JP2004251600A - Induced current power supply device and induced current electric appliance - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an induced current power supply device and induced current electric appliances, expanding the usage of an electromagnetic induction heater by generating induced current by an electromagnetic induction heater to be applicable to the domestic electric appliances not for the electromagnetic induction heater. <P>SOLUTION: This induced current power supply device 11 includes: a coil 11a electromagnetically coupled to generate induced current to an electromagnetic induction heater; and a current output terminal 11b electrically connected to the coil 11a. The container 12 is provided on the upper side of the coil 11a. The load 13 is electrically connected to the coil 11a, thereby heating the inside of the container 12. The current input terminal 16 is electrically connected to the load 13. The current output terminal 11b is electrically connected to the coil 11a. A switch 14 is put in the connecting state between the coil 11a and the current output terminal 11b. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an induction current power supply and an induction current appliance for an electromagnetic induction heater.
[0002]
[Prior art]
The electromagnetic induction heater is used by placing a metal cooking container at a heating position. The electromagnetic induction heater intermittently supplies a current to a coil provided below the plate at the heating position to change the generated magnetic flux. Due to the change in the lines of magnetic force, an eddy current is generated at the bottom of the cooking container by electromagnetic induction, and the cooking container can be heated and cooked by the eddy current.
[0003]
However, there is a problem that cooking vessels that can be used in the electromagnetic induction heater are limited to those having a large heat generation effect due to current resistance of eddy current. For example, a cooking container made of metal such as iron, cast iron, and stainless steel and having a flat bottom can be used, but a cooking container such as a ceramic pot, clay pot, and clay bottle that is an insulator that does not cause electromagnetic induction should be used. Can not. In addition, even if it is made of metal, it is not possible to use a cooking container made of aluminum or copper which has a small heat generation effect due to current resistance. For this reason, the electromagnetic induction heater cannot make a grilled fish or the like or a pot dish using radiant heat of a fire or an electric heating element. In addition, the tea cannot be boiled with an aluminum or copper kettle, a clay pot or the like.
[0004]
Therefore, in order to solve these problems, a conventional cooking utensil for an electromagnetic induction heater uses an electromagnetic heating plate with a concave portion or a magnetic metal heating net to heat an earthen pot (Patent Document 1). And a ceramic earthenware pot (see Patent Document 2) in which a thin metal coating mainly composed of silver is formed on the outer surface of the bottom to improve thermal conductivity.
[0005]
[Patent Document 1]
JP 10-137130 A [Patent Document 2]
JP-A-7-6870
[Problems to be solved by the invention]
However, the conventional cooking utensils for electromagnetic induction heaters shown in Patent Documents 1 and 2 can be applied to cooking containers such as clay pots, but can also be applied to electric toasters, electric rice cookers and other household electric appliances. There was a problem that could not be done.
[0007]
SUMMARY OF THE INVENTION The present invention has been made in view of such conventional problems, and expands the range of use of an electromagnetic induction heater, and can be applied to home electric appliances that are not used for an electromagnetic induction heater, and an induction current power supply device and an induction current. It is intended to provide an electric appliance.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, an induction current power supply device according to the present invention includes a coil that can be electromagnetically coupled to generate an induction current with respect to an electromagnetic induction heater, and a current output terminal that is electrically connected to the coil. , Is characterized by having.
[0009]
The induction current power supply according to the present invention is used with a coil mounted on a heating position of an electromagnetic induction heater. The coil is covered with an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater via the insulator. The insulator may be a turntable. The electromagnetic induction heater intermittently supplies a current to the magnetic force generating coil to change the generated magnetic force lines. The changing lines of magnetic force penetrate the coil placed at the heating position, and an electromotive force is generated in the coil by electromagnetic induction, so that a current flows. Thus, the induction current power supply device according to the present invention can generate an induction current in the coil by the electromagnetic induction heater.
[0010]
In the induction current power supply according to the present invention, the generated current can be extracted from the current output terminal connected to the coil. Preferably, the current output terminal comprises an outlet. In this case, plug the electric toaster, electric stove, electric pot, electric oven toaster, electric fish cooker, electric rice cooker, electric pan, electric coffee kettle, electric mixer and other commercially available household appliances into an outlet. Can be plugged in and used. For this reason, the induction current power supply device according to the present invention widens the range of use of the electromagnetic induction heater, and enables the use of household electric appliances not for the electromagnetic induction heater.
