KR101311744B1 - Mug shaped heat generating induction heater - Google Patents

Abstract

PURPOSE: A sheet-shaped heat generating induction heater is provided to improve indoor heating efficiency as hot air heating is possible by blowing the air heated with the heat generated in an inducing heating plate to a long distance. CONSTITUTION: A sheet-shaped heat generating induction heater comprises a main body (1), an insulating plate (2), an inducing heating plate (3), a working coil, a working coil driving unit (5), and an operating unit (6). The main body is equipped with a safety net (11) and a rear plate in opened front and rear surfaces. A storing unit in which the working coil driving unit is stored is formed in the upper part of the main body. The insulating plate insulates the heat to prevent the heat of the inducing heating plate from delivering to the working coil. The inducing heating plate is heated by a magnetic field in which is generated when the current flows in the working coil and heats the surrounding air. The working coil is fixed in the rear surface of the insulating plate. The working coil driving unit is installed inside the storing unit of the main body. The working coil driving unit generates high frequency current having a predetermined inducing heating frequency band required to drive the working coil. The operating unit is installed in the upper surface or upper front surface of the main body.

Description

Mug shaped heat generating induction heater

The present invention relates to a planar heating type induction heater, and more specifically, a working coil in which a magnetic field is generated when an electric current flows is fixedly installed on a rear surface of a porous ceramic-based insulation plate having a predetermined thickness, and a magnesium alloy is provided on the front portion of the insulation plate. The present invention relates to a planar heating type induction heater in which the induction heating plate generates heat by heating an induction heating plate by induction heating of the induction heating plate by installing an induction heating plate molded in the back and the like.

In general, a heater is used to directly heat air, and burns oil or gas through a burner to heat a heat exchanger and heats the air through the heat exchanger, and a seed heater or quartz tube that is a heat source using electricity. And a method of heating air by driving a heater, a halogen heater, a carbon nano heater, and the like.

However, among the above-mentioned heaters, a heater that burns oil or gas is complicated in its structure such as a burner and a heat exchanger, and is restricted in installation places, and also consumes a large amount of indoor oxygen during combustion, There are problems that various harmful gases and odors are generated.

In addition, the latter heaters consume less oxygen in the room by using electricity and do not generate various harmful gases or odors, while the heat conversion efficiency of the heaters is only 30 to 40% compared to the used power. Tubular heaters are only 50-65%, halogen heaters are only 60-70%, which is not economical compared to power consumption, and their lifespan is very short due to broken wires. In addition, the carbon nano heater has a high heat conversion efficiency and a very long lifespan compared to the power used, but there is a problem that the price of the product is very high.

1. Korean Utility Model Registration Publication No. 20-0445511 (July 28, 2009) 2. Republic of Korea Patent Publication No. 10-2012-0092874 (August 22, 2012) 3. Republic of Korea Patent Publication No. 10-2010-0035740 (April 07, 2010) 4. Republic of Korea Patent Publication No. 10-1064408 (September 05, 2011)

The present invention has been made to solve such a conventional problem, the safety net is installed on the open front and the bottom is provided with a wheel having a predetermined thickness and area in the vertical direction from the center in the rectangular box-type body having mobility A porous ceramic-based insulation plate is fixedly installed, and an induction heating plate formed to have a predetermined thickness and an area using magnesium alloy is installed on the front surface of the insulation plate, and a working coil that generates a magnetic field when a high frequency current flows through the rear surface of the insulation plate. Is installed in a zigzag manner, and an induction heating plate generates heat by inducing heating of the induction heating plate by a magnetic field generated when current flows in the working coil by installing an operation unit and a walking coil driving unit on the upper surface of the main body. Oxygen in the room during operation of the heater by making the induction heater to heat Not only does it consume at all, it does not generate any harmful gases or odors, so it is harmless to the human body and can maintain the indoor environment comfortably. The heat conversion efficiency is 85 ~ 95%, which is economical. Not only does not cause disconnection, but also greatly prolongs the life of the product itself, greatly reduces the cost of maintenance, and can produce products at low cost, thus reducing the economic burden on consumers. The purpose is to provide an induction heater.

