KR20080043278A - Hot blast heater using a high frequency induction heating - Google Patents

Abstract

A heater employing an induction heating device is provided to maintain fresh air without consumption oxygen by employing a rotation drum, a rotation wing, and a core in the vicinity of the rotation drum and the rotation wing, and wounding a coil the inside and outside of the core. A heater(2') includes an induction coil(12), induction cores(14), a rotational drum(8'), a blade(10), a frame, and a driving motor(16). The induction coil is wounded by a predetermined frequency number. The induction cores are disposed on the outer circumferential surface of the induction coil by a predetermined interval. The rotational drum is provided between the induction coil and the induction core. The rotational drum ventilates air through rotation. The blade is provided at the outer circumference surface of the rotational drum to ventilate air. The blade is heated by the induction coil and the induction core. The frame includes the rotational drum. The frame includes bottom and top surfaces formed with air ventilation holes. The driving motor is used to generate a rotational driving force.

Description

Hot air device of induction heating method {HOT BLAST HEATER USING A HIGH FREQUENCY INDUCTION HEATING}

The present invention relates to a hot air device of the induction heating method, and more particularly, a heating element which is subjected to high frequency induction heating by an induction magnetic field, and comprises a rotating drum and a rotary wing which is formed on the outer periphery of the rotating drum to discharge air. By constructing the core at regular intervals around it and winding the coil inside or outside of the core, it effectively reduces the volume, greatly reduces the heat generation time, has no risk of ignition, and consumes no oxygen, thus keeping the indoor air pleasant. It relates to a warm air device of the induction heating method.

As is well known, as income levels improve, there is an increasing demand for consumers who want a more comfortable and clean indoor environment in winter. Therefore, interest in electric hot air heaters, which are much more comfortable than conventional hot air fans that consume oxygen and generate combustion gas by using oil or gas as fuel, has been greatly increased.

Conventional electric heaters mainly use joule heating generated by flowing current directly into the resistor, such as a heating element using nichrome wire, a ceramic heating element using a resistance of a thin metal film on a ceramic surface, or a carbon heating element using a carbon resistance. Adjust the room temperature by heating the air.

However, the existing general electric hot air heater has a disadvantage in that the heat supply capacity and energy efficiency of the hot air heater are very low due to the small contact area and heat conductivity of the heating element and the air, and thus it is mainly used for non-home use because it requires a large power consumption. .

However, as the income level increases recently, the demand for a comfortable indoor environment is rapidly increasing, and thus, a power-saving electric hot air fan using an improved ceramic heating element or heat pipe (HEAT-PIPE) is gradually being distributed to homes. However, there is still a situation in which more electric charges are required than gas heaters or fan heaters.

However, the advantages of the electric heater is that it can be used as an easy-to-manage wall-mounting type, has a low risk of accidents, and can be heated quickly.

Since the conventional electric warmer is composed of a heat generating unit and a blowing unit separately, there is a problem that the volume is inevitably increased when configuring the device. However, in recent years, when the heating of the same capacity is made, there is a tendency that the volume is preferred to be reduced, so that the conventional electric warmer has a problem in that it is opposed to the consumption tendency.

On the other hand, the conventional electric warmer has a problem that the heat generated by the resistor is generated because the heat is transferred to the surrounding plastic housing or circuit board was very high risk of ignition.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described state of the art, and comprises a rotary drum as a heating element in which high frequency induction heating is performed by an induction magnetic field, and a rotary wing formed on the outer periphery of the rotary drum to discharge air. By constructing cores at a certain interval around them and winding coils inside or outside the cores, the volume is effectively reduced and the heat generation time is greatly reduced, there is little risk of ignition, and no oxygen is consumed to keep the indoor air pleasant. It is an object of the present invention to provide an induction heating type hot air device.

