KR100955209B1 - Cold and warm water rotation pipe for ondol bottom - Google Patents

Abstract

The present invention relates to a cold and hot water circulation pipe for the ondol floor, and in particular, a predetermined amount of evaporating liquid is introduced into the inside of the tubular body embedded in the ondol floor, sealing both ends of the tubular body, penetrating both ends of the tubular body, and It relates to a cold and hot water circulation pipe for the ondol floor, characterized in that the heat transfer pipe containing the liquid or gas is passed through the center of the tube.

Circulation pipe, pipe, heat transfer pipe, cold and hot water

Description

Cold and warm water rotation pipe for ondol bottom}

The present invention relates to a cold and hot water circulation pipe for the ondol floor, and in particular, a predetermined amount of evaporating liquid is introduced into the inside of the tubular body embedded in the ondol floor, sealing both ends of the tubular body, penetrating both ends of the tubular body, and It relates to a cold and hot water circulation pipe for the ondol floor, characterized in that the heat transfer pipe containing the liquid or gas is passed through the center of the tube.

In general, when the heating floor is heated from one side, the heat is conducted to the other side, and the heat is slowly released while the ondol is being stored. Nowadays, the circulating pipe is bent at the bottom of the ondol to continuously heat the ondol. .

The circulation pipe is manufactured by injecting and sealing a certain amount of working fluid (heat transfer medium) through an injection hole therein. A heat source device is installed at one end of the pipe, and when heat is applied therefrom, the working fluid evaporates to the other end. It releases thermal energy as it moves, condensing back into liquid by heat exchange, and returning it to its original position.

Such a circulation pipe can be used to raise or lower the temperature uniformly in a fast time and is useful for heating or bed.

The conventional circulation pipe connection structure includes a heat source supply pipe through which hot or cold water flows, a copper pipe whose one end penetrates the heat source supply pipe, and is welded to the heat source supply pipe, and a circulation pipe inserted into the copper pipe.

According to the circulation pipe connection structure configured as described above, the heat of the hot water flowing in the heat source supply pipe is transferred to the one end of the circulation pipe through the copper pipe, and the heat medium in the circulation pipe moves from one end to the other end to exchange heat with the outside of the circulation pipe. By doing so, heating or cooling is performed.

When constructing a building such as a house or an apartment, the hot water pipes are arranged at equal intervals for the purpose of heating the floor, and the mortar is applied to a certain thickness, and the wet construction method and the electric heater are built in to finish the work with finishing materials such as floor covering and floorboard. The dry construction method of assembling the size of the ondol panel and then finishing the work with a finishing material such as floorboards, floorboards and the like has been commonly used.

The wet construction method of the conventional construction method has a long curing period of the mortar, the air is longer on the construction, the weight of the building structure is increased, the dry construction method can shorten the air and lighten the structure, but after warming the floor When the electricity is cut off, the floor cools down quickly and the heating efficiency is lowered.

In order to make up for the above disadvantages, the floor heating is performed by using a circulating pipe, which is a superheat conductor, but in this case, the circulating pipe has different disadvantages according to its shape. First, a circulating pipe of the Thermosyphon type is prescribed. The thickness of the mortar or the ondol panel became thick due to the inclination of the circulation pipe, and the uniform heating of the floor became difficult due to having a gradient of (tilt) .The vibrating tubular circulation pipe was a capillary tube Due to the use of filamentary pipes, it is difficult to handle due to the bending of pipes, it is difficult to show even distribution when installed on the floor, and wick or mesh type circulation pipes may cause capillary phenomenon in the pipes. Because of the need to form a flow path, there was a difficulty in manufacturing All.

In addition, the circulation pipe is a structure in which the evaporated liquid is injected and sealed inside the tube to heat or cool one side or the other side to evaporate or cool the evaporated liquid in the tube so that the tube is heated or cooled. In order to solve this problem, a large amount of heat and cold are required.

Further, even when heated or cooled with a lot of heat or cold, there is a problem in that the temperature of each part is extremely different because the heat or cold air supplied to the tube is not uniform.

The present invention relates to a cold and hot water circulation pipe for the ondol floor, and in particular, a predetermined amount of evaporating liquid is introduced into the inside of the tubular body embedded in the ondol floor, sealing both ends of the tubular body, penetrating both ends of the tubular body, and It is an object of the present invention to provide a cold / hot water circulation pipe for an ondol floor, wherein a heat transfer pipe in which a liquid or gas is embedded is configured to pass through the center of the tube.

The present invention is capable of uniform heat transfer through the heat transfer pipe by embedding the heat transfer pipe inside the tube, and it is possible to evaporate the evaporated liquid with a small amount of heat, thereby reducing the energy.

If the cold and hot water circulation pipe is embedded in the ondol floor, the temperature of the ondol floor can be kept constant with little energy.

In addition, since the evaporated liquid is evaporated instantaneously, there is an effect that the tube is heated or cooled in a short time, thereby the heating floor is heated or cooled quickly.

According to the present invention, a predetermined amount of evaporating liquid is introduced into the tubular body 10 embedded in the ondol floor, the both ends of the tubular body 10 are sealed, and both ends of the tubular body 10 are penetrated, and the liquid or gas is inside. The heat transfer pipe 20 is built is configured to pass through the center of the tube.

At this time, the heat transfer pipe 20 is heated or cooled on one side, the liquid or gas inside the heat transfer pipe 20 is heated or cooled and is delivered to the other side.

Then, when the heat transfer pipe 20 is heated or cooled, the evaporated liquid injected into the tube 10 is evaporated with gas, so that the tube 10 is heated or cooled to emit heat or cold air.

For example, the present invention will be described in more detail as follows.

A certain amount of evaporated liquid is injected into the tube 10 to seal the tube, and a heat transfer pipe 20 penetrating both ends of the tube 10 and the inside of the tube 10 is installed, and the heat transfer pipe 20 Liquid or gas is injected inside.

At this time, when one side or the other side of the heat transfer pipe 20 is heated or cooled, the gas or liquid inside is circulated to heat or cool the inside of the tubular body 10 to evaporate or cool the evaporated liquid inside the tubular body 10. (10) The whole will be heated or cooled.

The cold and hot water circulation pipe consisting of such a double structure is laid in the zigzag form or lattice form or horizontal or vertical form on the lower side of the ondol floor, and the heat or cold is supplied from one side to heat or cool the ondol floor using less heat as a whole. do.

1 is a cross-sectional view showing the overall configuration of the cold and hot water circulation pipe for the ondol floor according to the present invention,

Figure 2 is a plan view showing the overall configuration of the cold and hot water circulation pipe for the ondol floor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: tube 20: heat transfer pipe

Claims (3)

A certain amount of evaporating liquid is introduced into the inside of the tubular body 10 embedded in the ondol floor, the both ends of the tubular body 10 are sealed, and both ends of the tubular body 10 are penetrated, and no liquid or gas is embedded therein. The heat transfer pipe 20 through which the liquid or gas inside is heated or cooled to be delivered to the other side by heating or cooling one side is configured to pass through the center of the tube. When the heat transfer pipe 20 is heated or cooled, the evaporated liquid injected into the inside of the tube is evaporated into a gas so that the tube body 10 is heated or cooled to radiate heat or cold air, thereby discharging the hot and cold water circulation pipe for the ondol floor. . delete delete

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