Another object of the present invention can greatly improve the heat dissipation efficiency by protruding a plurality of heat dissipation protrusions on the front surface of the induction heating plate to widen the heat dissipation area, and a plurality of air passage holes at predetermined intervals between the induction heating plate and the heat insulating plate. Perforations, and a blower fan is installed on the rear surface of the insulation plate and the working coil to allow the air heated by the heat generated from the induction heating plate to be blown to a long distance so that the warm air can be heated to perform the heating of the room more efficiently. In addition, the present invention provides a surface heating type induction heater that can greatly improve the reliability and marketability of the product itself.

In order to achieve the above object, the present invention, the safety net is installed on the open front and the bottom surface is provided with a wheel and a rectangular box-type body having mobility; It is shaped to have a predetermined thickness and area using a porous ceramic series, and the peripheral portion is fixed to the inside of the upper, lower, left, and right surfaces of the main body through a plurality of insulating fasteners while being erected vertically from the center of the main body. An insulating plate which electrically insulates between the induction heating plate and the working coil and insulates the heat of the induction heating plate from being transferred to the working coil side; An induction heating plate having a predetermined area and thickness induction heating by a magnetic field generated when a current flows in the working coil in a state of being fixedly installed on the front surface of the insulation plate to heat the surrounding air; A working coil configured to be fixedly installed on a rear surface of the heat insulating plate through a plurality of coil fixtures and screws in a zigzag form to generate a magnetic field corresponding to a high frequency current output from the working coil driving unit to inductively heat the induction heating plate; A working coil driving unit installed in an accommodating unit provided above the main body to generate a high frequency current having a predetermined induction heating frequency band (X ㎑) necessary for driving the working coil; It is provided with a heating temperature setting key and the on / off switch is installed on the upper surface or upper front of the main body to allow the user to input the operation signal for driving the induction heater; characterized in that the configuration.

At this time, the induction heating plate is formed to have a smaller area than the heat insulating plate is characterized in that the heat generated from the induction heating plate fixed to the front surface of the heat insulating plate is not directly transferred to the upper, lower, left, right surface in the body.

In addition, by installing a high-temperature insulation and insulation tube woven from ceramic or glass fiber on the outer surface of the working coil, it is characterized in that it is possible to insulate between the working coil and the coil fixture.

In addition, the back plate is installed on the back of the main body is characterized in that it is molded from a low thermal conductivity gypsum or heat-resistant plastic to block the heat generated from the induction heating plate to be discharged to the outside through the back plate.

In addition, the front surface of the induction heating plate is characterized in that the plurality of heat dissipation projections further protruded at a predetermined interval in order to widen the heat dissipation area.

In addition, the induction heating plate and the insulation plate are provided with a plurality of air passage holes having a circular or rectangular shape at a predetermined interval, and the heat generated from the induction heating plate inside the back plate of the main body further provided with a plurality of air suction holes. Including, it is characterized in that it further installed one or two blowing fans for blowing the air heated by the heat to a long distance.

On the other hand, the induction heating plate has a heat diffusion coefficient of 1.4 [cm 2 / sec], a thermal conductivity of 60 to 90 [W / mK], a density of 1.8 ± 0.3 [g / cm 3], and a melting temperature of 595 [° C.]. It is characterized by being formed from a magnesium alloy having a specific heat of 1.02 to 1.05 [J / gK].

As described above, according to the planar heating type induction heater of the present invention, a safety net is installed on the opened front surface and a wheel is provided on the bottom surface of the porous body having a predetermined thickness and area in the vertical direction from the center in the rectangular enclosure type body having mobility. A ceramic-based heat insulation plate is fixedly installed, and an induction heating plate is formed on the front surface of the heat insulation plate to have a predetermined thickness and area using a magnesium alloy. The induction heating plate generates heat by heating the surrounding air by installing a zigzag type, and installing an operation unit and a walking coil driving unit on the upper surface of the main body to induction heating the induction heating plate by a magnetic field generated when current flows in the working coil. By consuming no oxygen in the room As well as sound, various harmful gases and odors are not generated, so it is harmless to the human body and maintains the indoor environment comfortably.The heat conversion efficiency is 85 ~ 95% compared to the power consumption, which is very economical, fluid and light. Working coils that are very easy to install and use and that have low frequency resistance will not cause any disconnection defects, which will greatly extend the life of the product itself and significantly reduce maintenance costs. The product can be manufactured to reduce the economic burden on the consumer.

