KR20110108911A - Electric heater having high pin and manufacturing method for the same - Google Patents

Abstract

The present invention relates to a heat transfer heater having a high fin and a method of manufacturing the same, and more particularly, by forming a plurality of heat radiation fins by using a roller on the outer circumferential surface of the heater pipe in which the heating wire is embedded to improve the heat exchange performance of the heater and the device The present invention relates to a heat transfer heater having a high fin and a method of manufacturing the same.
As a technical idea for achieving the above object, the present invention, the through-hole is formed in the center, a plurality of heat radiation fins are formed along the outer peripheral surface; A protective cap sealing both ends of the heater pipe; A heating wire provided inside the heater pipe and generating heat when external power is supplied; Connecting terminals respectively provided at both ends of the heating line and penetrating the protective cap to connect the heating line and an external power source; And it is achieved by providing a heat transfer heater with a high fin, characterized in that it comprises a; and a filler is filled in the heat pipe.
In addition, the manufacturing method of the heat transfer heater with a high fin according to the present invention comprises the steps of manufacturing a cylindrical heater pipe; Installing a heating wire and injecting a filler in the manufactured heat pipe; Connecting a connection terminal to the heating line and sealing both ends of the heat pipe by using a protective cap through which the connection terminal is penetrated; And forming a heat radiation fin on an outer circumferential surface of the heater pipe using a roller.

Description

ELECTRIC HEATER HAVING HIGH PIN AND MANUFACTURING METHOD FOR THE SAME

The present invention relates to a heat transfer heater having a high fin and a method of manufacturing the same, and more particularly, by forming a plurality of heat radiation fins by using a roller on the outer circumferential surface of the heater pipe in which the heating wire is embedded to improve the heat exchange performance of the heater and the device The present invention relates to a heat transfer heater having a high fin and a method of manufacturing the same.

Electric heating devices such as electric stoves have been recently used due to the advantages of being safe, without smell, and needing to inject fuel only by supplying power. In particular, in the case of using a combustion heater in an enclosed space such as an apartment or an office, the amount of carbon monoxide and carbon dioxide increases in the room, which is not only harmful to health, but also worsens the work environment due to poor work environment. Therefore, in these indoor spaces, in particular, the electric heater is used a lot.

1 is a view showing a heat transfer heater according to the prior art.

Referring to FIG. 1, the heat transfer heater according to the related art includes a cylindrical heater pipe 10 having both ends open, a protective cap 20 for sealing both ends of the heater pipe 10, and an inner side of the heater pipe 10. Is provided in the heating wire 30 for generating heat when the external power is supplied, and connecting terminals for connecting the heating wire 30 and the external power supply (not shown) through the protective plug 20, respectively provided at both ends of the heating wire 30 40 and a filler 50 which is filled in the heater pipe 10 to fix the position of the heating wire 30 and at the same time function as insulation and heat storage.

Heater pipe 10 is used a metal or ceramic, such as strong corrosion resistance and good heat transfer efficiency. The protective cap 20 seals both ends of the heater pipe 10 to prevent moisture or foreign matter from flowing into the heater pipe 10.

The heating wire 30 emits high temperature by strong electrical resistance when power is supplied from the outside, and the heat emitted by the heating wire 30 heats water or air around the heater pipe 10. The electric heater has a variety of known in the configuration and the material of each component, the basic configuration and principle are as described above.

On the other hand, the heat transfer heater according to the prior art has a low heat transfer efficiency between the heater pipe 10 and the outside air, and if the temperature of the heating wire 30 is increased, the heater pipe 10 and the heating wire 30 are excessively heated, and the device Its life is shortened, there was a problem that takes a lot of time to heat the outside air.

The present invention is to solve the above problems, by forming a heat radiation fin on the outer circumferential surface of the heater pipe to increase the contact area with the outside air heat transfer heater with a high fin to improve the heat transfer efficiency and durability of the heater and its manufacturing method It is about.

