KR200396426Y1 - A heating piping conducted heat - Google Patents

Abstract

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

In constructing a tube (10) having excellent thermal conductivity at the edge of the heating wire (20), and in constructing a heat sink (30) for easily dissipating heat on the surface of the tube,

The inside of the tube 10 is composed of a vacuum, and by injecting a chemical having a low boiling point into the heat conductive material 40, the heat of the hot wire 20 can be quickly transferred to the surface of the tube. There is a characteristic that can maximize the heating efficiency.

Description

A heating piping conducted heat

The present invention relates to a pipe for heating the heat conductor, comprising a heating wire 20 for generating a high temperature and a tube 10 wrapped around the outer surface of the heating wire, between the tube 10 and the heating wire 20 has a low boiling point heat conduction It relates to a heating pipe made of a vacuum while containing the material (40).

Conventionally, domestic boilers realize heating by burning oil or gas to heat water to circulate the heated water through metal pipes or synthetic resin pipes disposed in areas requiring heating. Metal pipes, synthetic resin pipes, and the like, which have passages, have low heat dissipation efficiency.

In addition, the greenhouse heating system mainly uses the heat generated by digesting raw materials such as kerosene and petroleum to supply the inside of the greenhouse, and foreign substances generated during combustion move with hot air and adhere to the crops in the greenhouse. There is a problem such as.

Therefore, it is necessary to devise a design for a heating pipe that can be quickly transferred to heat while increasing the efficiency of thermal energy, and can be widely used in various boilers, greenhouses, drying rooms, and the like.

In order to solve the above problems, the present invention constitutes two or more heating wires 20 (filament lines) inside the tube 10, and configures a heat sink 30 outside thereof, and has a low boiling point heat conduction in the tube. It is configured to be in a vacuum state while containing the material 40 to configure the heating piping unit (unit) 100, and by installing the heating piping unit connected to the entire heating zone as a separate unit connector 200, around 300 ℃ It is an object of the present invention to maximize the heating efficiency by the heat is quickly transferred to the surface of the tube 10 when the high temperature circulates through the heating wire 20 and heat dissipation.

1 is a perspective view of a heating piping unit of the present invention, Figure 2 is a perspective front view of the heating piping unit of the present invention, Figure 3 is a front view of the heating piping of the present invention when described in detail through the drawings as follows. .

In the heat conductor heating pipe of the present invention, a plurality of heating piping units (unit) 100 are uniformly arranged throughout the heating zone, and are configured as a separate unit connector 200 so that the whole is formed. The configuration of the piping unit 100 will be described with reference to FIGS. 1 and 2.

The heating piping unit 100 of the present invention, the heating wire 20 heated to a high temperature, and the other end of the heating wire is wrapped around the surface of the tube (tube) 10, the both ends are sealed, The inside of the tube 10 is maintained in a vacuum while containing a low boiling point (沸騰 點, boiling point) as a thermal conductive material (40).

The heating wire uses a filament or the like, and when the heating wire 20 is heated to about 300 ° C., the heat is a low boiling point thermally conductive material 40 contained in the tube 10, for example, chloroform, Trichloromethane, boiling point of 60 ° C.), and in the process, vaporized chloroform gas acts as a thermal conductive material 40 to transfer the heat to the surface of the tube 10, thereby dissipating heat from the surface of the tube. The heat sink 30 as a whole is configured on the surface of the tube so that heat is easily dissipated. At this time, the tube is made of a good thermal conductivity metal material, the heat sink can be produced in a variety of forms, it may be composed of a plurality of heat sinks composed of a single interval or a single heat sink of a spiral type.

On the other hand, the tube 10 is a quadrangular or circular tubular shape as a whole, the inside is composed of two or more heating wires 20, one of which is connected to the outlet of the high temperature heat from the boiler 300, Another one is to be connected to the inlet to the boiler 300 to minimize the heat transfer loss,

One heating piping unit 100 composed of the heating wire and the tube, there is a feature that facilitates the production, installation and transportation of the user, as shown in Figure 3 heating wire unit 20 in the heating piping unit 100 The unit connector 200 is configured at an end of the unit to facilitate the interconnection of the units.

1 and 2 illustrate a heating piping unit, wherein the inside of the metallic tube 10 is maintained in a vacuum state, but the chloroform and other mixtures are added as a thermal conductive material 40 in the interior of the tube 10 per volume. Injecting at ~ 10%, when the heat higher than the boiling point of the thermal conductive material is applied to one end of the tube 10, the thermal conductive material 40 is rapidly diffused while vaporizing. As a result, heat is rapidly transferred to the other end of the tube 10. For example, when heat is applied to one end of a thermal conductor pipe having a length (l) of 8 m, heat is applied to the other end after about 7 seconds. Delivered.

In addition, the heating wires 20 to which the heat transfer medium moves may be spaced apart at regular intervals to constitute two or more, leaving both ends of the heating wires, and a tube 10 configured to surround the remaining heating wires, the surface of the tube The heat sink 30 is configured.

In the heat conductor heating pipe of the present invention, the heat of the heating wire heated to about 300 ° C. by the boiler 300 in the heating wire 20 is transferred to the tube 10, and the heat conduction included in the tube 10 during the heat transfer process. The material 40 vaporizes and diffuses quickly within the tube 10, where the diffused gas transfers heat to the surface of the tube and thus heat is released into the atmosphere by the heat sink 30 on the surface.

3 shows that the heating piping unit 200 according to the present invention is connected in series and the heating wires 20 at one end of the unit are connected to the outlet and the inlet of the boiler, respectively, and at the other end of the unit. The heating wires 20 are connected to each other to provide a feedback action to send the heat of the heating wires from the boiler 300 back to the boiler 300.

In addition, the ends of the heating wire 20 should be coupled to each other in order to facilitate the coupling, it can be configured using a variety of unit connector 200, such as bolts, nuts, adhesives.

Through the heat conductor heating pipe of the present invention,

First of all, it is energy efficient, and heat is rapidly generated on the surface of the tube 10 through the low boiling point thermal conductive material 40 so that it can be heated to a desired place by using pollution-free heat. There is no concern about the cost, the cost is low, and the composition is relatively simple.

1 is a perspective view of a heating piping unit of the present invention

Figure 2 is a perspective front view of the heating piping unit of the present invention

3 is a front view of a heating pipe of the present invention

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

10 tube 20 heating wire

30: heat sink 40: heat conductive material

100: heating piping unit 200: unit connection port

300: boiler

Claims (5)

In the heating piping, An elongated heating wire 20 through which the heated heat transfer medium passes, It surrounds the surface of the remaining tube 10 except for both ends of the heating wire 20, the both ends are sealed, the sealed inside is composed of a tube containing a thermally conductive material is a low boiling point chemical, and is maintained in a vacuum state Plumbing for thermal conductor heating comprising a. The method of claim 1, A pipe for heating the heat conductor, which includes two or more heating wires 20 formed inside the tube 10. The method according to claim 1 or 2, A heat conductor heating pipe comprising a heat sink 30 formed on the surface of the tube 10. The method of claim 1, The heating wire (20) and the tube (10) is made of one unit (100), the heat conductor heating pipe comprising a unit connector (200) configured to connect the heating wire of the unit. The method of claim 1, The thermally conductive material 40 is a material capable of heating to about 300 ° C, the heat conductor heating pipe comprising one to 10% of the internal volume