[0011]
The induction current electric appliance according to the present invention is a coil that can be electromagnetically coupled so as to generate an induction current for an electromagnetic induction heater, and a load electrically connected to the coil and provided on the upper side of the coil, It is characterized by having.
[0012]
The induction current electric appliance according to the present invention is used by placing a coil on a heating position of an electromagnetic induction heater. The coil is covered with an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater via the insulator. The insulator may be a turntable. The electromagnetic induction heater intermittently supplies a current to the magnetic force generating coil to change the generated magnetic force lines. The changing lines of magnetic force penetrate the coil placed at the heating position, and an electromotive force is generated in the coil by electromagnetic induction, so that a current flows. Thus, the induction current electric appliance according to the present invention can generate an induction current in the coil by the electromagnetic induction heater.
[0013]
The induced current electric appliance according to the present invention can cause the generated current to flow to the load connected to the coil. The load can consist of electric heater, electric toaster, electric stove, electric pot, electric oven toaster, electric fish grill, electric rice cooker, electric pot, electric coffee kettle, electric mixer and other household appliances . In this case, the induction current electric appliance according to the present invention can be applied to a household electric appliance not for an electromagnetic induction heater, depending on the type of load.
[0014]
Further, another induction current appliance according to the present invention is a coil that can be electromagnetically coupled to generate an induction current for an electromagnetic induction heater, a container provided above the coil, And a load capable of heating the inside of the container. The coil is covered with an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater via the insulator. The insulator may be a turntable.
[0015]
In the present invention, the load is preferably made of a heating element such as an electric heater. When the load is composed of a heating element, even if the container is of a type that cannot be used in an electromagnetic induction heater such as an aluminum or copper cooking utensil or an earthenware pot, the inside of the container can be heated and cooked by the load. Further, grilled fish or the like may be grilled by placing a net in a container. As described above, the induction current electric appliance according to the present invention expands the range of use of the electromagnetic induction heater, and is applicable to containers not used for the electromagnetic induction heater.
[0016]
The induction current appliance according to the present invention may include a switch between the coil and the load. In this case, when the switch is turned on, the current flows from the coil to the load, and when the switch is turned off, the current flowing from the coil to the load can be stopped.
[0017]
The induction current appliance according to the present invention may have a current input terminal electrically connected to the load. In this case, the load may be operated by the current from the coil, or the load may be operated by connecting the current input terminal to the current output terminal. Preferably, the current input terminal comprises a plug for a household power supply.
[0018]
Further, it may have a current output terminal electrically connected to the coil. Preferably, the current output terminal comprises an outlet. In this case, an electric toaster, an electric rice cooker, or other commercially available household electric appliances can be used by plugging the plug into an outlet. Further, a switch may be provided between the coil and the current output terminal.
[0019]
In the induction current electric appliance according to the present invention, the load may be an electric cooking appliance. In this case, the induction current electric appliance according to the present invention can be applied to an electric cooking appliance that is not used for an electromagnetic induction heater according to the type of load, and the range of use of the electromagnetic induction heater can be expanded.
In the above-described induction current power supply device or induction current electric appliance according to the present invention, a power supply for turning the coil into an electromagnet may be connectable to the coil. The power source is composed of, for example, a battery. In this configuration, by connecting the power supply to the coil and making the coil an electromagnet, when the coil is placed on an iron plate or on an unlit stove, the coil is attracted to them and stability Can be increased.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, various embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a first embodiment of the present invention.
As shown in FIG. 1, the induced current electric appliance 10 has an induced current power supply device 11, a container 12, a load 13, a switch 14, a power supply terminal 15, and a current input terminal 16.
[0021]
As shown in FIGS. 1 and 2, the induced current power supply device 11 has a coil 11a and a current output terminal 11b. The coil 11a is formed in a disk shape and has two terminals. The coil 11a can be electromagnetically coupled so as to generate an induction current to the electromagnetic induction heater. The coil 11a is covered with a cover made of an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater via the cover. The current output terminal 11b is composed of an outlet and has two insertion ports. The current output terminal 11b has a connection terminal of one insertion port electrically connected to one terminal of the coil 11a, and a connection terminal of the other insertion port electrically connected to the other terminal of the coil 11a. The current output terminal 11b is capable of inserting a plug of a commercially available electric cooking appliance.
[0022]
As shown in FIG. 1, the container 12 is made of a pot having a circular flat surface and made of a heat-resistant material. The container 12 has a flat bottom portion 12a, and a coil 11a is attached to the back surface thereof. The load 13 is composed of an electric heater and has two terminals. The load 13 is attached to the inside of the container 12 in a planar shape so as to cover the entire bottom 12a. The load 13 can heat the inside of the container 12. A pot or the like can be placed on the load 13 inside the container 12.
