KR200190440Y1 - Far infrared ray heater having fan - Google Patents

Abstract

The present invention relates to a far-infrared heat fan, in particular, by installing a fan (fan) at a certain position of the hot air fan to efficiently condense the heat radiated from the far-infrared combustion furnace to maximize the thermal efficiency and at the same time to operate the fan using a temperature sensor The present invention relates to a far-infrared heat fan having a fan that can maximize energy efficiency of fan operation by determining.

The present invention for achieving the above object is a case of the open form to release heat to the front surface forming the appearance, and a combustion furnace installed inside the case to generate a large amount of far infrared rays and radiate heat, and Reflecting plate which forms the back of the case which is the rear of the combustion furnace and reflects far infrared rays and heat, a fan which is installed on the upper part of the case and sucks air from the upper part and discharges it to the front of the case, and a temperature for measuring heat inside the case. It is composed of a sensor, not only radiant heat transfer but also heat transfer by convection at the same time, heat transfer is made quickly and provides the effect of maximizing thermal efficiency.

Description

Far infrared ray heater with fan {Far infrared ray heater having fan}

The present invention relates to a far-infrared heat fan, in particular, by installing a fan (fan) at a certain position of the hot air fan to efficiently condense the heat radiated from the far-infrared combustion furnace to maximize the thermal efficiency and at the same time to operate the fan using a temperature sensor The present invention relates to a far-infrared heat fan having a fan that can maximize energy efficiency of fan operation by determining.

As is generally known, far-infrared rays are not only far-infrared air heaters, but their effects are recognized in many respects. Ceramics are high-temperature, calcined porous fine chemically synthesized on the subject of iron oxide, magnesium oxide, calcium oxide, etc. As the structure, it radiates far infrared rays in the exothermic state to bring skin activation by resonance resonance phenomenon. Far infrared rays radiated from far infrared rays are used in water purifiers because they are used to sterilize drinking water sources due to bactericidal effect. It is also used in the refrigerator because of the air purification effect.

1 is a perspective view of a far-infrared heater according to the prior art.

Conventional far-infrared heater is a case (1) of the open form so as to discharge heat to the front surface forming an appearance, as shown in Figure 1, and installed inside the case (1) and generates a large amount of far infrared rays at the same time And a reflecting plate (3) which forms a rear surface of the case (1) which is a rear of the combustion furnace (2) and reflects far infrared rays and heat.

That is, the conventional far-infrared heater generates heat in the combustion furnace 2, and the generated radiant heat is radiated to the open front part of the case 1 together with the far-infrared rays generated by the ceramic, and then transferred to the surrounding space and the object. It will raise the temperature.

However, since the conventional far-infrared heater uses a radiant heat to radiate to the outside, when there is an obstacle on the front surface, the transfer of radiant heat is not performed properly, and the heat transfer rate is lowered.

The present invention is devised to solve the above problems of the prior art, and has a fan that allows rapid heat transfer using the form of convective heat transfer as well as the heat generated from the far infrared heater. The purpose is to provide a far infrared warmer.

1 is a perspective view of a far-infrared heater according to the prior art.

2 is a perspective view according to a first embodiment of the present invention;

3 is a perspective view according to a second embodiment of the present invention.

<Explanation of symbols about main parts of drawing>

50, 60: Case 51: Combustion Furnace

52: reflector 53, 61: fan

The first feature of the present invention is to open the front of the case, the furnace is installed inside the case and the ceramic-coated combustion furnace generating far-infrared radiation, and to heat the heat generated by the inner surface of the case to the surrounding space In the far-infrared heater including a reflector, it characterized in that the blowing means is installed so that the heat generated in the predetermined position of the case can be convection.

In addition, a second feature of the present invention is characterized in that the temperature sensor is installed so that the temperature inside the hot air fan can be measured, and the fan is configured to interlock with the temperature sensor.

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

First, the referenced drawings, Figure 1 is a perspective view according to a first embodiment of the present invention, Figure 2 is a perspective view according to a second embodiment of the present invention.

The first embodiment of the far-infrared hot air heater having a fan according to the present invention is a case 50 of the open form so as to discharge heat to the front surface as shown in Figure 2, and the inside of the case 50 A combustion furnace 51 which is installed in the furnace and generates a large amount of far infrared rays and radiates heat, a reflector 52 which forms a rear surface of the case 50 which is rear of the combustion furnace 51 and reflects far infrared rays and heat, A fan 53 installed on the upper part of the case 50 to suck air from the upper part and discharge the air to the front of the case 50, and a temperature sensor 54 measuring heat inside the case 50. .

That is, when the user turns on the switch 55 in order to use the far-infrared air heater, the combustion proceeds in the combustion furnace 51 and the heat generated is radiated heat transferred to the front of the case 50 through the radiant heat transfer and at the same time, the reflection plate. By the reflection of 52, it is reflected back to the front surface and radiant heat transfers. Here, when a predetermined time elapses, when the temperature sensed by the temperature sensor 54 becomes 50 ° C. or more, power is applied to the fan 53, and the fan 53 is operated accordingly to the combustion furnace ( The radiant heat of far infrared rays generated in 51) is transferred to the front surface not only by radiant heat transfer but also by convective heat transfer.

When the user turns off the switch after using the hot air fan for a predetermined time, combustion of the combustion furnace 51 is stopped, but the fan 53 continues to operate so that the temperature measured by the temperature sensor 54 becomes 50 ° C. or lower. At that time, the operation of the fan 53 is stopped.

On the other hand, the second embodiment of the far-infrared warm air heater having a fan according to the present invention is the same as the first embodiment as shown in Figure 3, but the installation position of the fan 61 is different.

In other words, the fan 61 is not installed at the top of the case 60 but is installed at the rear of the case 60. This is to provide a faster heat transfer effect by installing the fan 61 directly behind the front.

As described above, the far-infrared heater having a fan according to the present invention has a fan, so that not only radiant heat transfer but also heat transfer by convection is performed at the same time, thereby providing rapid heat transfer and maximizing thermal efficiency.

In addition, the far-infrared warmer equipped with a fan according to the present invention has a temperature sensor for measuring the temperature inside the warmer, and because the fan is configured to interlock with it can use the fan efficiently, the flame is removed from the combustion furnace After a certain temperature has elapsed, the fan is stopped to prevent fires and to prevent burns.

Claims (4)

Far-infrared heater including a case of the front open form, a combustion furnace installed inside the case and coated with a ceramic that generates far infrared rays, and a reflector to radiate heat generated by forming the inner surface of the case to the surrounding space In Far-infrared hot air heater having a fan, characterized in that the blowing means is installed so that the generated heat can be convection in a predetermined position of the case. The method of claim 1, The blower means is a fan installed in the upper end of the case, the air is sucked into the upper portion of the case by the fan, the warmed air heater having a fan, characterized in that the fan is moved by the fan. The method of claim 1, The blower means is a far infrared warmer having a fan, characterized in that installed on the back of the reflecting plate of the case. The method of claim 1, The hot air blower having a fan, characterized in that it comprises a temperature sensor to operate the blowing means according to the temperature.