KR200178795Y1 - Inductive heating apparatus - Google Patents

Abstract

The present invention relates to a warm air hot air device using induction heating, it is to increase the thermal efficiency to enable the supply of hot air over a large area with a small electric charge burden.

The present invention is an induction heating coil for generating a strong magnetic field by high-frequency power supply, a heating plate of a magnetic body located on the upper surface of the induction heating coil and heated in accordance with the magnetic field, and blows wind from the lower portion of the induction heating coil It is made by having a blower fan and a spinneret positioned above the heating plate and radiating a heat source.

Description

Induction heating apparatus

The present invention relates to a warm air hot air device using induction heating.

The induction heating device switches the commercial DC voltage applied to the induction heating coil, and the counter electromotive force generated when the commercial DC voltage is turned off forms a strong magnetic field in the induction heating coil, thereby heating the magnetic container mounted on the induction heating coil. Specific examples of use include food cookers and rice cookers.

Heaters and hot air heaters generate heat by burning oil, diesel, etc., or by heating heaters using electricity.

However, when the fossil fuel combustion or the heater is used in the hot air heater and the hot air heater, the heat efficiency is low and the warm air or hot air efficiency is inferior to the operating cost.

The present invention generates a heat source in a hot air fan or a hot air fan that generates hot air to control a room temperature in a predetermined space, and generates a heat source using an induction heating device without blowing a heat source by petroleum combustion or heater heating, and then blows it. It is to be able to control, to increase the thermal efficiency.

The present invention is an induction heating coil for generating a strong magnetic field by high-frequency power supply, a heating plate of a magnetic body located on the upper surface of the induction heating coil and heated in accordance with the magnetic field, and blows wind from the lower portion of the induction heating coil And a radiating plate positioned above the heating plate and radiating a heat source, wherein the heating plate is heated by driving the induction heating coil and the heat of the heating plate is radiated from the radiating plate in all directions by the blowing fan. It is to exhaust the hot wind.

1 is an exploded perspective view of the present invention

2 is an assembled cross-sectional view of the present invention

3 is a bottom view of the induction heating coil of the present invention

Figure 4 is a cross-sectional view of another embodiment of the present invention

[Explanation of symbols on the main parts of the drawings]

1: base 2: fixing plate 2 ': suction hole

3: blower fan 4: bonding plate 5: support plate

5 ': blower 6: induction heating coil 6': ferrite core

7 Insulation 8 Heated Plate 8 'Ventilation

9: spin plate 9 ': spinneret 10: cover

According to the present invention, a cylindrical fixing plate (2) is installed and fixed on an upper portion of the base (1) in which an electric circuit board such as an inverter according to driving of the induction heating coil (6) is installed and an operation button is installed. A suction hole 2 'is formed to allow external air to be sucked into the fixed plate 2.

The fixing plate 2 is advantageous to block the inflow of foreign substances by attaching a filter network with dense pores.

The blowing fan 3 is positioned inside the fixing plate 2 so that the wind is sucked into the suction hole 2 'of the fixing plate 2 to blow the upper portion of the blowing fan 3 when the blowing fan 3 is driven. .

A cylindrical coupling plate 4 is fixed on the fixing plate 2, but a support plate 5, an induction heating coil 6, a heat insulating material 7, and a heating plate 8 are sequentially stacked and fixed inside the coupling plate 4. Then, the radiating plate 9 is fixed on the coupling plate 4, and the cover 10 is fixed on the pedestal 1.

A plurality of blowing holes 5 'are formed in the supporting plate 5 so that the wind of the blowing fan 3 can be smoothly discharged through the blowing holes 5', and the induction heating coil 6 has a gap therebetween. Winding the fork allows the wind to be discharged upwards through the gap.

An annular heat insulating material (7) is placed on the induction heating coil (6), and a heating plate (8) of a magnetic body having a vent hole (8 ') formed on the heat insulating material (7).

Radiating holes 9 'are formed in the radiating plate 9 which receives heat from the heating plate 8 and discharges them radially so that hot air can be easily discharged.

A hole 10 'is formed in the cover 10 so that hot air can be smoothly discharged into the room.