In addition, by further protruding a plurality of heat dissipation protrusions on the front surface of the induction heating plate to increase the heat dissipation area can significantly improve heat dissipation efficiency.

In addition, a plurality of air passage holes may be drilled at predetermined intervals between the induction heating plate and the insulation plate, and a blower fan may be installed at the rear surface of the insulation plate and the working coil to blow air heated by the heat generated from the induction heating plate to a distance. It is a very useful invention such that not only the warm air heating is possible, so that the heating of the room can be performed more efficiently, and the reliability and the merchandise according to the operation of the product itself can be greatly improved.

1 is a perspective view of a planar heating type induction heater to which the present invention is applied.
Figure 2 is an exploded perspective view of the induction heating plate and heat insulating plate and working coil of the present invention.
Figure 3 is a side cross-sectional view of a planar heating type induction heater to which the present invention is applied.
Figure 4 is an enlarged cross-sectional view of the main portion coupled state of the induction heating plate and the insulation plate and the working coil to which an embodiment of the present invention is applied.
Figure 5 is an enlarged cross-sectional view of the main portion coupled state of the induction heating plate and the insulation plate and the working coil to which another embodiment of the present invention is applied.
Figure 6 (a) (b) is a rear view of the heat insulating plate illustrating the shape of the air passage hole formed in each of the induction heating plate and the heat insulating plate of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention and their operation and effect will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a planar heating type induction heater to which the present invention is applied, and FIG. 2 is an exploded perspective view of an induction heating plate, a heat insulating plate, and a working coil, and FIG. 3 is a planar heating type induction heater to which the present invention is applied. It shows a side cross-sectional view of.

In addition, Figure 4 shows an enlarged cross-sectional view of the main portion of the coupled state of the induction heating plate and the insulating plate and the working coil to which one embodiment of the present invention is applied, Figure 5 is a main portion of the combined state of the induction heating plate and insulation plate and the working coil is applied to another embodiment of the present invention An enlarged cross-sectional view is shown, and FIG. 6 (a) (b) shows a rear view of the heat insulating plate illustrating the form of air passage holes formed in the induction heating plate and the heat insulating plate, respectively.

According to the present invention,

A safety box 11 is installed at the opened front side and a wheel 14 is provided at the bottom thereof, and has a rectangular housing type body 1 having mobility;

Shaped to have a predetermined thickness and area by using a porous ceramic series and in the state in which the periphery is erected in the vertical direction from the center in the main body 1 through the plurality of insulating fasteners 7, It is fixed to the inside of the lower, left and right surfaces to electrically insulate between the induction heating plate 3 and the working coil 4 and to insulate the heat of the induction heating plate 3 from being transferred to the working coil 4 side. (2);

Planar heating type induction heating plate (3) having a predetermined area and thickness and induction heating by a magnetic field generated when current flows in the working coil (4) while being fixed to the front surface of the heat insulating plate (2) to allow ambient air to be heated and;

In a zigzag bent shape, a plurality of coil fixtures 8 and screws 8a are fixed to the rear surface of the heat insulating plate 2 to generate a magnetic field corresponding to the high frequency current output from the working coil drive unit 5. A working coil 4 for induction heating of the induction heating plate 3;

The working coil driving unit installed in the accommodating part 13 provided above the main body 1 to generate a high frequency current having a predetermined induction heating frequency band X 필요한 required for driving the working coil 4. 5) and;

It is provided with a heating temperature setting key and the on / off switch is installed on the upper surface or the upper front of the main body (1) for operating the user inputs the operation signal required for driving the induction heater; .

At this time, the induction heating plate 3 is molded to have a smaller area than the heat insulating plate 2 so that the heat generated from the induction heating plate 3 fixedly installed on the front surface of the heat insulating plate 2 is upper, lower, and left in the main body 1. It is characterized in that it is not delivered directly to the right side.

In addition, by installing a high-temperature insulation and insulating tube 10 woven from ceramic or glass fiber on the outer surface of the working coil (4) to insulate between the working coil (4) and the coil fixture (8) It features.

