KR200200444Y1 - Filament for heater - Google Patents

Abstract

The present invention forms a filament installed in a glass tube with a double helix to emit infrared rays, which is easy to install even in a curved glass tube, and it is possible to adjust the temperature distribution by varying the pitch, excellent thermal efficiency, and change the inner diameter or length of the glass tube. The present invention relates to a filament for a heater that can be easily manufactured and applied, and which is easily manufactured, which is formed of a double spiral of a filament installed inside a glass tube. In addition, the pitch of the filament is to be variable to adjust the temperature distribution inside the curved glass tube.

Description

Filament for heaters {FILAMENT FOR HEATER}

The present invention relates to a filament for a heater, and more particularly, by forming a filament installed in a glass tube in a double helix to emit infrared rays, not only is easy to install in a curved tube, but also a variable pitch to adjust the temperature distribution, heat Excellent efficiency and can be manufactured and applied to change the glass diameter or length It is related with the filament for heaters which is easy to manufacture.

In general, a hearth is a heating device that warms the entire room, and various forms and structures are widely known. In recent years, a clean, safe electric heater without odor and combustion exhaust gas has been widely used.

In such an electric stove, by inserting a filament, which is a heating wire, into a glass tube to generate heat, infrared rays are radiated and heated.

However, the filament installed in the conventional glass tube has a problem in manufacturing it is difficult to form a heating wire by winding the filament (1) with a single coil as shown in the accompanying drawings.

That is, after winding the filament (1) on the tapered flat plate (not shown in the drawing) is to remove the filament from the flat plate, it is not easy to insert it into the glass tube (2).

That is, since the filament 1 is wound on an angled flat plate, cracks occur and defects are generated.

In addition, there was a risk that the glass tube 2 bursts due to overheating because the temperature is the highest at the central portion of the glass tube 2.

In particular, in the case where the curved glass tube 3 is superimposed as shown in the accompanying drawings, the temperature is overheated at the central portion.

That is, by winding the filament 1 with a single coil and inserting it into the curved glass tube 3, the pitch cannot be varied, whereby the filament 1 overlaps with a high temperature at the central portion and is overheated.

In addition, the filament 1 made of short coils has a problem of lowering in thermal efficiency.

The present invention has been made to solve such a conventional problem, the object of the present invention is to provide a filament for a heater to emit infrared rays by forming a filament in a double helix installed in the glass tube.

In addition, another object of the present invention is to provide a filament for a heater that can adjust the temperature distribution by varying the pitch of the filament according to the application.

1 is a front view showing a heater to which a conventional filament is applied.

Figure 2 is a front view showing another conventional heater.

3 is a front view showing a heater to which the filament of the present invention is applied.

Figure 4 is a front view showing a heater of another form of the present invention.

(Explanation of symbols for the main parts of the drawing)

100: heater 10: glass tube

10 ': curved glass tube 20: filament

21: small diameter spiral 22: large diameter spiral

30: lead wire 40: connection board

The present invention for solving this purpose is to form a filament of a double helix installed inside the glass tube.

In addition, the pitch of the filament is to be variable to adjust the temperature distribution inside the curved glass tube.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

3 is a view showing a state in which the filament for a heater of the present invention is applied to a straight glass tube, and reference numeral 100 denotes a heater.

The heater 100 includes a glass tube 10, a filament 20 inserted therein, a lead wire 30 provided at both ends of the filament 20, and the filament 20 and the lead wire 30. It is connected by the connecting plate 40 to connect.

Glass tube 10 has a melting point of quartz that can withstand high temperatures of about 1,700 ° It is preferable to use the glass tube 10.

The filament 20 is made of tungsten with proper electrical resistance, heat resistance, and consists of double helixes 21 and 22.

That is, after winding the small diameter spiral 21, this small diameter spiral 21 is wound by the large diameter spiral 22. As shown in FIG.

It is preferable that the lead wire 30 and the connecting plate 40 are made of a molybdenum material which is well connected with electricity and can withstand high temperatures.

4 is a view showing a state in which the filament of the present invention is applied to the curved glass tube, which shows a long pitch of the filament 20 at the curved portion of the curved glass tube 10 '.

That is, the filament 20 of the present invention is made of a double helix (21) 22 can easily adjust the pitch, it is advantageous for safety to lengthen the pitch by the large electrical resistance acts on the curved portion of the curved glass tube.

In addition, in the straight glass tube 10, a pitch may be extended to the center portion to prevent temperature overheating at the center portion.

On the other hand, reference numeral 50 denotes a vacuum forming hole.

Referring to the manufacturing process of the filament according to the present invention in detail.

The filament 20 according to the present invention is first wound the small diameter spiral 21, and then wound again with a large diameter spiral 22, to produce a filament 20.

The filament 20 manufactured as described above serves as a heating wire and can withstand high temperatures It is inserted inside the quartz glass tube 10.

As shown in FIG. 4, in the curved portion of the curved glass tube 10 ′, the filament 20 is formed to increase the pitch of the curved portion to prevent overheating.

After the filament 20 is inserted into the glass tube 10, the lead wire 30 and the connecting plate 40 are connected to each end of the filament 20 to be compressed, and the air is drawn out through the vacuum forming hole 50 to remove the inside of the glass tube 10. After the vacuum is made and the halogen gas is added and sealed at the same time to manufacture the heater 100.

Then, when the completed glass tube heater 100 is installed in the heat transfer mechanism to apply power through the lead wire 30, current flows and heats the filament 20 to radiate infrared rays to the outside.

By forming a filament installed in the glass tube of the present invention as described in detail above in a double helix to emit infrared rays, it is easy to install even in a curved tube, it is possible to adjust the temperature distribution by varying the pitch.

In addition, by forming the filaments in double helix, the thermal efficiency is also excellent and the manufacturability is easy.

Claims (2)

A filament for a heater, characterized in that the filament (20) installed in the glass tube (10) is formed of a double helix (21) (22). The method of claim 1, Heater filament to control the temperature distribution inside the curved glass tube (10 ') by varying the pitch of the filament (20).