[0023]
The switch 14 is composed of a flip-flop type manual switch and has two terminals. The switch 14 is mounted on the side of the container 12 such that the switch is located outside the container 12 and each terminal is located inside the container 12. The power terminal 15 has two relay terminals and is attached to the inner side surface of the container 12.
[0024]
The current input terminal 16 has a plug 16a having two insertion blades and two cables 16b electrically connected to each insertion blade. The current input terminals 16 are attached so that the cables 16b penetrate the side surfaces of the container 12 so that the plug 16a is disposed outside the container 12 and the end of each cable 16b is disposed inside the container 12. The current input terminal 16 allows the plug 16a to be inserted into the current output terminal 11b or a household outlet.
[0025]
As shown in FIG. 1, one terminal of the load 13 is electrically connected to one terminal of the switch 14, and the other terminal of the load 13 is electrically connected to one relay terminal of the power supply terminal 15. The other terminal of the switch 14 is electrically connected to the other relay terminal of the power supply terminal 15. One end of one cable 16 b of the current input terminal 16 is electrically connected to one relay terminal of the power supply terminal 15, and the other end of the cable 16 b is electrically connected to the other relay terminal of the power supply terminal 15.
[0026]
Next, the operation will be described.
The induction current appliance 10 can be used by inserting the plug 16a of the current input terminal 16 into the outlet of the current output terminal 11b and mounting the coil 11a at the heating position of the electromagnetic induction heater. When the electromagnetic induction heater is operated, current flows intermittently through the magnetic force generating coil, and the generated magnetic force lines change. The line of changing magnetic force penetrates the coil 11a placed at the heating position, and an electromotive force is generated in the coil 11a by electromagnetic induction. Here, when the switch 14 is turned on, a circuit from the coil 11a to the load 13 becomes a closed circuit, and a current flows by an electromotive force generated in the coil 11a. Thus, the induction current appliance 10 can generate an induction current in the coil 11a by the electromagnetic induction heater.
[0027]
The generated current flows to the load 13, and the load 13 generates heat and heats the inside of the container 12. The induction current electric appliance 10 can cook using this heat. For example, a cooking utensil such as an aluminum or copper cooking utensil or an earthen pot that cannot be used with an electromagnetic induction heater is cooked on the load 13 of the container 12, or a grill is placed on the load 13 of the container 12 by placing a net on the load 13. It can also be used for pottery.
[0028]
In this way, the induction current electric appliance 10 can be cooked by using a cooking utensil that cannot be used with an electromagnetic induction heater such as a cooking utensil made of aluminum or copper, a clay pot, or the like. For this reason, the induction current electric appliance 10 can expand the use range of the electromagnetic induction heater. By turning off the switch 14, the induction current electric appliance 10 can stop the current flowing from the coil 11a to the load 13, thereby stopping the heat generation of the load 13.
[0029]
The induction current power supply device 11 can take out the generated current from the current output terminal 11b connected to the coil 11a. For this reason, plugs of commercially available electric cooking utensils such as electric toasters, electric stoves, electric pots, electric oven toasters, electric fish grills, electric rice cookers, electric pots, electric coffee kettles, electric mixers, etc. are connected to the current output terminals 11b. It can also be used by plugging it into an outlet. As described above, the induction current power supply device 11 can expand the use range of the electromagnetic induction heater.
[0030]
In addition, commercially available electric cooking utensils have a power cord with a plug for taking power from an electric outlet provided on a wall of a house. 2. Description of the Related Art Conventionally, when using or storing electric cooking utensils, it has been inconvenient because the power cord has to be lengthened or rounded, and plugs must be plugged into and unplugged from electric outlets. However, in the induction current power supply 11, it is not necessary to extend the power cord of a commercially available electric cooking appliance to the electric outlet on the wall of the house, and the induction current power supply 11 is placed at the heating position of the electromagnetic induction heater, and the current output terminal is provided. Since the operation can be performed simply by connecting the power cord to the outlet of the power outlet 11b, the number and labor of extending the power cord can be reduced, which is convenient.
[0031]
FIG. 3 and FIG. 4 show a second embodiment of the present invention.
As shown in FIG. 3, the induction current electric appliance 20 has a coil 21a, a container 22, and a load 23.