In addition, the rear plate 12 installed on the rear surface of the main body 1 is formed of gypsum or heat-resistant plastic having low thermal conductivity so that the heat generated from the induction heating plate 3 passes through the rear plate 12. It is characterized by blocking the discharge to the outside of the rear.

In addition, the front surface of the induction heating plate 3 is characterized in that the plurality of heat dissipation projections 31 are further protruded at a predetermined interval in order to widen the heat dissipation area.

In addition, the induction heating plate 3 and the heat insulating plate 2 are provided with a plurality of air intake holes 32 and 21 having a circular or rectangular shape at predetermined intervals, and further provided with a plurality of air intake holes 12a. Inside the rear plate 12 of the main body 1, one or two blower fans 9 are installed to blow air heated by the heat to a long distance, including heat generated from the induction heating plate 3. It is characterized by one.

On the other hand, the induction heating plate 3 has a heat diffusion coefficient of 1.4 [cm 2 / sec], a thermal conductivity of 60 to 90 [W / mK], a density of 1.8 ± 0.3 [g / cm 3], and a melting temperature of 595. It is [degreeC] and shape | molded by the magnesium alloy whose specific heat is 1.02-1.05 [J / gK].

Referring to the effect of the surface heating type induction heater of the present invention having such a configuration as follows.

First, the planar heating type induction heater to which the present invention is applied, as shown in FIGS. 1 to 6 (a) and (b), a main body 1 having a rectangular enclosure shape, a heat insulating plate 2, and a planar heating type induction heater. The main technical components include the heating plate 3, the working coil 4, the working coil drive unit 5, and the operation unit 6.

In this case, the rectangular enclosure body 1 has a front and rear opening, the upper surface is provided with an accommodating portion 13 that can accommodate the walking coil drive unit 5 as well as the front opening to protect the user from high heat. A safety net 11 is installed in order to provide a rear plate 12 at the rear opening, and in particular, each of the four bottom surfaces of the induction heater itself to smoothly move the induction heater to which the present invention including the main body 1 is applied. It has the structure which installed the wheel 14 provided with the stopper, ie, the caster.

Of course, the volume of the main body 1 is determined in correspondence with the heating output (for example 5 ~ 7 kW) of the induction heater to which the present invention is applied, and may be molded into a desired volume through press working using a general iron plate. In addition to the rectangular housing described above, it may be molded into a cabinet or the like.

On the other hand, in the case of forming the back plate 12 provided on the back of the main body 1 using an iron plate or the like as the material of the main body, part of the heat generated from the induction heating plate 3 to be described later is a back plate. There is a fear that it is discharged to the rear side of the main body 1 through 12.

Accordingly, in the present invention, part of the heat generated from the induction heating plate 3 is formed by molding the back plate 12 detachably installed in the back opening of the main body 1 with gypsum or heat resistant plastic having low thermal conductivity. Can be prevented from being released to the rear side of the main body 1 through the back plate 12.

In addition, the insulating plate 2 is formed to have a predetermined thickness and area by using a very good heat insulating and insulating properties of a porous ceramic series, and the plurality of heat insulating plates 2 are vertically placed at the center in the hollow body 1. The induction heating plate 3 and the working coil described later by fixing the upper, lower, left and right slopes to the inside of the upper, lower, left and right sides of the main body 1 by using the thermal insulation fixture 7 are described below. Induction heating plate (3) as well as a function to electrically fix the (4) to the front and rear of its own, as well as to electrically insulate between the induction heating plate (3) and the working coil (4) The heat generated from the to perform the function to insulate so as not to be delivered to the working coil (4) side.

In addition, the planar heating type induction heating plate 3 is formed to have a predetermined area and thickness by using a non-magnetic magnesium alloy or the like, and is fixedly installed on the front surface of the heat insulating plate 2. Induction heating to 400 ~ 600 ℃ by the magnetic field generated when the current flows in the working coil 4 to be described later to perform the function to heat the surrounding air.

In this case, the induction heating plate 3 is formed to have a smaller area than the heat insulating plate 2 so that when the induction heating plate 3 is fixedly installed on the front surface of the heat insulating plate 2, four sides of the induction heating plate 3 are insulated. Since the shape is located slightly inward from the four surfaces of (2), the heat generated from the induction heating plate (3) fixed to the front surface of the heat insulating plate (2) to the upper, lower, left, right surfaces in the body (1) Since the temperature of the main body 1 is unnecessarily increased because it is not directly transmitted, safety accidents such as burns and the like can be prevented in advance.