In order to achieve the above object, according to a preferred embodiment of the present invention, the induction coil 12 wound up a predetermined number of times; An induction core 14 disposed at a predetermined interval on a predetermined portion of the outer circumference of the induction coil 12; Rotating drum (8) which is formed inside the induction coil (12) and the induction core (14) and rotates to blow air, and is inductively heated by magnetic field lines of the induction coil (12) and the induction core (14). ; A rotary blade 10 formed on an outer circumference of the rotary drum 8 to blow air, and induction heated by magnetic lines of force of the induction coil 12 and the induction core 14; A frame 4 on which the induction coil 12 is wound, the rotary drum 8 is mounted therein, and an air distribution hole 6 is formed at a lower surface and a front surface thereof; It is provided with a warm air device of the induction heating method, characterized in that the drive motor 16 is coupled to the rotary shaft 13 of the rotary drum 8 to generate a rotational driving force.

Preferably, the rotary drum 8 and the rotary blade 10 is provided with a warm air device of the induction heating method, characterized in that the thermal conductivity is made of a conductor at least higher than aluminum.

Preferably, the induction heating type hot air apparatus is configured to collectively control each component according to a key input unit 38 for allowing a user to select a hot air blowing function therein and function data selected from the key input unit 38. The control unit 36, a filter unit 18 for removing noise components such as EMI and EMC from the input AC power, and a first rectifying unit 20 for rectifying the AC power from which the noise components have been removed. And resonates the voltage output from the first rectifier 20 and induces a vortex in the rotating drum 8 and the rotating blade 10 to be heated by the electric induction effect due to the magnetic field generated by the resonance voltage. The induction coil 12 to be controlled, the switching unit 22 controlled and controlled by the control unit 36 to provide a resonance voltage to the induction coil 12, and a switching unit according to the control output of the control unit 36. 22) removing the switching element And a drive motor 16 which is rotationally controlled by the control unit 36, a current detector 26 for detecting current from the input AC power source, and a current detected by the current detector 26. A rectifier for rectifying and outputting the constant current detection unit 34 transmitted to the control unit 36, a low voltage converter 24 for stepping down the input AC power source AC, and a voltage stepped down by the low voltage converter 24. A second rectifier 28, a constant voltage unit 30 for applying the operating voltage of the controller 36 according to the voltage rectified by the second rectifier 28, and an output voltage of the constant voltage unit 30. Induction comprising: a reset unit 32 for resetting the control unit 36, and a display unit 40 for displaying various functional states of the warm air device by the control signal of the control unit 36. A heating warm air device is provided.

On the other hand, the present invention and the guide core 14 disposed at a predetermined interval; An induction coil 12 wound around the outer periphery of the induction core 14 by a predetermined number of times; Rotating drum (8 ') which is formed outside the induction coil (12) and induction core (14) and rotates to blow air, and is induced and heated by magnetic force lines of the induction coil (12) and induction core (14). and; A rotary wing 10 formed at an inner circumference of the rotary drum 8 'to blow air, and induction heated by magnetic lines of force of the induction coil 12 and the induction core 14; It is provided with a warm air device of the induction heating method, characterized in that the drive motor 16 is coupled to the rotary shaft 13 of the rotary drum 8 to generate a rotational driving force.

The hot air device of the induction heating method according to the present invention can effectively reduce the volume because the rotary blades are provided as a heating element, reducing the heat generation time through the high frequency induction heating method, there is little risk of ignition, do not consume oxygen indoors There is an advantage to keep the air comfortable.

Hereinafter, a warm air device of the induction heating method according to the first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the appearance of an induction heating type warm air apparatus according to a first embodiment of the present invention, Figure 2 is a view showing the configuration of the induction heating type warm air apparatus according to a first embodiment of the present invention 3 is a side sectional view showing the configuration of an induction heating type warm air apparatus according to the first embodiment of the present invention.

Referring to this, the induction heating type warm air apparatus 2 according to the first embodiment of the present invention is a heating element in which high frequency induction heating is performed by an induction magnetic field, and is formed on a rotating drum and an outer periphery of the rotating drum to discharge air. By constructing a rotor blade to make a rotor at a predetermined interval around the coil, and winding the coil inside or outside the core effectively reduce the volume while reducing the heat generation time, there is almost no risk of ignition, do not consume oxygen Therefore, the device can keep indoor air comfortably.

