 20. It is desirable to be.

In the case of the third and fourth grids 50 and 60, the first and second grids 10 and 20 may be formed in the same form and may be coated on the inner and outer surfaces of the cloth 40A ′ forming the receiving portion in the same manner. The detailed description thereof will be omitted.

1: outer shell 2: inner shell
3: insulation layer 10: first lattice
20: second grid 30: heating element
40: accommodating part 50: third grid
60: 4th grid 11, 51: aluminum wire
21,61: copper wire

Claims (11)

In the heat insulating clothing comprising an outer shell, an inner shell and an insulation layer provided between the inner shell and the outer shell,
The endothelial surface facing the wearer is provided to cross the first material of aluminum and the second material of copper,
At least one side of the endothelial warm clothing, characterized in that the receiving portion is provided to accommodate the heating element in contact with the first or second grid. The method of claim 1,
The first material is provided in the form of aluminum wire, the second material is insulated clothing, characterized in that provided in the form of copper wire. The method of claim 2,
The aluminum wire forms a first lattice, the copper wire forms a second lattice, and the first lattice and the second lattice are arranged to cross each other. The method of claim 3, wherein
The aluminum wire and the copper wire is provided in the form of a thin metal foil, insulating clothing, characterized in that the coating on the endothelial surface. The method of claim 3, wherein
The aluminum wire is provided in the form of a thin metal foil is coated on the endothelial surface, the copper wire is provided in the form of a fabric containing copper yarn is insulated on the endothelial surface. The method of claim 2,
The aluminum wire is a warm clothing, characterized in that arranged in the form of a grid crossing the copper wire. The method of claim 1,
The first material is provided in the form of a plurality of aluminum dots disposed so as to be spaced apart from each other, the second material is a warm clothing, characterized in that provided in the form of a plurality of copper wires cross each other through the aluminum dot. 8. The method of claim 7,
The copper wire is thermal insulation clothing, characterized in that arranged in the lattice form the aluminum dot is arranged at the intersection. The method of claim 1,
The accommodation portion is provided in the form of a bag forming an opening on one side through a cloth of a predetermined size sewn on the surface of the endothelial except for one side,
Insulating clothes, characterized in that the receiving portion is sewn on the endothelium between the first and second materials. The method of claim 9,
And the fabric forming the accommodating portion so that the accommodating portion elastically adheres the heating element toward the endothelial surface is woven including elastic yarn. The method of claim 1,
The first material is further provided in a lattice form on the outer surface of the receiving portion, the second material is warm clothing, characterized in that further provided in a lattice form on the inner surface of the receiving portion.

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