The magnesium alloy, which is a non-magnetic material used in the manufacture of the induction heating plate 3, has a heat diffusion coefficient of 1.4 [cm 2 / sec], a thermal conductivity of 60 to 90 [W / mK], and a density of 1.8 ± 0.3 [g]. / Cm 3], melting temperature is 595 [° C.], specific heat is 1.02 to 1.05 [J / gK], and heat emission is 2.5 to 3 times better than ferromagnetic materials such as cast iron or steel, and the density is also low and light. As the applied induction heater itself is light in weight, it is very convenient to carry and move, as well as good heat dissipation, so the heating efficiency is very good.

In addition, when the induction heating plate 3 is simply formed into a plate shape, the heat dissipation area is limited, so in the present invention, if necessary, a plurality of heat dissipation protrusions 31 are formed on the front surface of the induction heating plate 3. By further protruding and forming the heat dissipation area of the induction heating plate 3 itself as much as possible, the heat dissipation efficiency can be further improved.

On the other hand, the working coil 4 bends the coil having a bundle shape in a zigzag form and arranged on the back surface of the heat insulating plate (2) and then a plurality of coil fixtures (8) and screws (the longitudinal section has a substantially "Ω" shape ( 8a) is integrally fixed to the rear surface of the heat insulating plate 2, and when a high frequency current output from the working coil driving unit 5 flows, a magnetic field having a predetermined induction heating frequency X ㎑ is generated to generate an induction heating plate 3 ) To induction heating.

In addition, the working coil driving unit 5 is installed in an accommodating unit 13 provided above the main body 1, and has a predetermined induction heating frequency band X 필요한 required for driving the working coil 4. It performs the function of generating high frequency current.

At this time, the predetermined induction heating frequency band (X ㎑) generated in the working coil (4) may vary depending on the material of the induction heating plate (3), in general, induction heating frequency when using a ferromagnetic material such as cast iron, steel Is set to a band of 5 to 15 [KHz], in the present invention, the induction heating plate 3 is formed of a magnesium alloy, which is a nonmagnetic material, as described above, thereby inducing the induction heating frequency band to 40 to 100 [Hz]. It can be set so that the output frequency of the working coil driving unit 5 for driving the working coil (4) can be designed in such a way that raised more than twice.

In addition, the operation unit 6 includes a heating temperature setting key, an on / off switch, and the like, and is installed on the upper surface or the upper front surface of the main body 1 so that the user can input various operation signals required for driving the induction heater. To perform the function.

As described above, the induction heater of the present invention heats the surrounding air by heating the induction heating plate 3 in a manner in which a magnetic field generated when a current flows in the working coil 4 induces heating, so that the fluidity of the heater itself is good. It is light and easy to install and use, and it does not consume any oxygen in the room when operating the heater, and it does not generate various harmful gases or odors, so it is harmless to the human body and of course, it can maintain the indoor environment comfortably.

Moreover, the induction heating method itself has a heat conversion efficiency of 85-95% compared to the used power, which is very economical because the power use efficiency is higher than other heaters, and in the working coil 4 with low high frequency resistance, unlike other heaters, Since disconnection defects are not generated at all, the life of the product itself can be greatly extended, and the cost of maintenance is not at all costly, and the product can be manufactured at low cost, thereby reducing the economic burden on consumers.

On the other hand, since the insulating plate 2 is electrically insulating, the working coil is fixedly installed on the rear surface of the insulating plate 2 as shown in FIG. 4 by using a plurality of coil fasteners 8 and screws 8a. There is no major problem in the insulation between the coil fixture 8 and the working coil 4 and the induction heating plate 3, but if the coil fixture 8 is formed of a magnetic material or a conductive conductor, the coil When the length of the screw 8a to which the heat insulating plate 2 fixes the fastener 8 is long enough to penetrate the heat insulating plate 2, the high frequency current flowing through the working coil 4 passes through the coil fastener 8 and the screw ( 8a) through the induction heating plate (3) there is a fear that the induction heating itself is not made, as well as electrical safety accidents can occur.