As a technical idea for achieving the above object, the present invention, the through-hole is formed in the center, a plurality of heat radiation fins are formed along the outer peripheral surface; A protective cap sealing both ends of the heater pipe; A heating wire provided inside the heater pipe and generating heat when external power is supplied; Connecting terminals respectively provided at both ends of the heating line and penetrating the protective cap to connect the heating line and an external power source; And it is achieved by providing a heat transfer heater with a high fin, characterized in that it comprises a; and a filler is filled in the heat pipe.

In addition, the manufacturing method of the heat transfer heater with a high fin according to the present invention comprises the steps of manufacturing a cylindrical heater pipe; Installing a heating wire and injecting a filler in the manufactured heat pipe; Connecting a connection terminal to the heating line and sealing both ends of the heat pipe by using a protective cap through which the connection terminal is penetrated; And forming a heat radiation fin on an outer circumferential surface of the heater pipe using a roller.

According to the heat transfer heater with a high fin according to the present invention and a manufacturing method thereof, the heat dissipation fin is provided on the outer circumferential surface of the heater pipe to increase the contact area between the heater pipe and the outside air, thereby improving the heat transfer efficiency and energy efficiency of the heater. In particular, by integrally forming the heat radiation fin and the heater pipe has an effect of further improving the durability and heat transfer efficiency of the heater.

1 is a view showing a heat transfer heater according to the prior art.
Figure 2 is a perspective view showing the configuration of the heat transfer heater according to the present invention.
3 is a cross-sectional view of the heat transfer heater according to the present invention.
Figure 4 is a view showing a method of manufacturing a heat transfer heater with a high fin according to the present invention.
5 is a view schematically showing a state of forming a heater pipe using a roller;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing the configuration of the heat transfer heart according to the present invention, Figure 3 is a cross-sectional view of the heat transfer heart according to the present invention.

2 and 3, the heat transfer heater according to the present invention includes a heater pipe 110 and a heater pipe 110 in which a through hole is formed in a center portion and a plurality of heat radiation fins 115 are formed along an outer circumferential surface thereof. Protective caps 130 for sealing both ends of the heating pipe 100, and provided inside the heater pipe 100 is provided with heating wires 150 and the end of each of the heating wires 150 to generate heat when external power is supplied and the protective caps 130 Filling material that penetrates through the connection wire 170 and the heater pipe 110 to connect the heating wire 150 and an external power source (not shown) to fix the position of the heating wire 150, and at the same time to insulate and heat storage And 190.

Heater pipe 110 is a metal material with good corrosion resistance and heat transfer efficiency, the through hole is formed in the center, a plurality of heat radiation fins 115 are formed at regular intervals on the outer peripheral surface. The heat dissipation fins 115 extend vertically along the outer circumferential surface of the heater pipe 110.

When the heat dissipation fins 115 are provided on the outer circumferential surface of the heater pipe 110, the contact area between the heater pipe 110 and the outside air increases and heat exchange occurs more actively, thereby preventing the heater pipe 110 from being heated excessively. The service life is extended, and water or air of the outside air contacting the heater pipe 110 is heated more quickly, thereby increasing energy efficiency and shortening the heating time.

The heat dissipation fins 115 are integrally molded to the heater pipe 110. When the heat dissipation fins 115 are manufactured separately from the heater pipes 110 and are combined with each other by welding or the like, the heat transfer efficiency decreases, and in order to weld the heat dissipation fins 115 to the heater pipes 110 between the heat dissipation fins 115. Since a constant welding space must be secured, the number of heat radiation fins 115 that can be attached to the outer circumferential surface of the heater pipe 110 is reduced.

Therefore, in the present invention, the outer circumferential surface of the heater pipe 110 is integrally formed by using a roller having a groove corresponding to the shape of the heat dissipation fins 115, so that the desired quantity and spacing are not limited to the distance between the heat dissipation fins 115. It is possible to mold the heat radiation fins 115. A method of forming the heat radiation fins 115 on the outer circumferential surface of the heater pipe 110 will be described in detail later.

The protective cap 130 seals both ends of the heater pipe 110 to prevent moisture or foreign matter from flowing into the heater pipe 110. Since the heating line 150 is provided inside the heater pipe 110, when moisture or the like is introduced or foreign matters are introduced, the heating line 150 may be oxidized or short-circuited and discharged, thereby lowering the heating efficiency.

