KR20080062418A - A boiler using heat pipe - Google Patents

Abstract

A heat pipe boiler is provided to reduce the size of the boiler and to increase thermal efficiency by enlarging a contact area between a cylindrical pipe and hot water. A heat pipe boiler comprises an electric heating device(10), a heat pipe(20), a cylindrical pipe(30), a hot water circulation pipe(40), and a gas grill(50). The electric heating device generates heat and the heat pipe transfers the heat to water to make hot water. The cylindrical pipe is made from aluminum material. The cylindrical pipe has a hole for receiving the heat pipe and a blade section is formed lengthwise along the cylindrical pipe. The hot water is circulated through the hot water circulation pipe. The gas grill is disposed at a lower portion of the cylindrical pipe to heat one end of the heat pipe.

Description

Heat Pipe Boiler {A Boiler using Heat Pipe}

1 is a conceptual diagram of a conventional heat pipe boiler.

2 is a conceptual diagram of the heat pipe boiler of the present invention.

3 (A) is a perspective view of a cylindrical tube of the heat pipe boiler of the present invention.

      (B) is a plan view of a cylindrical tube of the heat pipe boiler of the present invention.

4 (A) is a cross-sectional view of a cylindrical tube of a heat pipe boiler as another example of the present invention.

      (B) is a top view of the cylindrical tube of the heat pipe boiler which is another example of this invention.

The present invention relates to a heating boiler to which a heat pipe is applied, and in particular, to a heat pipe boiler that maximizes thermal efficiency and enables the use of heating devices such as electricity and gas.

In general, a heat pipe boiler is connected to a heating device 1 such as an electric heating element, a heat pipe 2 mounted at one end thereof to the heating device, and a second end of the heat pipe as shown in FIG. The heat transfer medium such as water is not directly heated by the heat source but is indirectly heated by the heat pipe, using the heating water circulation pipe 3 as a main component. It is heated to the same temperature at about the same time and there is almost no heat loss, so it is possible to transfer heat very effectively.

However, in the conventional heat pipe boiler having a structure in which the heating water circulation pipe 3 directly surrounds the heat dissipation end of the heat pipe 2, the heat heated by the heating device 1 is radiated from the heat end of the heat pipe. In the process of being transferred to the heating water through the contact area with the cold heating water is relatively small, the heat transfer efficiency is reduced, thereby increasing the size of the boiler there is a problem that the installation cost increases.

In addition, since most of the electric heating elements used as heating devices are not available in case of power failure, they may cause freezing in winter, and there is a problem in that there is no electric facility at all.

An object of the present invention is to provide a heat pipe boiler which has a small size and high output while maximizing thermal efficiency, and which can simultaneously use electricity and gas.

In order to achieve the above object, the present invention provides a heating boiler comprising a heating device, a heat pipe whose one end is heated by the heating device, and a heating water circulation pipe connected to the other end of the heat pipe, wherein the heat pipe is heat It provides a heating boiler using a heat pipe, characterized in that the diverging wings are inserted in close contact with a plurality of cylindrical pipes installed in the longitudinal direction.

Here, the heating device is heated by electricity and gas, characterized in that the blade formed on the outer circumferential surface of the cylindrical tube is formed in a spiral structure.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated in detail based on attached drawing 2-4.

2 and 3, the heat pipe boiler of the present invention includes an electric heating device 10, a heat pipe 20 for transferring heat heated from the electric heating device to heating water, and the heat pipe is inserted into the heat pipe boiler. An inner through groove 31 is formed so that the cylindrical tube 30 made of aluminum formed with the wing portion 32 in the longitudinal direction of the outer circumferential surface, and the heating water circulation pipe 40 having the cylindrical tube embedded therein and circulating the heating water. And a gas grill 50 installed below the cylindrical tube 30 to heat one end of the heat pipe.

According to the present invention, the heat pipe 20 is heated by the operation of the electric heating device 10, and the heat transferred through the heat pipe 20 is connected to the heat pipe through an Al-shaped cylindrical tube. It is transmitted to the wing formed in the longitudinal direction on the outer circumferential surface, and the heat transferred is transferred to the cylindrical tube body and the heating water in contact with the wing, and eventually the heating area of the heating water is widened by the wing, thereby maximizing the diffusion of heat. Increase the thermal efficiency.

In addition, it is preferable to form the wing portion in the spiral 33 as shown in FIG. 4 in order to maximize the thermal efficiency by increasing the heating area of the heating water as well as consistently flowing the heating water.

And when there is a power failure or there is no electric facility, by operating the gas grill 50 mounted on the bottom of the heat pipe 20 to heat the heat pipe it is possible to heat the heating water as described above. In this case, it is possible to install butane gas binder and gas ignition device in the control box so that disposable butane gas can be used, and of course, it is designed to use both city gas and LPG gas.

The operation of the heat pipe boiler of the present invention configured as described above will be described.

First, when the power switch of the control box is turned on, the electric heating device 10 is operated to heat one end of the heat pipe 20, and at the same time, the heating water operation motor is operated to supply the heating water. Heat generated by the electric heating device is transferred to the heating water through the cylindrical pipe 30 and the wing portion 32 formed on the outer circumferential surface thereof while moving to the other end of the heat pipe, thereby heating the heating water. The heated heating water is circulated by a device such as a pump to heat and heat the bottom of the building.

And if electricity is not available due to power outage, butane gas binder (not shown) installed in the control box is connected to disposable butane gas to heat the heating water by heating with gas, so that the building's heating is done even when the power outage occurs. This is possible. That is, when the ignition device is operated after the gas is connected, the gas grill 50 is ignited and the heat pipe 20 is heated by the heat of the gas grill to heat the heating water. At this time, the gas used can be adjusted so that not only disposable butane gas but also all gases such as city gas and LPG which are generally used in homes can be used.

According to the heat pipe boiler according to the present invention, by using an aluminum tube having excellent heat transfer efficiency and expanding the contact area with the heating water by the wing formed in the cylinder, the boiler can be miniaturized by maximizing the thermal efficiency. By using both electricity and gas, there is an effect that can be used even during a power failure.

Claims (5)

A heating boiler comprising a heating device, a heat pipe whose one end is heated by the heating device, and a heating water circulation pipe connected to the other end of the heat pipe, The heat pipe is a heating boiler using a heat pipe, characterized in that the heat dissipation wing is inserted in close contact with a plurality of cylindrical pipes installed in the longitudinal direction. The heating device is a heating boiler using a heat pipe, characterized in that the heating by electricity or gas. The method according to claim 2 or 2, One end of the heat pipe is heated by the electric heating device and the other end is heated by the gas, characterized in that the heating boiler using a heat pipe. The method according to claim 1 or 2, Wings formed on the outer circumferential surface of the cylindrical tube is a heating boiler using a heat pipe, characterized in that formed in a spiral. The method of claim 1, The cylindrical tube is a heating boiler using a heat pipe, characterized in that the Al material.

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