KR101814920B1 - Electric heaters - Google Patents

Abstract

The present invention relates to an electric heater in which a quartz tube and a heating unit are constructed so as to have improved heating efficiency by using the same electric power,
And an energy saving switch connected to the heat generating unit and using the electric energy supplied in a limited capacity to generate heat, In addition, it is possible to reduce the energy saving effect on the radiator produced with the same capacity, and also the effect that the air blown by heating the air to be sucked is heated by the hot air heated to a certain temperature, So that the humidity in the room can be maintained without being dried by the heat of the room.

Description

Electric heaters

The present invention relates to an electric heater, and more particularly, to an electric heater in which a quartz tube is configured to have a heating unit, and is configured to have improved heating efficiency by using the same electric power, thereby reducing power consumption.

In general, radiators are used to heat indoor spaces by using various energy sources. Heating is performed using liquefied fuel, solid fuel and electricity as energy sources.

Among the conventional heaters, the quartz tube is heated by applying the voltage to the quartz tube, and the quartz tube is heated by the supplied electric power.

Also, in the conventional radiator using the quartz tube, the heating is performed by using the constantly supplied power, so that the thermal efficiency is proportional to the supplied power.

As described above, the conventional electric heaters can not obtain the improved heating efficiency at a limited capacity and can consume a large amount of energy to raise the room temperature to a desired temperature, thereby consuming a large amount of power and generating a thermal efficiency proportional to the consumed electric power.

Registered utility model 20-0352828

The present invention has been devised to solve the problems of the conventional radiator, and it is an object of the present invention to provide a quartz tube which has electric power to be supplied to a heat generating unit and has an improved thermal efficiency by limited electric energy, The present invention is also directed to a radiator provided with a safety function for shutting off power to an external impact.

To achieve the above object, the present invention provides an electric heater comprising a main body having a predetermined size, a heating unit including a quartz tube provided in the main body, and an energy saving switch connected to the heating unit.

The present invention has an energy saving device and has an effect of improving heat efficiency by using electric energy supplied with a limited capacity and improving energy efficiency for a heater produced with the same capacity.

In addition, the air blown by heating the air to be sucked is heated air heated to a certain temperature.

In addition, when the hot air is blown, the moisture vaporized by the humidity control unit is supplied to the indoor unit, so that the indoor unit can keep the humidity constant without being dried by the heat.

1 is a perspective view of a stereoscopic example according to the present invention
Fig. 2 is a cross-sectional configuration example according to the present invention
Fig. 3 is a configuration example according to the present invention
FIG. 4 is an exemplary view showing another embodiment according to the present invention.
FIG. 5 is an exemplary view of a heat conduction portion according to the embodiment of FIG.

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

The present invention comprises a main body (10), a heat generating part (20) formed inside the main body (10), and an energy saving switch (30).

The main body 10 is formed as a fixed housing and has a front opening to form a heat generating installation part 11, an operating part 12 at one side, and a mobile wheel at a lower part.

The inner wall surface of the heat-generating mounting portion 11 is formed with a reflecting surface 13 so that radiant heat can be radiated forward.

The heat generating part 20 includes a quartz tube 21 having a plurality of heat generating coils.

The plurality of quartz tubes 21 constituting the heat generating unit 20 are connected to the energy saving switch 30 to be supplied with electric power.

The quartz tube 21 is constituted by a plurality of quartz tubes 21. The quartz tubes 21 constituting each quartz tube 21 are multi-contact connected to the energy saving switch 30, The power supply is alternately repeatedly supplied.

The quartz tubes 21 composed of the plurality of tanks are cross-heated for a repeated period of time to have an improved heating effect at the same power.

And an air blowing device 40 controlled by the operation of the operating part 12 is provided on the upper part of the main body 10.

The air blowing device 40 is composed of a blowing pipe 41 and a rotary blower 42 for sucking air through the blowing pipe 41.

The suction pipe 41 is formed with a suction port at a lower portion of the main body 10 and a plurality of heating pipes 43 are exposed to the front surface of the reflection surface 13 to heat the sucked air. And a rotary blower 42 is formed behind the blowing port 44. The rotary blower 42 is disposed at the rear of the blowing port 44. The rotary blower 42 is disposed at the rear of the blowing port 44. [

A power cut-off unit 50 is formed in the main body 10. The power cut-off unit 50 cuts off power when an external shock or the like is generated by using a vibration sensor or a gyro sensor, Thereby preventing generation of heat.

FIG. 4 shows another embodiment of the present invention, in which a humidity controller 60 is provided on an upper portion of a blowing pipe 41 passing through an upper portion of the main body 10.

The humidity adjusting unit 60 is formed of a water housing 61 having a water receiving space of a metallic material so that heat can be conducted through a blowing pipe and is connected to a blowing pipe 41 at an upper side, And is connected to a supply pipe 62.