The heating line 150 is a resistor made of metal such as nichrome (Ni-Cr) or iron chromium (Fe-Cr), and various heating elements known to generate resistance heat when electricity is supplied may be used.

The heating element 150 is spirally provided in the through-hole of the heater pipe 110, the filler 190 is filled around the heating element 150, and connection terminals 170 are provided at both ends of the heating element 150. The filler 190 is filled in the periphery of the heating element 150 to prevent the heating element 150 from moving, and functions as insulation and heat storage.

When the filler 190 is not filled in the heater pipe 110, there is a concern that a short may occur due to the movement of the heating element 150. The empty space part functions as an insulating layer to block heat transfer, thereby reducing heat transfer efficiency. do.

Filler 190 should be easily filled in the through-hole provided with the heating wire 150, having excellent insulation and thermal conductivity and at the same time must be able to withstand high heat. For this reason, magnesia (MgO) or quartz powder in powder form is often used as the filler 190.

The connection terminal 170 is provided to penetrate through the protective cap 130 provided at both ends of the heater pipe 110, one end of which is connected to the heating line 150 provided in the heater pipe 110, and the other end thereof to the outside. It is exposed and connected to a power source (not shown).

Figure 4 is a view showing a manufacturing method of a high-heat heater equipped with a heater according to the present invention, Figure 5 is a view schematically showing a state of forming a heater pipe using a roller.

Referring to FIG. 4, the method of manufacturing a heat transfer heater with a high fin according to the present invention includes the steps of manufacturing a cylindrical heater pipe 110 (S10); Installing a heating wire 150 on the manufactured cylindrical heat pipe 110 and injecting the filler 190 (S30); Connecting the connection terminal 170 to the heating line 150 and sealing both ends of the heat pipe 110 using the protection plug 130 through which the connection terminal 170 penetrates; And forming a heat dissipation fin 115 on an outer circumferential surface of the heater pipe 110 using a roller.

Installing the heating wire 150 inside the heater pipe 110 and injecting the filler 190 (S30) and installing the connection terminal and the protective plug (S50) may be performed by changing the order of some steps. have.

Referring to FIG. 5, the forming of the heat dissipation fins 115 on the outer circumferential surface of the heater pipe 110 by the method of manufacturing a heat transfer heater with a high fin according to the present invention includes a plurality of rollers having grooves formed at regular intervals ( 200 is faced to the outer circumferential surface of the heater pipe 110, and then the roller 200 is pressed while simultaneously rotating with the heater pipe 110.

Roller 200 is a metal of a material harder than the material of the heater pipe 110, the number, width and spacing of the grooves formed on the outer circumferential surface of the roller 200 according to the shape and number of the heat radiation fins 115 to be molded Can be configured in various ways.

As described above, in the detailed description of the present invention, specific embodiments have been described. However, various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

110: heater pipe
115: heat sink fins
130: protective cap
150: heating wire
170: connection terminal
190: filling material

Claims (3)

A heater pipe having a through hole formed at a center thereof, and having a plurality of heat dissipation fins formed along an outer circumferential surface thereof;
A protective cap sealing both ends of the heater pipe;
A heating wire provided inside the heater pipe and generating heat when external power is supplied;
Connecting terminals respectively provided at both ends of the heating line and penetrating the protective cap to connect the heating line and an external power source; And
A filler filled in the heat pipe;
Heated heater provided with a high fin, characterized in that comprising a. The method of claim 1,
The heat dissipation fin, the heat transfer heater with a high fin, characterized in that integrally molded on the outer peripheral surface of the heater pipe. Manufacturing a cylindrical heater pipe;
Installing a heating wire and injecting a filler in the manufactured heat pipe;
Connecting a connection terminal to the heating line and sealing both ends of the heat pipe by using a protective cap through which the connection terminal is penetrated; And
Forming a heat radiation fin on an outer circumferential surface of the heater pipe using a roller;
High-finned electrothermal heater manufacturing method characterized in that it comprises a.

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