KR200396425Y1 - A heating piping use of heat conduction pipes - Google Patents

Abstract

The present invention relates to a heating pipe using a heat conductor pipe, more specifically,

The hot water heated by the boiler flows through the first heat pipe 10 flowing therein, and the hot water passed through the first heat pipe is installed in a plurality of heating zones 50 connected to the first heat pipe. In the heating piping consisting of a plurality of second heat pipes 20 for heating the area 50, the second heat pipe connected to the first heat pipe by using a heat conductor pipe without the hot water flowing inside the heat conductor It is characterized in that the heating is implemented by the thermal conductivity of the pipe itself.

Description

A heating piping use of heat conduction pipes}

The present invention relates to a heating pipe using a heat conductor pipe, and in particular, the energy use efficiency by using the heat conductor pipe as the second heat pipe 20 installed in a plurality of heating zones 50 connected to the first heat pipe 10. It relates to a heating pipe that can significantly increase the energy saving and energy saving.

Figure 1 schematically shows a conventional heating pipe as an embodiment, it is configured in such a way that the hot water heated in the boiler 40 circulates the entire interior along the metal or synthetic resin pipe. That is, the heated hot water flows along the main pipe, and the hot water passing through the main pipe flows through a plurality of branch pipes installed in the heating zone 50 to form a heating of the entire heating zone.

However, in the above piping method, since hot water flows into the inside of the branch pipe of the heating zone 50, only the heating by the heat conduction of the hot water is expected, resulting in low energy use efficiency and the amount of hot water to be supplied from the boiler. Since the energy consumed in the boiler is very large because it needs to be adjusted, there are many problems of heat loss. In addition, the hot water flowing into the branch pipe is a water vein phenomenon, there is always a risk of leakage due to damage to the pipe, there are many problems such as difficult installation of the pipe

In this invention, in order to solve the above problems, by using a heat conductor pipe as the second heat pipe 20 is bound on the first heat pipe 10 flowing hot water therein, the heated hot water is connected in series Since only the first heat pipe 10 flows, it is an object of the present invention to improve the energy use efficiency and to maximize the heating effect by the fast heat transfer characteristics of the heat conductor pipe.

1 is a plan view of a conventional heating pipe, Figure 2 is a plan view of a heating pipe of the present invention, Figure 3 is a cross-sectional view of the second heat pipe (heat conductor pipe) of the present invention, Figure 4 is a connection of the pipe of the present invention 5 is an exploded perspective view illustrating a structure, and FIG. 5 is a cross-sectional view illustrating a connection structure of a pipe of the present invention in detail with reference to the drawings.

The heating pipe of the present invention has a plurality of first heat pipes 10 connected to the first heat pipes 10 through which the hot water heated by the boiler 40 flows inside the first heat pipes, and installed in the heating zone 50. In the heating piping consisting of a plurality of second heat pipes 20 for heating the heating zone 50 by the flow of hot water passed therein, using a heat conductor pipe as the second heat pipe connected to the first heat pipe. Therefore, the heating is realized by the thermal conductivity of the heat conductor pipe itself without hot water flowing inside.

As the second heat pipe, the heat conductor pipe is sealed at both ends, and the inside is vacuumed, and a predetermined amount of the specialty chemical compound 21 containing a certain amount of chloroform (chloroform, trichloromethane) is added thereto. 1% to 2% of the internal volume of the second heat pipe 20 is allowed.

In addition, the first heat pipe 10 is formed by a combination of a plurality of divided unit connector 11, as shown in Figures 4 and 5, the first heat pipe is a binding portion 11a formed on the unit connector 11 The second heat pipe 20 is easily connected and configured, and each unit connector 11 is connected to each other using another binder 11b. The binders 11a and 11b are connected to each other. It is formed to a diameter larger than the diameter of the first heat pipe 10 so that the fitting connection can be easily made when the end of the unit connector 11, the second heat pipe 20 is inserted therein.

In addition, each of the binders 11a and 11b formed in the unit connector 11 is applied with a binder 30 so that no leakage occurs during the binding. As the binder, a PVC strong bond to which a hardener is added may be used. .

