KR200407905Y1 - A horizontal circulated pipe line for heating an ondol with heat pipe type - Google Patents

Abstract

The present invention installs a plurality of heat sinks at regular intervals on one side of a heat exchanger in which a lower hot water pipe is installed inside so that an interstitial space is formed at the lower side of the heat dissipation tube at an upper space. At the upper end of the heat exchanger, the end circulation port is connected to the upper end of the one side of the cooler having a large internal space at the height of the heat exchanger, and the other lower end of the cooler and the lower end of the heat exchanger are connected to each other by a return tube having a diameter smaller than that of the heat exchanger. The inside of the upper space, the heat dissipation tube, and the inside of the cooler is filled with working fluid in a vacuum state, and the working fluid of the upper space is vaporized by the heat of the lower hot water pipe of the heat exchanger, and the gas dissipates heat to the outside through the heat dissipation tube. As the gas flows into the top of the cooler where the space is large, the gas is converted into liquid inside the cooler and the volume is reduced by liquefaction. Each inside is in a low pressure state, and the gas inside the heat dissipation tube is horizontally circulated from the high pressure side to the low pressure side. The gas introduced into the top of the cooler becomes a liquid, filled into the bottom of the cooler, and is connected to the bottom of the cooler. Heat pipe type heating pipe for horizontal circulation that can be returned to the upper space

 Heat pipe, return pipe, heat exchanger, lower hot water pipe, upper space, interspace, cooler

Description

Horizontal circulated pipe line for heating an ondol with heat pipe type}

1 is an overall perspective view of the present invention

Figure 2 is an enlarged partial cross-sectional view showing a structure in which the heat pipe is connected to the top of the heat exchanger in the present invention

3 is a partially enlarged cross-sectional view showing a structure in which a heat dissipation pipe is connected to one end of a cooler and a lower end of a heat exchanger is connected to a lower end of a heat exchanger in the present invention.

[Description of Symbols for Important Parts of Drawing]

1: heat dissipation tube 2: return tube 10: heat exchanger

11: lower hot water pipe 12: upper space 12a: interspace

20: cooler

According to the present invention, an on-floor heating tube in which several fin-shaped heat sinks are connected to one side of a heat exchanger is connected to a cooler having a large internal space in a circulation portion of the heat-dissipating tube. The present invention relates to a heat pipe type ondol heating pipe capable of horizontal circulation.

In Utility Registration No. 209706, there was a floor heating tube using the heat pipe principle that filled several working fluids by connecting several fin-shaped radiating tubes to one side of the heat exchanger, but the inside of the heat exchanger The working fluid vaporizes, but the gas is not horizontally shifted on its own, and the gas dissipates heat from the heat sink tube and liquefies. However, the liquid is not circulated to the heat exchanger in the horizontal state. Since only a fork was installed, it could not be used for horizontal floor heating.

In order to solve this problem in the present invention, the lower hot water pipe is installed inside so that an interspace is formed at the lower side of the heat dissipation tube, and several fins are formed at regular intervals on one side of the heat exchanger in which the entire upper portion is formed as the upper space. The heat inlet is connected to the top of the heat exchanger at the top of the heat exchanger, and the end circulation port is connected to the top of one side of the cooler with a large internal space at the height of the heat exchanger, and the other bottom of the cooler and the bottom of one side of the heat exchanger are smaller in diameter than the heat pipe. The upper space of the heat exchanger, the heat dissipation tube, and the whole inside of the cooler are filled with working fluid in a vacuum state, and the working fluid of the upper space is vaporized by the heat of the lower hot water pipe of the heat exchanger, and the gas flows through the heat dissipating pipe. As heat is radiated to the outside, the gas flows to the top of the cooler with a large internal space, and the gas is converted into liquid inside the cooler. As the volume occupied by the gas is reduced to volume due to liquefaction, the inside of the cooler is in a low pressure state, and the gas inside the heat sink is circulated horizontally from the high pressure side to the low pressure side. Return to the upper space of the heat exchanger through a return tube having a smaller diameter than the heat dissipation pipe connected to the lower end of the cooler to be circulated even in a horizontal state as follows.