Therefore, in the present invention, the working coil 4 may be further installed on the outer surface of the working coil 4 in such a manner as to cover the high-temperature insulation and insulation tube 10 woven with ceramic or glass fiber as shown in FIG. 5. Insulation between the working coil 4 and the induction heating plate 3 as well as between the coil fixture 8) and the coil fixture 8 can be completely performed.

In addition, in the present invention, a plurality of air passing holes 32 having a circular or rectangular shape as shown in FIG. 6 (a) (b) at predetermined intervals in the induction heating plate 3 and the heat insulating plate 2 as necessary. The induction heating plate (2) is drilled and one to two blower fans (9) are further provided inside the back plate (12) of the main body (1), which is provided with a plurality of air suction holes (12a). 3) The air heated by the heat, including the heat generated in 3), can be forcibly blown to the distance through the blower fans 9 as in a general hot air heater, so that the heating of the room is more efficient than the natural convection method. It can be carried out as well as can significantly improve the reliability and marketability of the heating operation of the product.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: body 11: safety net
12 back panel 12a air intake hole
13: storage 14: wheels
2: insulation plate 21: air passage hole
3: induction heating plate
31: heat dissipation projection 32: air passage hole
4: working coil
5: working coil driving unit
6: control panel
7: insulated fixture
8: coil fixture 8a: screw
9: blowing fan
10: high temperature insulation and insulation tube

Claims (8)

A main body having a safety net and a back plate respectively installed on the front and rear sides of the opening, and an upper part of which has a receiving part for receiving a walking coil driving part;
Peripheral parts are fixed to the inside of the upper, lower, left, and right sides of the main body through a plurality of insulating fasteners in a vertical direction at the center of the main body to electrically insulate between the induction heating plate and the working coil and at the same time An insulating plate for insulating heat from being transferred to the working coil side;
An induction heating plate having a predetermined area and thickness induction heating by a magnetic field generated when a current flows in the working coil in a state of being fixedly installed on the front surface of the insulation plate to heat the surrounding air;
A working coil fixedly installed on a rear surface of the heat insulating plate to generate a magnetic field corresponding to a high frequency current output from the working coil driving unit to induction heating the induction heating plate;
A working coil driving unit installed in an accommodating part of the main body to generate a high frequency current having a predetermined induction heating frequency band (X ㎑) necessary for driving the working coil;
And an operation unit installed at an upper surface or an upper front surface of the main body to allow a user to input an operation signal required for driving the induction heater.
The method according to claim 1,
The induction heating plate is formed to have a smaller area than the heat insulating plate, so that the heat generated from the induction heating plate fixedly installed on the front surface of the heat insulating plate is not directly transferred to the upper, lower, left and right surfaces in the body. .
The method according to claim 1,
Plane heating type induction heater characterized in that it is possible to insulate between the working coil and the coil fixture by further installing a high-temperature insulation and insulating tube on the outer surface of the working coil.
The method according to claim 1,
The back plate is installed on the back of the main body is formed of gypsum or heat-resistant plastic to prevent the heat generated from the induction heating plate to be discharged to the outside through the back plate, in-plane heating type induction heater.
The method according to claim 1,
The front surface of the induction heating plate is a planar heating type induction heater characterized in that the plurality of heat dissipation projections are further protruded at a predetermined interval.
The method according to claim 1 or 4,
The induction heating plate and the heat insulating plate are drilled a plurality of air passage holes at a predetermined interval,
Inside the back plate of the main body further provided with a plurality of air inlet holes 1 to 2 blower fans including the heat generated by the induction heating plate to blow the air heated by the heat to a long distance, characterized in that further installed Plane heating type induction heater.
The method according to claim 1,
The induction heating plate has a heat diffusion coefficient of 1.4 [cm 2 / sec], a thermal conductivity of 60 to 90 [W / mK], a density of 1.8 ± 0.3 [g / cm 3], a melting temperature of 595 [° C.], A planar heating type induction heater characterized by being formed from a magnesium alloy having a specific heat of 1.02 to 1.05 [J / gK].
The method according to claim 1 or 7,
A predetermined induction heating frequency band (X ㎑) output from the working coil drive unit and guided to the induction heating plate formed of magnesium alloy is
Planar heating type induction heater, characterized in that 40 to 100 [㎑] band.

Images