KR200462583Y1

KR200462583Y1 - Adiabatic bedquilt

Info

Publication number: KR200462583Y1
Application number: KR2020110008264U
Authority: KR
Inventors: 권수향
Original assignee: 권수향
Priority date: 2011-09-09
Filing date: 2011-09-09
Publication date: 2012-09-17

Abstract

The thermal insulation blanket 100 according to the present invention, in the blanket 100 is configured to include a fabric paper 110 to cover the body, the heat reflection layer 140 attached to the fabric paper 110, and the heat reflection layer 140 And a crack 147 formed on the fabric paper 110 to expose the fabric paper 110, the radiant heat (h) generated by the body is reflected by the heat reflection layer to stay between the body and the thermal insulation blanket (100), thereby radiating the heat (h) ) Can be prevented from leaking to the outside. Therefore, there is an effect that can warm the interior of the thermal insulation blanket 10 only by the heat of the body even without heating.

Description

Insulated Quilt {Adiabatic bedquilt}

The present invention relates to a thermal insulation blanket, and more particularly, a heat reflection sheet is configured on the blanket, and not only can be insulated, but also relates to a thermal blanket, which can also communicate air.

Quilt (1) is a kind of bedding covered to maintain the body temperature at bedtime is formed so as to cover the body with textile paper.

The duvet 1 includes, as in FIG. 1, an endothelial 10 containing the heat insulating material 30 and an outer skin 20 receiving the endothelial 10. And, the heat insulating material 30 mainly uses cotton. The endothelial 10 and the outer shell 20 are sewn on the rim in a state where the fabric paper is overlapped in a double, the receiving space is formed therein to accommodate the endothelial 10 or the heat insulating material (30).

Alternatively, as shown in FIG. 2, a sheath 20 that is a fabric paper for accommodating the heat insulating material 30 is configured. The outer shell 20 is sewn on the rim in a state where the fabric paper is overlapped in a double is formed in the receiving space to accommodate the heat insulating material (30).

Alternatively, as shown in FIG. 3, the outer shell 20 is formed to overlap and is sewn on the edge portion.

Alternatively, the outer shell 20 may be composed of a single piece of woven paper as in FIG. 4.

According to the prior art, since it is composed of only a heat insulating material or fabric such as woven paper and cotton, when the blanket is covered, moisture generated between the blanket and the body is discharged to the outside, and outside air passes through the blanket and flows between the blanket and the body. It may be comfortable, but there was a problem that the radiant heat emitted from the body is leaked to the outside. In particular, the difference between the temperature between the futon and the body, and the temperature outside the futon in the winter, there is no choice but to lose a lot of thermal energy. Therefore, by raising the temperature of the boiler, such as raising the temperature of the boiler, or by heating the electric yoke to the floor, it is possible to keep the body warm, there is a problem that the heating cost in winter is burdensome.

Therefore, an object of the present invention is to provide a thermal insulation blanket configured to reduce the heating cost burden by insulating the body temperature as much as possible when covering the blanket.

The thermal insulation blanket according to the present invention includes a fabric paper to cover the body, and includes a heat reflection layer attached to the fabric paper, and a gold-shaped crack formed on the heat reflection layer to expose the fabric paper.

In addition, the heat reflection layer is configured to be attached to the surface facing the body from the fabric paper.

In addition, the heat reflection layer is composed of a thin film of metal material.

In addition, the comforter comprises a plurality of layers of fabric paper, the heat reflection layer is configured inside the interior of the comforter.

Insulation blanket according to the present invention, when the insulation blanket is covered, the radiation generated in the body is reflected by the heat reflection layer and stays between the body and the insulation blanket, it is possible to prevent the phenomenon that the radiation heat leaks to the outside. Therefore, there is an effect that can warm the interior of the thermal insulation blanket only by the heat of the body even without heating.

In addition, since moisture and air pass through the paper through gold cracks formed in the heat reflection layer, moisture generated between the body and the thermal insulation blanket passes through the heat insulator and the paper, and is discharged to the outside. Since it is possible to enter between the insulation blanket and the body through the paper, there is also an effect that can be maintained comfortably between the insulation blanket and the body.