The water accommodating enclosure 61 and the blowing duct passage 41 are fastened by the heat conduction unit 70 so that the conduction of the heat is clarified.

The heat conduction unit 70 includes a plurality of heat dissipating plates 71a protruding from the upper surface of the blowing duct 41 and a heat absorbing plate 72a protruding below the water accommodating body 61 inserted between the heat dissipating plates 71a .

The heat radiating plate 71a and the heat absorbing plate 72a are formed in a wave form for a definite fastening, so that the heat radiating plate 71a and the heat absorbing plate 72a have a clear heat conduction due to the rigid coupling.

A drain pipe for discharging water to be evaporated is connected to a blowing pipe and is arranged to discharge moisture to the outside through a rotary blower 42 like a heated air to control the humidity at the front side of the water containing housing 61 .

Hereinafter, the operation of the present invention will be described.

The quartz tube 21 constituting the heat generating part 20 is heated and radiates heat when the heat generating part 20 is operated by operating the operating part 12 on one side of the main body 10. [

At this time, the quartz tube 21 is composed of a plurality of quartz tubes 21, and the quartz tube 21 composed of one set is multi-contact connected to the energy saving switch 30 so that power is sequentially supplied to generate heat .

On the other hand, as described above, the power is distributed and supplied sequentially so that more heaters can be efficiently generated at the same power, resulting in an improvement in energy efficiency and a high heating efficiency with low power consumption.

The main body 10 is provided with an air blowing device 40 composed of a rotary blower 42 so as to send heated air to a longer distance.

Meanwhile, the blowing pipe passage 41 is exposed to the front surface of the reflection surface 13, so that the air sucked is heated and blown forward.

Meanwhile, the main body 10 is provided with a power cut-off unit 50 composed of a vibration sensor or a gyro sensor. When a shock is applied to the main body 10 during operation, the main body 10 detects the impact, It will be possible.

In the embodiment of the present invention, when the humidity controller 60 is provided, the water container 61 for receiving water is closely attached to the upper part of the heated blower pipe, so that the water is heated to vaporize more easily, .

The water accommodating body 61 and the air blowing pipe are connected by a heat conduction unit 70 composed of a heat radiating plate 71a and a heat absorbing plate 72a so that heat conduction is clearly made and connected to the blowing pipe, .

10: main body 11:
12: Operation section 13: Reflecting surface
20: heat generating part 21: quartz tube
30: energy saving switch 40: blower
41: blower duct 42: rotary blower
43: heating tube 44:
50: Power cutoff unit 60: Humidity control unit
61: water receiving container 62: water supplying pipe
70: heat conduction part 71a:
72a: endothermic plate

Claims (2)

The main body 10 is formed with a fixed housing and has a front surface opened and a heat generating part 11 having a reflecting surface 13 formed on an inner wall surface thereof and a manipulating part 12 formed on one side and a moving wheel A main body 10,
The heat generating part (11) is provided with a heat generating part (20) composed of a plurality of quartz tubes (21)
And an energy saving switch 30 to which the heat generating unit 20 is connected;
A blowing pipe 41 controlled by the operation of the operating part 12 and a rotary blower 42 for sucking air through the blowing pipe 41 are provided on the upper part of the main body 10,
The suction pipe 41 is formed with a suction port at a lower portion of the main body 10 and a plurality of heating pipes 43 are exposed to the front surface of the reflection surface 13 to heat the sucked air. The blowing device 40 is constituted by a blowing port 44 for blowing air sucked and heated to the front side,
A power cut-off unit 50 is formed in the main body 10. The power cut-off unit 50 cuts off power when an external shock or the like is generated by using a vibration sensor or a gyro sensor, The heat generation is not generated;
A humidity adjusting unit 60 is further provided on an upper portion of a blowing pipe passing through the upper portion of the main body 10;
The humidity adjusting unit 60 is formed of a water housing 61 having a water receiving space of a metallic material so that heat can be conducted through the blowing pipe,
The water containing case 61 and the blowing pipe are fastened by the heat conduction unit 70 so that the conduction of the heat is clearly made,
The heat conduction unit 70 includes a plurality of heat sinks 71a protruding from the upper surface of the blowing tube and a heat absorbing plate 72a inserted between the heat sinks 71a,
The heat radiating plate 71a and the heat absorbing plate 72a are formed in a wave form so that the heat conduction through the clear fastening can be smoothly performed,
A drain pipe for discharging water to be evaporated is connected to a blowing pipe and is discharged to the outside through a rotary blower 42 like heated air to adjust the humidity. Electric radiators.

The method according to claim 1,
The quartz tube 21 is constituted by a plurality of quartz tubes 21 and the quartz tubes 21 constituting each quartz tube 21 are multi-contact connected to the energy saving switch 30, And the power supply is alternately repeatedly supplied.

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