In the heat pipe type on-heated heating tube in which the inside of the fin-shaped heat dissipation tube connected to one side of the heat exchanger is filled with a working fluid in a vacuum state, the lower hot water pipe (12a) is formed on both sides of the lower side or the lower side of the heat dissipation tube direction. 11) installed inside the top of the heat exchanger 10 in which the entire upper portion was formed into the upper space 12, the several inlet-shaped heat dissipation tube 1 at regular intervals in the front end of the heat exchanger 10 The end circulation port is connected to one upper end of the cooler 20 having a large internal space at the height of the heat exchanger 10, and the other lower end of the cooler 20 and one lower end of the heat exchanger 10 than the heat dissipation pipe 1. Connected to the return pipe (2) having a small diameter, and filling the working fluid in a vacuum state in the upper space (12) of the heat exchanger (10), several heat sink (1) and the whole of the cooler (20) in a vacuum state will be.

Referring to the use state of the present invention having such a configuration when the hot water heated in the boiler is distributed to the lower hot water pipe 11 of the heat exchanger 10 in a vacuum in the upper space 12 of the heat exchanger 10 The filled working fluid is evaporated by the heat of the lower hot water pipe 11 so that the gas dissipates heat to the outside through several fin-shaped heat pipes 1 connected to the upper side of the heat exchanger 10 and the circulation portion of the heat pipes. The heat exchanger 10 flows into the upper end of the cooler 20 and is converted into a liquid state inside the cooler and filled into the lower part of the cooler 20 so that the diameter connected to the lower end is smaller than the heat dissipation pipe 1. It will return back to the upper space 12 through the interspace 12a of one of the lower hot water pipes 11.

As described above, the circulating movement of the working fluid inside the heat dissipation tube 1 in the horizontal state as described above means that the gas converted from the heat exchanger dissipates heat to the outside through the heat dissipation tube 1 and has a large internal space. As the gas flows into the upper part of the cooler and the gas is converted into a liquid, the volume occupied by the gas is reduced to a liquid, and the volume of the gas is reduced to a liquid, and the inside of the cooler is in a low pressure state. The horizontal circulation moves and the gas introduced into the cooler becomes a liquid and is filled into the lower part of the cooler and returned to the upper space of the heat exchanger through a return pipe 2 having a smaller diameter than the heat radiating pipe connected to the bottom. Since the volume is expanded and becomes a high pressure while evaporating again by the heat of the lower hot water pipe 11), the circulation is smoothly performed even in a horizontal state. Will.

In addition, the heat dissipation tube 1 into which gas flows around the cooler 20 is at one upper end, and the return tube 2 which is discharged as a liquid has a diameter smaller than that of the heat dissipation tube and is connected to the other lower end. Since the fluid is filled with the liquid, it is possible to prevent the gas which is vaporized in the heat exchanger 10 and expands in volume to flow back toward the cooler through the lower return pipe 2.

Claims (3)

In the heat pipe type ondol heating tube filled with a working fluid in a vacuum state inside the fin-shaped heat dissipation tube connected to one side of the heat exchanger, the lower hot water pipe 11 is installed therein so as to form a space between the lower sides. On one side of the heat exchanger 10 formed by the upper space 12, several fin-shaped heat dissipation pipes 1 at regular intervals are provided at the top end of the heat exchanger 10, and the end circulation port is the height of the heat exchanger 10. The inner space of the furnace is connected to the upper one side of the large cooler 20, and the other lower end of the cooler 20 and one lower end of the heat exchanger 10 are connected to the return pipe (2) and the upper space of the heat exchanger (10) (12), several heat sinks (1) and the whole inside of the cooler (20) are heat pipe ondol heating piping capable of horizontal circulation by filling the working fluid in a vacuum state. The heat pipe type hot-drilling heating pipe according to claim 1, wherein the lower hot water pipe 11 is installed inside the heat exchanger 10 so that the space 12a is formed at the lower side in the direction of the heat radiating tube. The heat pipe type ondol heating pipe of claim 1, wherein the lower end of the other end of the cooler 20 and the lower end of one side of the heat exchanger 10 are connected to a return pipe 2 having a smaller diameter than the heat dissipation pipe 1.

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