Therefore, it is possible to sleep sufficiently outdoors, there is an effect that can be used sufficiently even for camping or military use.

1 is a cross-sectional view showing a heat insulating material contained in the endothelium as a futon according to the prior art.
Figure 2 is a cross-sectional view showing that the heat insulating material is contained in the outer cover as a conventional bedding.
Figure 3 is a cross-sectional view showing a double-overlapping textile paper as a conventional bedding.
Figure 4 is a cross-sectional view showing that a conventional fabric composed of a sheet of quilt.
Figure 5 is a cross-sectional view showing that the heat insulating material is accommodated in the endothelium as a thermal insulation blanket according to the technique of the present invention, the heat reflection sheet is attached to the endothelium.
Figure 6 is a cross-sectional view showing that the heat insulating material is accommodated in the outer cover as a thermal insulation blanket according to the technology of the present invention, the heat reflection sheet is attached to the outer cover.
Figure 7 is a cross-sectional view showing that the heat-resistant sheet is attached to the fabric paper is composed of double overlap as a thermal insulation blanket according to the technique of the present invention.
Figure 8 is a cross-sectional view showing that the heat reflection sheet is attached to the fabric paper composed of a sheet of quilt according to the technology of the present invention.

Hereinafter, with reference to the accompanying drawings look at an embodiment of the present invention for solving the above problems.

5 is a cross-sectional view showing that the heat insulating material is accommodated in the endothelium as a thermal insulation quilt according to the technology of the present invention, the heat reflection sheet is attached to the endothelium, Figure 6 is a heat insulating quilt according to the technology of the present invention is accommodated in the outer skin 7 is a cross-sectional view showing that the heat reflection sheet is attached to the outer skin, Figure 7 is a heat insulation duvet according to the technique of the present invention is composed of a double overlap of the fabric paper and a heat reflection sheet is attached to the fabric paper, FIG. 8 is a cross-sectional view showing that a quilt according to the technology of the present invention is composed of one sheet of woven paper and a heat reflection sheet is attached to the woven paper.

Insulation blanket 100 according to the present invention is configured to include a tissue paper 110 to cover the body. Then, the heat reflection layer 140 is attached to the textile paper 110 to block the radiant heat (h) of the body. In addition, the heat reflection layer 140 includes a gold-shaped crack 147 formed to expose the textile paper 110 to allow the discharge of moisture (w) and the inflow of air (a).

The heat reflection layer 140 may be, for example, a thin film made of a metal material, for example, an aluminum thin film is preferable. Of course, the aluminum thin film is generally used for blocking radiant heat (h). In addition, it can be attached by an adhesive agent as an example.

In addition, when the heat reflection layer 140 covers the subject innovation , the heat reflection layer 140 is configured to be attached to a surface facing the body in the textile paper 110. Thus, the radiant heat h generated in the body is blocked.

In addition, the thermal insulation blanket 100 includes a plurality of layers of fabric paper 110, the heat reflection layer 140 inside the inner fabric of the thermal insulation blanket 100, that is, the outermost outer fabric paper 110 inside By the configuration it can be configured to be invisible from the outside. Thus, the phenomenon of being scratched or peeled off can be prevented.

Looking at each embodiment in more detail to enable the above configuration is as follows.

(Embodiment 1)

Looking at the first embodiment through Figure 5, first, the heat insulator 130 has a heat insulating function is configured. The heat insulator 130 may be, for example, cotton or sponge or feathers of birds or animal hairs.

In addition, the fabric paper 110 is composed of several layers so as to accommodate the heat insulating material 130 is sewn in the edge portion.

The textile paper 110 is configured to include, for example, an inner shell 113 accommodating the heat insulating material 130 and an outer shell 111 accommodating the endothelial 113.

The heat reflection layer 140 may be selectively configured on the endothelium 113 or the outer shell 111, or may be configured on both the endothelium 113 and the outer shell 111.

When the heat reflection layer 140 is configured on the endothelium 113 or the outer shell 111 or both the endothelium 113 and the outer shell 111, it is preferable that the heat reflection layer 140 is attached to a surface facing the body.

