KR100319790B1 - Heat exchanger of heater pipe - Google Patents

Abstract

The present invention relates to a heat pipe heat exchanger, and more specifically, to distribute the heat of the circulating medium such as hot water or steam, which is heated in a boiler, to a room floor, and to discharge the heat medium liquid circulating along the buried pipe to the delivery medium. The present invention relates to a heat pipe heat exchanger configured to heat a room and the like.

Heater pipe heat exchange apparatus according to the present invention, the heat conduction pipe for forming a circulation path through which the circulation medium can circulate; A heat exchange tube having a heat medium liquid chamber formed around the heat conductive tube and filled with a heat medium liquid that exchanges heat with the circulation medium in the heat conductive tube; An injection tube installed on one side of the heat exchange tube for thermal medium injection; And a plurality of heat dissipation tubes connected to the heat exchange tubes in parallel to each other to induce heat dissipation in the heat medium liquid chamber to return to a low temperature state, and to connect the ends of the heat dissipation tubes with each other, in which heat is integrated. The heater pipe heat exchanger having such a configuration includes heat dissipation evenly from each heat dissipation tube through the heat medium fluid flowing evenly distributed through the heat dissipation tube, which is widely distributed in the heat dissipation tube, circulating through the heat conduction tube. In addition, the heat exchange efficiency is high because the circulation medium circulation cycle and the pressure drop can be reduced.

Description

Heater pipe heat exchanger {HEAT EXCHANGER OF HEATER PIPE}

The present invention relates to a heat pipe heat exchanger, and more specifically, to distribute the heat of the circulating medium such as hot water or steam, which is heated in a boiler, to a room floor, and to discharge the heat medium liquid circulating along the buried pipe to the delivery medium. The present invention relates to a heat pipe heat exchanger configured to heat a room and the like.

Conventional heating piping embedded in the indoor floor for heating purposes is a circulation medium circulating medium because the circulation medium such as hot water or steam, which is heated in a heat source such as a boiler, is circulated directly along the pipe of the indoor floor. There was a problem that the thermal efficiency is very low because the rate is greatly reduced.

On the other hand, there is another conventional technique is configured to heat the heat medium liquid as heat collected by the heat collecting plate, such as solar heat collecting plate, and then the heat medium liquid is circulated along the heating pipe, in the case of such a prior art cloudy day or rainy day In the case of rainy season, the heat generation was very small, so there was a need to use a separate electric heater.

The present invention has been made to solve the problems of the prior art as described above, the heat of the circulating medium heated in a heat source such as a boiler, such as hot water or steam is widely distributed on the indoor floor to circulate along the buried pipe It is an object to provide a heat pipe heat exchanger that is configured to discharge the heat medium liquid to the delivery medium, the circulation rate of the circulating medium is greatly increased and the thermal efficiency is greatly improved.

1 is a perspective view of a heater pipe heat exchanger according to an embodiment of the present invention.

Figure 2 is a plan sectional view of a heater pipe heat exchanger according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

1: heat conduction pipe 1a: circulation path

2: heat exchanger tube 2a: heat medium liquid chamber

3: injection tube 4: heat pipe

4a: heat sink 4b: connector

Heat pipe heat exchange apparatus according to the present invention, the both ends are connected to the discharge side and the inlet side of the boiler heat conduction pipe for forming a circulation path through which the circulation medium heated in the boiler can be circulated; A heat exchange tube which is inserted outwardly into the heat conductive tube and is sealed at both outer peripheral surfaces of the heat conductive tube to form a heat liquid chamber around the heat conductive tube to fill a heat medium liquid that exchanges heat with the circulation medium in the heat conductive tube; An injection tube installed on one side of the heat exchange tube to inject a heat medium into the heat medium liquid chamber; And a plurality of heat dissipation tubes connected to the heat exchange tubes in parallel to each other to induce high-temperature heat medium in the heat medium liquid chamber to return to a low temperature state, and to communicate the ends of the heat dissipation tubes with each other so that the heat dissipation rate is relatively high. It characterized in that it comprises a; heat pipe is integrated with a connection pipe for inducing high temperature heat medium in the pipe to another heat dissipation pipe having a small inflow rate.

According to the configuration as described above, the heat pipe heat exchanger according to the present invention from the circulating medium such as hot water or steam is heated in a heat source such as a boiler is heated in the heat medium liquid chamber circulated through the heat conduction pipe After absorbing heat and distributing it evenly through each heat pipe of the heat pipe, the heat is radiated to heat the room. Since the circulation medium such as hot water does not circulate directly along the heating pipe, the circulation cycle of the circulation medium can be shortened. In addition, there is an advantage that the heat exchange efficiency is high because the amount of pressure drop in the circulation process of the circulation medium can be greatly increased.

Hereinafter, a preferred embodiment of the present invention made of the above components will be described in more detail with reference to the accompanying drawings.

1 is a perspective view of a heat pipe heat exchanger according to an embodiment of the present invention, Figure 2 is a plan cross-sectional view thereof.

As shown, the heat pipe heat exchanger according to an embodiment of the present invention, the heat conduction tube 1, and the heat exchange tube (2) for forming a heat medium liquid chamber (2a) around the heat conductive tube (1), Injection tube 3 installed on one side of the heat exchange tube 2 for heat medium injection, and a plurality of heat dissipation tubes 4a and each of the heat dissipation tubes 4a connected in parallel to the heat exchange tube 2. The connection pipe which communicates the ends is mutually comprised by the heat pipe 4 etc. which were integrated.