In the heating pipe of the present invention, hot water heated in the boiler 40 flows along the first heat pipe 10, and is bound to each other by using a heat conductor pipe with a plurality of second heat pipes 20 attached to the first heat pipe. , Hot water flows only the inside of the first heat pipe 10 while contacting only one end of the heat conductor pipe, which is the second heat pipe 20, to apply heat. The hot water does not flow into the heat conductor pipe. At this time, the heat conductor pipe used as the second heat pipe is a metal pipe, as shown in Figure 3, both ends are sealed and a certain amount of the compound 13 made of a special chemical inside the pipe, for example, It is a pipe finished after adding 1 ~ 2% and maintaining vacuum state.

The thermal conductor pipe 20 has a very high thermal conductivity because the thermal conductivity reaches about 500 times that of platinum and about 1300 times that of copper. Therefore, when only one end of the heat conductor pipe 20 is heated by using hot water heated in the boiler 40 or heat generated by an electric heater, the heat transfer speed is about 3 m / s to quickly transfer heat to require heating. Heat is transferred to the site quickly and evenly.

In the above-described heating pipe of the present invention, the first heat pipe 10 through which hot water flows is manufactured using a special steel material made of polyethylene, and has a characteristic of no leakage and damage.

For reference, in the case of using the heat conductor pipe of the present invention, the results of a comparative analysis of the case of using a conventional heating pipe is shown in the table below.

<Table> Energy Consumption Heating Temperature Reach Test (Floor Surface: Average 30 ℃ / 4Pyeong)

division Existing Method Thermal conductor pipe method Reduction efficiency 30 ℃ reach time 70 minutes 30 minutes 40 minutes 57.1% Fuel consumption (kerosene) 382 g 172 g 210 g 54.9% Retention time (once) 15 minutes 32 minutes 17 minutes 113.3% Power consumption (boiler) 124 W 43 W 81 W 65.3%

As a result, it can be seen that the heating pipe using the heat conductor pipe of the present invention has a heat conduction efficiency, fuel consumption, power consumption efficiency, etc., more than two times better than the conventional.

Through the heating pipe using the thermoelectric pipe of the present invention,

The amount of water that needs to be heated in the boiler is greatly reduced (about 5/1), which saves fuel, resulting in energy savings.

Hot water directly heated by the boiler does not pass through the second heat pipe, that is, the heat conductor pipe, so that comfortable heating can be achieved, and since hot water does not flow into the pipe, water vein occurs in a conventional pipe. Will not be

As the material of the first heat pipe is made of special material of polyethylene steel, leakage and damage are hardly generated, and the second heat pipe can be used semi-permanently because water does not flow.

By using the configuration of the binding portion of the unit connector of the first heat pipe and the binder, there is no risk of leakage and easy installation, the effect is great design.

1 is a plan view of a conventional heating pipe

2 is a plan view of a heating pipe of the present invention

Figure 3 is a cross-sectional view of the second heat pipe (heat conductor pipe) of the present invention

Figure 4 is an exploded perspective view showing a connection structure of the pipe of the present invention

5 is a cross-sectional view showing a coupling structure of the pipe of the present invention

■ Explanation of the major symbols used in the main parts of the drawings ■

10: first heat pipe 11: unit connection

11a, 11b: binding portion 20: second heat pipe (heat conductor pipe)

21: Formulation 30: Binder

40: boiler 50: heating area

Claims (4)

The hot water heated by the boiler 40 flows inside the first heat pipe 10 and a plurality of hot water connected to the first heat pipe and installed in the heating zone 50 to pass through the first heat pipe. In the heating piping composed of the second heat pipe 20 for heating the heating zone 50 by flow, Heating pipes using a heat conductor pipe comprising a second heat pipe connected to the first heat pipe configured to prevent the hot water passing through the first heat pipe to the second heat pipe using a heat conductor pipe. The method of claim 1, The second heat pipe is a heat conductor pipe for heating using a heat conductor pipe including a certain amount of the special chemical compound formulation 21 containing both ends are sealed and the inside is vacuum, and a certain amount of chloroform inside. The method of claim 2, The specialty chemical formulation 21 is a heating pipe using a heat conductor pipe comprising 1% to 2% of the internal volume of the second heat pipe (20) The method of claim 1, The first heat pipe is a heating pipe, characterized in that formed by the combination of a plurality of divided unit connector (11)