KR200242764Y1 - Fan Type Near Infrared Heater - Google Patents

Abstract

The present invention is a heater of the fan structure having a rotating part attached to the guard net 15 on the main body 10, comprising: a mirror-type metal reflector plate 20 coupled to form an inner space to the rear of the guard net 15; An annular near-infrared lamp (30) mounted in an inner space between the guard net (15) and the mirror-type metal reflector (20); And it characterized in that it comprises a controller 40 for appropriately changing and interrupting the power applied to the near-infrared lamp 30.

Accordingly, the high-efficiency near-infrared lamp is rotated to a certain range, thereby increasing the heating effect and reducing the electric charge.

Description

Fan Type Near Infrared Heater

The present invention relates to a fan-type near-infrared heater, and more particularly, to a fan-type near-infrared heater that can reduce electric charges by rotating a high-efficiency near-infrared lamp to a certain range and increasing the heating effect of the near-infrared.

Gas heaters in the 300 to 400 ° C temperature range and far-infrared heaters in the 400 to 500 ° C temperature range are commonly used as heat sources that are usually emitted. However, in the case of gas heaters, by-products are generated, so the air must be ventilated frequently. In the case of far-infrared heaters, there are no by-products, but the air should be ventilated from time to time.

In addition, this type of heater is a convection method for heating the object while heating the air, so the heat loss is large, if there is a flow of air, such as wind, there is a drawback that the use is limited to indoor heating only because the heating function is significantly reduced.

In addition, the time required to reach the maximum output power is about 3 minutes, the far-infrared heater takes about 5 minutes, so it is not suitable for instant heating or frequent on / off.

Recently, a fan-type heater that rotates to a certain range has been released and received favorable reviews, but the far-infrared method has a local heating effect, and the gas method is difficult and dangerous in terms of structure.

Therefore, an object of the present invention is to solve the above problems, to provide a fan-type near-infrared heater that can reduce the electric charge while increasing the heating effect by the near-infrared by rotating a high-efficiency near-infrared lamp.

1 is a perspective view showing the appearance of a heater according to the present invention,

2 is a cross-sectional view showing the main part of the heater according to the present invention;

3 is a block diagram showing a main circuit of a heater according to the present invention.

Explanation of symbols on the main parts of the drawings

10: main body 15: protective net

20 miller type metal reflector 25 cover

30: near-infrared lamp 35: heat sink

40: controller 44, 45, 46: switch

In order to achieve the above object, the present invention provides a heater of a fan structure having a rotating part to which a guard net 15 is attached on a main body 10: a miller-type metal coupled to form an inner space behind the guard net 15. Reflector plate 20; An annular near-infrared lamp (30) mounted in an inner space between the guard net (15) and the mirror-type metal reflector (20); And it characterized in that it comprises a controller 40 for appropriately changing and interrupting the power applied to the near-infrared lamp 30.

As another feature of the present invention, the Miller-type metal reflector 20 has an annular groove 20a having a W-shaped cross section to accommodate the near-infrared lamp 30 at the same distance.

As another feature of the present invention, the rear of the Miller-type metal reflector 20 further includes a cover 25 coated with a ceramic having heat resistance.

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

1 is a perspective view showing the appearance of a heater according to the present invention.

The present invention relates to a heater having a fan structure having a rotating part to which the guard net 15 is attached on the main body 10. The fan is equipped with a pair of front and rear protection nets and the wings are mounted therein, while the heater of the present invention is coupled to the Miller-type metal reflector plate 20 to the rear of the protection net 15 to form an internal space. When the general reflector is used, since the thermal efficiency is lowered to 50% or less, the Miller-type metal reflector 20 is used.

In addition, according to the present invention, an annular near-infrared lamp 30 is mounted in the inner space between the protection net 15 and the Miller-type metal reflector 20. When heating the heating element by electricity, it is classified into near-infrared, mid-infrared, and far-infrared according to the temperature of the heating element. Only near-infrared rays emitted at 2200 ° C have a short wavelength that goes straight without being affected by air. This is because the wavelength of the near infrared is 0.8 ~ 1.2㎛ range because the heat transfers the radiant heat of short wavelength rather than heating by convection.

