KR200451122Y1 - Nano-carbon radiating pipe - Google Patents

Abstract

The present invention mainly relates to a nano-carbon heat dissipation tube used in various electric heaters such as a hot air heater, a dryer, a boiler, and the like.

The nano-carbon heat dissipation tube (A) of the present invention is connected to the carbon fiber heating element 20, and a part of the connection line 30 penetrating the both sides sealing portion 12 of the glass tube 10 is a ceramic formed at the end of the sealing portion 12. It is fixed by the fixing part 40, and the protrusion projecting to the side of the fixing part is connected to the terminal 50 formed on the outer surface of the sealing part 12, the connection line 30 by impact or movement during handling and installation process, etc. Elimination of disconnection concerns and by the connection with the socket (62) using the terminal 50 is made so that the connection between the neighboring nano-carbon heat dissipation tube is made so that the installation work can be made quickly and easily.

Description

NANO-CARBON RADIATING PIPE}

The present invention mainly relates to a nano-carbon heat dissipation tube used in various electric heaters such as a warm air heater and a dryer and a boiler.

Nano-carbon heat dissipation tube is a heat generated by coil-shaped carbon fiber heating element inserted into glass tube. Compared with general nichrome wire heating element, it consumes much less power and prevents harmful electromagnetic waves. It is widely used in various electric appliances such as dryers and boilers.

As a prior art of such a carbon nanotube heat dissipation can be cited as the Utility Model No. 412259, which is connected to both ends of the carbon fiber heating element inserted into the glass tube to the outside of the left and right sealing portion for maintaining the vacuum of the glass tube It is configured to connect the electric wire through the exposed connection line so as to protrude and then fix the connection part to the fixing part.

Therefore, even if the connecting wire connecting the carbon fiber heating element and the wire is made of steel wire, the connecting wire penetrates the inside of the glass tube when the sealing part is formed by applying heat of about 1500 ℃, the melting temperature of the glass tube, to the both ends of the glass tube to maintain the vacuum of the glass tube. Because of the high heat applied to the wires, the strength is greatly reduced. Therefore, even when the wires are connected to the wires, even if the wires are formed after the wires are connected, the gap between the wires may occur due to the covering of the wires. Considering the absence, when the movement is given through the wires during handling and installation, the connection part of the weakened connection line is easily disconnected due to heat, so a defect is generated.

In addition, the nano-carbon heat dissipation tube itself has no fixing means, so it is fixed to maintain a predetermined interval by using separate connecting pieces as many as necessary for installation on a heating device, such as a hot air fan, and then the adjacent nano carbon through both wires Since the heat pipes must be connected and connected one by one, it takes a lot of work time and manpower, and many problems are pointed out such that the work is very demanding due to the demand for attention to disconnection.

The present invention can prevent the occurrence of defects caused by the disconnection of the carbon fiber heating element and the connecting line connecting the wires, and can eliminate the financial loss caused by the failures, and can be quickly and easily installed when installed in the desired heating equipment. The purpose is to provide a nano-carbon heat dissipation tube that can lower the manufacturing cost.

The purpose of the present invention is to connect the connecting line projecting outside the sealing part of the glass tube with the terminal formed around the sealing part to prevent the movement of the connecting line by the terminal, and the wire is different from the other nano carbon heat dissipation tube in the installation and use. Rather, it is achieved by a nanocarbon heat sink that allows for simple connection through a socket.

The nano-carbon heat dissipation tube (A) of the present invention is fixed without movement by connecting a connection line 30 connecting the carbon fiber heating element 20 to a terminal 50 formed on the outer surface of the sealing portion 12 of the glass tube 10 roundly. Therefore, it is possible to prevent the occurrence of defects due to the disconnection of the connection line 30 in the handling and installation process after manufacture, so that it is possible to eliminate the financial loss due to the occurrence of defects, and the socket (62) of the power supply 60 without wires during installation The installation is completed by coupling the terminal 50 to), so that the installation work can be made quickly and easily, thereby reducing the workforce and time.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which like elements are denoted by the same reference numerals as possible, and detailed descriptions of related known technologies or functions are unclear to the gist of the present invention. It will be omitted in order not to be supported.

Figure 1 is a perspective view of the present invention, Figure 2 is a partial cross-sectional configuration of the present invention, the carbon nanofiber heating element 20 is inserted into the glass tube 10 of the present invention nanocarbon heat dissipation tube (A), The carbon fiber heating element 20 is connected to the connection line 30, the connection line 30 is projected to the outside through the both sides sealing portion 12 of the glass tube 10, a part of which is fixed to the end of the sealing portion 12 The protrusion protruding to the side of the fixing part 40 in the state fixed by the ceramic fixing part 40 is configured to be connected to the terminal 50 which is formed around the sealing part 12 outside.

However, the present invention does not necessarily require the fixing part 40 formed at the end of the sealing part 12 of the glass tube 10, and instead of removing the fixing part, the terminal surrounds the sealing part of the glass tube as a whole, so that the outside of the sealing part It should be noted that the protruding connecting line may not be exposed in appearance.

In addition, the present invention satisfies that the terminal 50 surrounding the sealing portion 12 of the glass tube 10 has a form that can be connected as it is for connection, but as a connection means with the power supply 60 (socket ( If 62) is used, it is preferable to form a cylinder.

The present invention is connected to the carbon fiber heating element 20 through the connecting line 30 through the sealing portion 12 of the glass tube 10, although in the heat bonding process of the sealing portion 12 for maintaining the vacuum of the glass tube 10 High heat is applied to weaken the strength, but protrudes to the side of the fixing part in a state in which the connecting line 30 protruding outside the sealing part 12 is fixed by the ceramic fixing part 40 formed at the end of the sealing part 12. By allowing the protrusion to be connected to the terminal 50 formed on the outer surface of the sealing part 12, the connection line 30 protruding outside the glass tube 10 is not exposed at all in appearance, and the fixing part 40 and the terminal ( Since it is firmly fixed without movement by 50), there is no fear of direct impact or movement given during handling and installation, thereby eliminating the occurrence of defects due to disconnection of the connection line 30.

The connection line 30 protruding out of the glass tube 10 is connected to the terminal 50 without a wire, and the terminal 50 is coupled to the socket 62 of the power supply 60 installed side by side at the time of installation. If you give a connection to the adjacent nano-carbon heat dissipation tube (A) can not only reduce the manpower and time during installation work, but also easy to handle and install work as it eliminates the disconnection concerns of the connection line will be.

1: perspective view of the present invention

2 is a main cross-sectional cross-sectional configuration of the present invention

3 is a main longitudinal cross-sectional configuration of the subject innovation

4: State of use of the subject innovation

<Description of the symbols for the main parts of the drawings>

(A)-nanocarbon heat dissipation tube (10)-glass tube

(12)-sealing (20)-carbon fiber heating element

(30)-Connecting Line (40)-Fixed

(50)-terminal (60)-power supply

(62)-Socket

Claims (1)

In the nano-carbon heat sink configured to be connected to the power supply through the terminal by connecting the connecting line formed to the carbon fiber heating element in the glass tube through the left and right sealing portion, the connecting line passing through the sealing portion 12 of the glass tube 10 The terminal 30 protrudes toward the side of the fixing part 40 fixedly formed at the end of the sealing part 12 so as to surround the sealing part 12 and a part of the fixing part 40. Nano-carbon heat dissipation tube, characterized in that configured to be connected to (50).

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