In addition, the present invention may be installed upright as shown in FIG. 4 by sequentially coupling the induction heating coil 6, the heat insulating material 7, the heating plate 8, the radiating plate 9 on the blowing fan (3).

At this time, the vent hole 8 'of the heating plate 8 may not be formed.

In the present invention having such a configuration, a driving circuit board of the induction heating coil 6 and a power supply device such as an inverter are embedded in the pedestal 1, and a technology for forming a strong magnetic field by driving the induction heating coil 6 has already been established. Since it is a known technique that is commercialized as an induction heating cooker, the illustration or detailed description thereof will be omitted.

However, when the induction heating coil (6) of the present invention to form a strong magnetic field to operate the blowing fan (3) to discharge hot air, the induction heating coil (6) and the blowing fan (3) The operation is automatically controlled according to the set temperature.

When the induction heating coil 6 forms a strong magnetic field, the heating plate 8 made of a magnetic material such as iron is heated by the magnetic field.

When the heating plate 8 is heated, the air sucked into the suction hole 2 'of the fixed plate 2 by the blowing fan 3 is heated while passing through the vent hole 8' of the heating plate 8, and the heating plate ( The hot air heated while passing through 8) hits the radiating plate 9 and is discharged through the radiating hole 9 'and then discharged into the room 10' of the cover 10 to heat the indoor air.

The support plate 5 located at the lower end of the induction heating coil 6 supports the induction heating coil 6 so as not to be struck, and a plurality of blow holes 5 'are provided so that the blowing wind can be easily discharged. .

On the other hand, even when the induction heating coil (6), the heat insulating material (7), the heating plate (8), the radiating plate (9), etc. are assembled vertically on the blower fan (3) as shown in FIG. It is possible.

The heat insulating material 7 located between the induction heating coil 6 and the heating plate 8 is used to separate the magnetic field of the induction heating coil 6 by an interval which can effectively transmit the heating plate 8 to the heating plate 8. It is made of a magnetic material is heated by the magnetic field of the induction heating coil (6) to form a vent hole (8 ') so that the blowing wind can be easily discharged.

The radiating plate 9 is made of lightweight aluminum and forms a spinning hole 9 ', while forming a plurality of radiating protrusions, so that the radiating heat by the hot air is quick and wide.

The hot air emitted from the radiating plate 9 is discharged to the side through the hole 10 ′ of the cover 10 to warm the indoor air.

The induction heating coil 6 of the present invention is manufactured by winding in a spiral shape, but opening the gap therebetween and fixing it in a state in which the gap is spaced by a ferrite core 6 'from the lower part of the induction heating coil 6. The wind blown in to ensure that it can be smoothly discharged through the interval between the induction heating coil (6).

Here, the ferrite core 6 'allows the magnetic field generated together with the fixing of the induction heating coil 6 to be transferred only to the heating plate 8.

The present invention, in the hot air heater and hot air fan, by heating the magnetic plate by the magnetic heating by the induction heating coil without using petroleum combustion or heater heating method as a heat source generating means, by blowing air from the lower portion of the heating plate, the air passes through the heating plate While being heated while being blown to the outside, by adopting the induction heating method can improve the thermal efficiency compared to the conventional heater method.

Therefore, a large area even though it bears a small electric charge has the effect of supplying warm air or hot air.

Claims (2)

A fixed plate 2 fixed to the upper part of the base 1 having the induction heating coil 6 driving device therein and having a suction hole 2 ', A blowing fan 3 incorporated in the fixed plate 2, A coupling plate 4 fixed on the fixing plate 2, A support plate 5 fixed inside the coupling plate 4 and having a blown hole 5 ', Induction heating coil (6) fixed to the upper support plate (5), A heating plate 8 made of a magnetic body fixed on the induction heating coil 6 via an annular heat insulating material 7 and having a vent hole 8 'formed thereon; A spinning plate 9 fixed on the coupling plate 4 and having a spinning hole 9 'and a spinning protrusion; Induction heating device, characterized in that the cover (10) is fixed to the pedestal (1) made of a hole (10 '). The induction heating coil (6) of claim 1, wherein the coil is wound in a spiral spiral, but the gap between the coils to open the air blowing, the induction heating, characterized in that the coil is fixed to the ferrite core 6 ' Device.