To this end, the hot air device 2 of the induction heating method according to the first embodiment of the present invention is blown by the warm air by the induction heating heating method. The induction heating method is composed of an induction heating heating element therein, the induction heating heating element is the induction of the magnetic material disposed at a predetermined interval on the induction coil 12 wound around the predetermined number of times and the predetermined portion of the outer periphery of the induction coil 12 It is made of a core 14, it is composed of a heating element that is heated by the magnetic field generated by the induction coil 12 and the induction core (14).

In the present invention, the heating element is configured to serve as a blowing structure, in order to effectively reduce the volume of the entire device, the rotating drum which is configured to rotate while being configured inside the induction coil 12 and the induction core 14 to blow air (8) and a rotary blade (10) for blowing air to the outer periphery of the rotary drum (8).

At this time, the rotary drum 8 and the rotor blade 10 is preferably made of a material such as a conductor, that is very high thermal conductivity, aluminum.

More specifically, the principle that a conductor is heated by induction heating means that when a high frequency current flows through an induction coil, the magnetic field generated by the induction coil penetrates into a nearby conductor and the skin depth through which the magnetic field penetrates. Induction current flows on the surface of the conductor to generate joule heating. More specifically, when a high frequency magnetic field is applied to the conductor, an induced current flows in a direction to counter the magnetic field on the surface of the conductor to satisfy the law of conservation of energy, thereby heating the surface of the conductor by the resistance of the conductor. .

In the case of the present invention is to control the room temperature appropriately by heating cold air using an induction heating element using induction heating.

Meanwhile, the induction coil 12 is wound around the warm air device 2 of the induction heating method according to the first embodiment of the present invention, and a frame 4 for mounting the rotating drum 8 therein is configured. The air flow hole 6 is formed in the frame 4 in the lower surface and the front surface, respectively.

In addition, a rotating shaft 13 of the rotating drum 8 is fixed to the center of both sides of the frame 4 so as to be rotatable, and a driving motor 16 is arranged on the rotating shaft 13 of one side thereof.

Therefore, the induction heating type warm air device 2 according to the first embodiment of the present invention is the rotary drum 8 and the rotary blades by the electromagnetic force lines formed by the induction coil 12 and the induction core 14. When the rotating drum 8 is rotated by the drive motor 16 in the heated state 10, the cold air in the room is heated to blow hot air.

In particular, since the induction heating type warm air device 2 according to the first embodiment of the present invention does not have a separate resistance heating element for generating Joule heat, it does not deteriorate other parts or the frame 4 inside the device and is safe. This very high, the rotary drum 8 and the rotary blade 10 for blowing the hot air air directly becomes a heating element, it is possible to configure a very compact device.

4 is a block diagram showing a circuit configuration of an induction heating type warm air apparatus according to the first embodiment of the present invention.

Referring to this, the induction heating type warm air device 2 according to the first embodiment of the present invention, the induction coil 12 and the induction core 14 for forming a magnetic field in the vertical direction in accordance with the flow of current in the inverter method And a rotating drum 8 and a rotating blade 10 which generate heat by converting the eddy current flowing in the direction perpendicular to the magnetic field direction into Joule heat according to the properties of the constituent materials such as resistivity and permeability.