As shown in FIG. 5, it is preferable that the heat reflection layer 140 having the gold-shaped crack 147 is attached to the surface L facing the body at the inner surface in contact with the heat insulator 130 in the endothelium 113. Do.

(Second Embodiment)

Looking at the second embodiment through Figure 6, first, the heat insulator 130 has a heat insulating function is configured. The heat insulator 130 may be, for example, cotton or sponge or feathers of birds or animal hairs.

The textile paper 110 is configured to include an outer shell 111 for receiving the heat insulating material 130 as an example.

In addition, as shown in Figure 6, it is preferable that the heat reflection layer 140 formed with the gold-shaped crack 147 is attached to the surface (L) facing the body from the inner surface in contact with the heat insulating material 130 in the outer shell 111. Do.

(Third Embodiment)

Looking at the third embodiment through Figure 7, the fabric paper 110 is composed of a plurality of layers including the outer shell 111 is formed by sewn the edge portion.

In addition, the heat reflection layer 140 having the gold-shaped crack 147 formed on the surface (L) facing the body from the inner surface of the shell 111 is configured to be attached.

(Fourth Embodiment)

Looking at the fourth embodiment through Figure 8, the fabric paper 110 is configured to include a shell 111 consisting of a single layer.

In addition, the heat reflection layer 140 having the crack 147 is attached to the surface (L) facing the body from the outer shell 111 is configured.

According to the present invention according to the above configuration and embodiment, when covering the insulating blanket 100, as shown in Figure 5, the radiant heat (h) generated in the body is reflected by the heat reflection layer 140 between the body and the insulating blanket 100 By staying in the, it is possible to prevent the phenomenon that the radiant heat h is leaked to the outside. Therefore, even without heating, the inside of the thermal insulation blanket 100 can be kept warm by only the heat of the body.

In addition, the moisture (w) generated between the body and the thermal insulation blanket 100 is discharged to the outside through the thermal insulation material 130 and the textile paper 110, the outside air (a) is the insulation material 130 and the textile paper 110 It is possible to flow between the insulation blanket 100 and the body through). This is possible because the moisture (w) and the air (a) passes through the textile paper 110 through the gold-shaped crack 147 formed in the heat reflection layer 140.

Therefore, the interior of the body and the thermal insulation duvet 100 is warm, yet warm without drying, there is a pleasant effect.

In addition, if the crack 147 is not formed in the heat reflection layer 140, when the insulation blanket 100 is covered, the moisture (w) generated in the body is not discharged to the outside, the insulation blanket 100 is damp (w) will be absorbed, the adverse effect of the generation of mold will occur, but according to the present invention, the moisture (w) is discharged through the crack 147, this phenomenon will not occur.

For this reason, it is not only possible to keep warm enough by the user's body temperature without any heating facilities such as boilers or heaters, but also to discharge moisture (w) of the body temperature, and to bring the outside air (a) to a pleasant state. There is an advantage to going to bed. Therefore, the crack 147 is a fine gold, so that a small amount of external air (a) is gradually introduced, so that the phenomenon of rapidly dropping the air (a) between the body and the subject innovation does not occur.

Therefore, it is possible to fully sleep in the outdoors, there is an advantage that can be sufficiently used even for camping or military use.

100: insulation blanket 110: textile
111: jacket 113: jacket
130: heat insulating material 140: heat reflection layer
147: crack

Claims

In configuring the insulation blanket 100,
The insulation blanket 100 is composed of several layers of fabric paper 110 to cover the body ,
The heat reflection layer 140 attached to the fabric paper 110,
It is formed on the heat reflection layer 140 and comprises a crack- shaped crack 147 formed so that the textile paper 110 is exposed ,
The heat reflection layer 140 is attached to the surface facing the body from the fabric paper 110,
The heat reflection layer 140 is a thin film of metal,
The heat reflection layer 140 is a thermal insulation blanket, characterized in that configured invisible from the outside by being configured inside the fabric paper 110 to be the outermost outer cover in the thermal insulation blanket (100) .

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