In this case, the near-infrared lamp 30 according to the present invention uses a near-infrared halogen lamp (special metal coating).

In addition, according to the present invention, there is provided a controller 40 for appropriately changing and interrupting the power applied to the near-infrared lamp 30. The controller 40 rotates or stops the main switch 44 to control the power, the variable resistance switch 45 to adjust the strength and weakness of the power supply, and the rotating unit assembled with the Miller-type metal reflector 20. ). The configuration for rotating the rotating unit can be applied in the same manner as the fan.

2 is a cross-sectional view showing the main portion of the heater according to the present invention.

Miller-type metal reflector 20 according to the present invention is provided with an annular groove (20a) of the W-shaped cross-section to accommodate the near infrared lamp 30 at the same distance. The near-infrared lamp 30 is positioned at the center of the parabola formed by the annular groove 20a to maximize the reflection ability. According to this configuration, since the reflected heat is increased up to 90%, the 900W output of the far infrared heater and the 500W output of the near infrared heater have the same efficiency, thereby reducing the electric charge.

At this time, the rear of the Miller-type metal reflector 20 further includes a cover 25 coated with a ceramic having heat resistance. The heater using the near-infrared lamp 30 is accompanied by a heat sink 35 for dissipating heat structurally. When the heat sink 35 is installed in the space between the miller type metal reflecting plate 20 and the cover 25, since the heat generated from the heat sink 35 is not all dissipated through the miller type metal reflecting plate 20, the time is increased. As the temperature of the cover 25 increases, there is a fear of causing burns to the user. In this way, in order to protect the extreme temperature and thermal shock acting on the cover 25, an ultra-high temperature ceramic coating is coated.

The coating agent for the coating of the cover 25 is mainly composed of ceramics, and has a cubic structure in which unit particles are regularly arranged with an inorganic oxide composite, a titanic acid (TiO ₂ ) aluminum solid solution, silicide Monticellite (MCS), or the like. Cubic) form not only can withstand 1000 ℃ but also has firm elasticity and good wear resistance.

3 is a block diagram showing a main part circuit of the heater according to the present invention.

The controller 40 implements a triac (TRIAC) system in an adjustable range of zero to a maximum power consumption (eg 4.0 kW). In the figure, a configuration for operating the rotating unit in conjunction with the switch 46 described above is omitted.

On the other hand, when the main body 10 falls, it is also possible to add the function which turns off the power of the near-infrared lamp 30 automatically.

Since the conventional far-infrared heater is a coil type, the maximum heating temperature is 400 ° C., but the near-infrared method has a maximum heating temperature of 900 ° C., so the efficiency thereof is about twice as high at the same power consumption. The biggest reason is that only near-infrared wavelength can double the efficiency to the Miller type metal reflector 20 only. Accordingly, the heater of the present invention reaches a heating distance of 12 m, while the conventional far-infrared heater has an efficiency of less than 50% and a heating distance of about 3 m.

According to the above configuration and operation, the present invention has the effect of reducing the electric charge while increasing the heating effect by the near infrared by rotating the high-efficiency near-infrared lamp to a certain range.

It is apparent to those skilled in the art that the present invention is not limited to the embodiments described, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or modifications will have to belong to the utility model registration claims of the present invention.

Claims (3)

In the heater of the fan structure having a rotating part attached to the guard net 15 on the main body 10: A mirror-type metal reflector plate 20 coupled to form an inner space behind the guard net 15; An annular near-infrared lamp (30) mounted in an inner space between the guard net (15) and the mirror-type metal reflector (20); And Fan-type near-infrared heater, characterized in that it comprises a controller (40) to properly change and regulate the power applied to the near-infrared lamp (30). The method of claim 1, The Miller-type metal reflector 20 has a fan-shaped near-infrared heater, characterized in that it has an annular groove (20a) of the W-shaped cross-section to accommodate the near-infrared lamp (30) at the same distance. The method of claim 1, A fan-type near-infrared heater further comprising a cover 25 coated with a ceramic having heat resistance at a rear side of the Miller-type metal reflecting plate 20.