KR820001679Y1 - A insulated cateen - Google Patents

Abstract

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Description

Stainless steel thermos

1 is a perspective view of a portion of the present invention cut.

2 is a cross-sectional view of the present invention.

The present invention relates to a stainless steel thermal water tank that has a good thermal effect and hardly breaks.

Conventional thermos, thermos and the like are generally vacuumed between the two inner and outer cylinders of the glass to prevent heat dissipation due to heat conduction and convection phenomena, and by applying a mercury reflection layer on the inner wall of the inner and outer cylinders, By applying the mercury reflecting layer to prevent the heat radiation by the heat radiation phenomenon to obtain the heat insulation effect of the thermos and the thermal container.

However, the above-mentioned thermos and containers, such as the vacuum degree is only about 10 ^-4 mmHg, can not effectively prevent heat dissipation due to heat conduction and convection phenomenon, and thus, it is not possible to obtain a good warming effect, so that the heat in the thermos and container The food is not kept warm for a long time, and it cools in a short time, so that it does not serve the purpose of a thermos or a thermos container. Also, the thermos and thermos are broken even after a slight impact or fall, so the lifespan is very short and special care is used. Will be required.

The present invention is filled with activated carbon and inorganic porous powder between the inner and outer containers of stainless steel, and the vacuum can be more than 10 ^-8 mmHg by vacuum to prevent heat dissipation due to heat conduction and convection phenomena, and thus It can greatly increase the warming effect of the water bottle, which will be explained by the accompanying drawings as follows.

In the drawings, 1 and 2 are stainless steel inner and outer containers, and the activated carbon 3 and the inorganic porous powder 4 are mixed between the inner and outer containers 1 and 2 as much as possible.

Particularly, the finer the porous porous blade 4 is, the more effective it is in preventing heat loss due to heat conduction and convection.

By the way, the present invention uses a 300-500 mesh inorganic porous powder (4).

And 5 is a reflective layer formed by electropolishing the inner surface of the inner container 1.

First, the manufacturing process of the present invention configured as described above will be described.

After the internal and external containers (1) and (2) are formed of stainless steel, the activated carbon (3) and the inorganic porous powder (4) are formed into the internal and external containers through holes (not shown) on one side of the internal and external containers (1) and (2). 1) Fill and fill as much as possible between (2) and close the hole.

Then, the inside and outside containers (1) and (2) may be vacuumed with a vacuum pulp or the like while heating at 300-400 ° C.

When the vacuum is activated, the activated carbon 3 absorbs various gases released from inside and outside the stainless steel container 1 and 2 by heating at 300-400 ° C., thereby further enhancing the vacuum effect or the warming effect.

In this way, stainless steel inner and outer containers (1) and (2) having a degree of vacuum of 10 ^-5 mmHg or more can be obtained. Can be.

By the way, before forming the inner and outer containers 1 and 2, the reflective layer 5 is formed by electropolishing on the inner wall of the inner container 1.

Into the stainless steel insulated container thus made food for example hot water (99 ℃) was measured after 24 hours was able to maintain a temperature of about 60 ℃.

First of all, the thermal effect is a high vacuum of about 10 ^-8 mmHg and filled with fine inorganic porous powder (4) between the inner and outer containers (1) and (2) to prevent the loss of heat due to heat conduction and convection. The result comes from one place.

That is, since the conduction of heat is blocked by a very minute space [the space between the powder 4 and the powder 4] at the moment when heat is conducted between the inorganic porous powder 4 and the powder 4, This is because the loss is prevented as much as possible. [There are an infinite number of fine spaces formed by the powders 4 because the inorganic porous thermos powder 4 is present innumerably.

In addition, since the inner wall of the inner container 1 has a reflective layer which is electropolished, heat loss due to radiation is prevented.

As described above, the present invention is about ^10-8 mmHg of the vacuum of the thermal insulation container, and the inside and outside containers (1) (2) is filled with countless inorganic porous powder (4) to prevent the loss of heat due to heat conduction and convection phenomenon to the maximum. By doing so, it is possible to enhance the thermal insulation effect and at the same time obtain a thermal insulation container that is not broken.

Claims (1)

Activated carbon 3 and inorganic porous powder 4 are mixed and filled in the inside and outside containers 1 and 2 of stainless, and the reflective layer 5 formed by electropolishing is formed on the inner surface of the inside container 1. Stainless steel thermos.