In addition, the induction heating type warm air apparatus 2 according to the first embodiment of the present invention has a circuit for controlling the apparatus, a key input section 38 for allowing a user to select a hot air blowing function, and the key input section. A control unit 36 for overall control of each component according to the function data selected from 38, a filter unit 18 for removing noise components such as EMI and EMC from an input AC power source, and the noise The first rectifying unit 20 for rectifying the AC power source from which the component has been removed, and the voltage to be heated by the electric induction effect due to the magnetic field generated by the resonance voltage and the voltage output from the first rectifying unit 20 An induction coil 12 for inducing eddy current by heating the electric drum 8 and the rotary blade 10, and a switching unit controlled and controlled by the controller 36 to provide a resonance voltage to the induction coil 12 ( 22) and control of the controller 36 The drive motor 16 is controlled by the control unit 36 while controlling the switching element of the switching unit 22 in accordance with the output, and the current detection unit 26 for detecting current from the input AC power supply (AC). And a constant current detector 34 for transmitting the current detected by the current detector 26 to the controller 36, a low voltage converter 24 for stepping down the input AC power source, and the low voltage converter. The second rectifying unit 28 rectifies and outputs the voltage stepped down at 24 and the constant voltage unit 30 for applying the operating voltage of the controller 36 according to the voltage rectified by the second rectifying unit 28. And a reset unit 32 for resetting the control unit 36 according to the output voltage of the constant voltage unit 30, and a display unit for displaying various functional states of the warm air device by the control signal of the control unit 36 ( 40), the operation is as follows.

Looking at the warm air function of the induction heating type warm air device 2 according to the first embodiment of the present invention as an example, the AC power AC is rectified to the pulsating DC voltage through the first rectifier 20 and then smoothed, At the same time, when the AC power source AC is dropped again through the low voltage converter 24, converted into a DC voltage through the second rectifier 28, and supplied to the constant voltage unit 30, the constant voltage unit 30 is A constant voltage according to the input DC voltage is applied to the controller 36, wherein the constant voltage applied to the controller 36 is used as an operating voltage of the controller 36.

Then, when the user selects a button through the key input unit 38 to heat the rotary drum 8 and the rotary blade 10 composed of iron or stainless 430 series having a large surface resistance for hot air blowing, the control unit ( 36 displays the corresponding function through the display unit 40.

On the other hand, since the base current of the switching unit 22 is driven in response to the pulse width modulation control signal generated from the control unit 36, the resonant capacitors of the induction coil 12 and the switching unit 22 by the DC voltage As a result of the continuous resonance state, a large resonance current flows through the induction coil 12.

As a result, an eddy current is induced in the rotary drum 8 and the rotary blade 10 to be heated due to the electromagnetic induction effect due to the magnetic field generated from the induction coil 12, thereby acting as a resistor. ) And the rotary blade 10 is heated, the warm air is made by this heat. The control unit 36 blows the air heated by the rotary drum 8 and the rotary blade 10 to the outside by rotating the driving motor 16.

Hereinafter, a warm air device of the induction heating method according to the second embodiment of the present invention will be described in detail with reference to the accompanying drawings.

5 is a plan sectional view showing the configuration of the induction heating method of the warm air apparatus according to the second embodiment of the present invention, Figure 6 is a side showing the configuration of the warm air device of the induction heating method according to a second embodiment of the present invention It is a cross section.

Referring to this, the induction heating type warm air device 2 'according to the second embodiment of the present invention is a device configured to blow the hot air by the electromagnetic induction heating method similarly to the first embodiment. Induction cores 14 of magnetic material arranged at regular intervals are provided in the government, and induction coils 12 wound around the induction core 14 at predetermined times are provided.

On the other hand, the heating element heated by the magnetic field generated by the induction coil 12 and the induction core 14 is provided on the outer periphery of the induction coil 12, in the present invention is configured so that the heating element also serves as a blowing structure. In order to effectively reduce the volume of the entire device, a rotating drum 8 'configured to rotate while being configured to be spaced apart at regular intervals on the outer circumferences of the induction coil 12 and the induction core 14 is provided. And a rotary blade 10 for blowing air to the inner circumference of the rotary drum 8 '.

At this time, the rotary drum 8 and the rotary blade 10 is preferably made of a material such as a conductor having a very high thermal conductivity, that is, aluminum.

On the other hand, the induction heating type warm air apparatus 2 'according to the second embodiment of the present invention has a frame 4 for mounting the rotating drum 8' therein, and the frame 4 The rotating shaft of the rotary drum 8 'is fixed to both centers in a rotatable manner, and the driving motor 16 is arranged on the rotating shaft of one side thereof.