In the configuration as described above, the heat conduction pipe 1 is a cylindrical tube whose both ends are connected to the discharge side and the inlet side of the boiler (not shown), and the circulation path for circulating the hot circulating medium heated in the boiler 1a. ) To exchange heat with the high temperature circulating medium with the heat medium of the heat medium liquid chamber 2a.

The heat exchange tube (2) is a circular tube having a larger inner diameter than the heat conductive tube (1), and is fitted outwardly in a conductive tube, and then both ends thereof are welded to both outer peripheral surfaces of the heat conductive tube (1) to form the heat conduction therein. The heat medium liquid chamber 2a surrounding the pipe 1 is formed. The heat medium liquid chamber 2a is filled with a low heat medium liquid such as acetone and a methanol mixed liquid in a vacuum state by a vacuum injection device. Thus, the heat exchange tube (2) heats the filled heat medium liquid with the circulating medium circulated along the heat conduction pipe (1) therein after being heated in a boiler or the like.

The injection tube (3) is a plastic material tube connected to one side of the heat exchange tube (2) to inject the heat medium into the heat medium liquid chamber (2a), and then the heat medium is injected into the heat medium liquid chamber (2a). The sheet is bent and the injection port is welded to seal the heat medium chamber 2a.

The heat pipes 4 are arranged in parallel, and each of the heat pipes 2 is formed of a plurality of heat pipes 4a and connection pipes 4b for communicating each end of the heat pipes 4a. The heat dissipation pipes 4a are heated by heat exchange with the circulating medium from the heat medium liquid chamber 2a in a state of being embedded in an indoor floor or the like to induce heat dissipation. In the connection pipe 4b, the heat dissipation pipe 4a, which is ubiquitous to the inlet side of the heat conduction pipe 1, in each of the heat dissipation pipes 4a, the higher the inflow rate of the vaporized heat medium liquid, The heat dissipation tube 4a which flows in less from the heat dissipation tube 4a, ie, the heat dissipation tube 4a, which is localized on the discharge side of the heat conduction tube 1, is supplemented, that is, the inlet side of the heat conduction tube 1. As the heat exchange rate between heat medium liquid and circulating medium increases, the heat dissipation pipe 4a near the inlet side of the heat conduction tube 1 increases, and the heat medium liquid vapor pressure increases. The heat medium liquid of the inlet side heat dissipation tube 4a is guided to the heat dissipation tube 4a on the discharge side of the heat conduction tube 1, thereby correcting the vapor pressure variation of the heat medium liquid in each heat dissipation tube 4a. This serves to reduce the heat radiation variation between each heat pipe (4a).

The heat pipe heat exchanger according to an embodiment of the present invention comprises the heat retained by a circulating medium such as hot water or steam, which is heated in a heat source such as a boiler and circulated through a heat conduction pipe. Each heat dissipation tube 4a is absorbed by the heat medium liquid of the heat medium liquid chamber 2a which heat-exchanges with the circulating medium, and the heat medium liquid is evenly distributed by the action of the connection pipe 4b to the widely distributed heat dissipating pipe 4a. It can radiate evenly through. In this heat dissipation action, since the circulation medium such as hot water does not directly circulate along the heating pipe, the circulation cycle of the circulation medium can be greatly reduced, and the amount of pressure drop in the circulation medium in the circulation process can be reduced.

As described in detail above, the heater pipe heat exchanger according to the present invention is a heat medium liquid chamber for heat-exchanging heat retained by a circulation medium such as hot water or steam heated in a heat source such as a boiler and circulated through a heat conduction pipe. After absorbing into the heat medium liquid of (2a), the heat medium liquid is distributed evenly by the action of the connecting pipe 4b to the widely distributed heat dissipating pipe 4a, so that it can radiate evenly through each heat dissipating pipe 4a. There is an advantage that the heat radiation deviation of the heat pipe is very small.

In addition, since the circulation medium such as hot water or steam is not directly circulated to the heating pipe, the circulation cycle and the pressure drop of the circulation medium can be greatly reduced, so that the heat exchange efficiency is high. Therefore, the heater pipe heat exchanger according to the present invention can greatly contribute to energy saving.

Claims (1)

A heat conduction pipe having both ends connected to a discharge side and an inlet side of the boiler to form a circulation path through which a circulation medium heated in the boiler can circulate; A heat exchange tube which is inserted outwardly into the heat conductive tube and is sealed at both outer peripheral surfaces of the heat conductive tube to form a heat liquid chamber around the heat conductive tube to fill a heat medium liquid that exchanges heat with the circulation medium in the heat conductive tube; An injection tube installed on one side of the heat exchange tube to inject a heat medium into the heat medium liquid chamber; And A plurality of heat dissipation tubes connected to the heat exchange tubes in parallel to each other to induce high heat dissipation in the heat medium liquid chamber to return to a low temperature state, and a heat dissipation tube having a relatively high flow rate by communicating the ends of the heat dissipation tubes with each other; And a heat pipe incorporating a connection pipe for guiding the high temperature heat medium into the other heat dissipation pipe having a small inflow rate.