On the other hand, the hot air device of the induction heating method according to an embodiment of the present invention is not limited only to the above-described embodiment, various modifications are possible within the scope not departing from the technical gist.

1 is a perspective view showing the external appearance of the warm air device of the induction heating method according to a first embodiment of the present invention,

Figure 2 is a plan sectional view showing the configuration of a warm air device of the induction heating method according to a first embodiment of the present invention,

Figure 3 is a side cross-sectional view showing the configuration of a warm air device of the induction heating method according to a first embodiment of the present invention,

4 is a block diagram showing a circuit configuration of an induction heating type warm air device according to a first embodiment of the present invention;

5 is a plan sectional view showing the configuration of an induction heating type warm air device according to a second embodiment of the present invention;

Figure 6 is a side cross-sectional view showing the configuration of a warm air device of the induction heating method according to a second embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

4: frame, 8: rotating drum,

10: rotary wing, 12: induction coil,

14: judo core, 16: driving motor.

Claims (4)

An induction coil 12 wound up a predetermined number of times; An induction core 14 disposed at a predetermined interval on a predetermined portion of the outer circumference of the induction coil 12; Rotating drum (8) which is formed inside the induction coil (12) and the induction core (14) and rotates to blow air, and is inductively heated by magnetic field lines of the induction coil (12) and the induction core (14). ; A rotary blade 10 formed on an outer circumference of the rotary drum 8 to blow air, and induction heated by magnetic lines of force of the induction coil 12 and the induction core 14; A frame 4 on which the induction coil 12 is wound, the rotary drum 8 is mounted therein, and an air distribution hole 6 is formed at a lower surface and a front surface thereof; Induction heating method warm air device, characterized in that consisting of a drive motor (16) coupled to the rotary shaft (13) of the rotary drum (8) to generate a rotational driving force. The induction heating method of claim 1, wherein the rotary drum (8) and the rotary blade (10) are made of a conductor having a thermal conductivity at least higher than that of aluminum. The hot air device of claim 1, wherein the induction heating type air blower collectively includes a key input unit (38) for allowing a user to select a hot air blowing function therein, and function elements selected from the key input unit (38). The control unit 36 for controlling, the filter unit 18 for removing noise components such as EMI and EMC from the input AC power, and the first rectifying unit for rectifying the AC power from which the noise components have been removed. And a vortex in the rotating drum 8 and the rotating blade 10 to be heated by resonating the voltage output from the first rectifying unit 20 and an electric induction effect due to the magnetic field generated by the resonance voltage. An induction coil 12 for inducing and heating, a switching unit 22 controlled and controlled by the controller 36 to provide a resonance voltage to the induction coil 12, and according to a control output of the controller 36. Switching element of the switching unit 22 The drive motor 16 which is controlled and rotated by the control unit 36, the current detection unit 26 which detects a current at the input AC power supply AC, and the current detected by the current detection unit 26 Rectifying and outputting a constant current detection unit 34 for transmitting the control unit 36, a low voltage converter 24 for stepping down the input AC power source AC, and a voltage stepped down by the low voltage converter 24. The second rectifier 28, the constant voltage unit 30 for applying the operating voltage of the control unit 36 according to the voltage rectified by the second rectifier 28, and the output voltage of the constant voltage unit 30. And a display unit 40 for displaying various functional states of the warm air apparatus according to the control signal of the control unit 36, and a reset unit 32 for resetting the control unit 36. Heating air heater. An induction core 14 disposed at a predetermined interval; An induction coil 12 wound around the outer periphery of the induction core 14 by a predetermined number of times; Rotating drum (8 ') which is formed outside the induction coil (12) and induction core (14) and rotates to blow air, and is induced and heated by magnetic force lines of the induction coil (12) and induction core (14). and; A rotary wing 10 formed at an inner circumference of the rotary drum 8 'to blow air, and induction heated by magnetic lines of force of the induction coil 12 and the induction core 14; Induction heating method warm air device, characterized in that consisting of a drive motor (16) coupled to the rotary shaft (13) of the rotary drum (8) to generate a rotational driving force.

Images