[0032]
The coil 21a is formed in a disk shape and has two terminals. The coil 21a can be electromagnetically coupled so as to generate an induction current to the electromagnetic induction heater. The coil 21a is covered with a cover made of an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater with the cover interposed therebetween. As shown in FIG. 3, the container 22 is made of a pot having a circular flat surface and made of a heat-resistant material. The container 22 has a flat bottom portion 22a, and a coil 21a is attached to the back surface thereof.
[0033]
The load 23 is composed of an electric heater and has two terminals. The load 23 is attached to the inner side surface of the container 22 so as to cover the bottom of the container 22. The load 23 can heat the inside of the container 22. As shown in FIG. 3, one terminal of the load 23 is electrically connected to one terminal of the coil 21a, and the other terminal of the load 23 is electrically connected to the other terminal of the coil 21a.
[0034]
Next, the operation will be described.
The induction current electric appliance 20 is used with the coil 21a placed on the heating position of the electromagnetic induction heater. When the electromagnetic induction heater is operated, current flows intermittently through the magnetic force generating coil, and the generated magnetic force lines change. The changing lines of magnetic force pass through the coil 21a placed at the heating position, and an electromotive force is generated in the coil 21a by electromagnetic induction. Since the circuit from the coil 21a to the load 23 is a closed circuit, a current flows by the electromotive force generated in the coil 21a. Thus, the induction current appliance 20 can generate an induction current in the coil 21a by the electromagnetic induction heater.
[0035]
The generated current flows to the load 23, and the load 23 generates heat to heat the inside of the container 22. In the induction current appliance 20, cooking can be performed using this heat. For example, cooking can be performed by placing a cooking utensil such as an aluminum or copper cooking utensil or an earthen pot that cannot be used with an electromagnetic induction heater in the container 22, or can be cooked by placing a net in the container 22. In addition, when stopping the heat generation of the load 23, the coil 21a is removed from the heating position together with the container 22, and when heating again, the coil 21a is returned to the heating position.
[0036]
In this way, the induction current electric appliance 20 can be cooked by using a cooking utensil that cannot be used with an electromagnetic induction heater such as a cooking utensil made of aluminum or copper, a clay pot, or the like. For this reason, the induction current electric appliance 20 can expand the use range of the electromagnetic induction heater.
[0037]
In addition, as shown in FIG. 4, the induced current electric appliance 20 may have a switch 24 between the coil 21a and the load 23. In this case, when the switch 24 is turned on, the current flows from the coil 21a to the load 23, and when the switch 24 is turned off, the current flowing from the coil 21a to the load 23 can be stopped.
[0038]
FIG. 5 and FIG. 6 show a third embodiment of the present invention.
As shown in FIG. 5, the induction current electric appliance 30 has an induction current power supply device 31 and an electric cooking appliance 33.
[0039]
As shown in FIG. 5, the induced current power supply device 31 has a coil 31a and a current output terminal 31b. The coil 31a is formed in a disk shape and has two terminals. The coil 31a can be electromagnetically coupled so as to generate an induction current for the electromagnetic induction heater. The coil 31a is covered with a cover made of an insulator such as plastic, and can be electromagnetically coupled to the electromagnetic induction heater with the cover interposed therebetween. The cover may be a turntable such as used in electric pots. The current output terminal 31b is composed of an outlet and has two insertion ports. The current output terminal 31b electrically connects the connection terminal of one insertion port to one terminal of the coil 31a and the connection terminal of the other insertion port to the other terminal of the coil 31a. The plug of a commercially available electric cooking appliance can be inserted into the current output terminal 31b.
[0040]
As shown in FIG. 5, the electric cooking appliance 33 is made of an electric toaster and has a current input terminal 33a. The current input terminal 33a is composed of a power cord with a plug. The electric cooker 33 has a coil 31a attached to a bottom 33b. In addition, the electric cooker 33 is not limited to the electric toaster, and includes an electric stove, an electric pot, an electric roaster, an electric oven toaster, an electric fish grill, an electric rice cooker, an electric grill, an electric pan, an electric coffee kettle, an electric mixer, It may be an electric juicer, a microcomputer rice cooker, an IH rice cooker, an IH pot, an IH coffee kettle, or the like.
[0041]
As shown in FIG. 6, the electric cooking appliance 33 can be configured to be able to use by switching between the induction current power supply device 31 and the commercial power supply 1. In the electric cooking appliance 33 shown in FIG. 6A, cooking is performed by passing an electric current from the changeover switch 33c for switching between the induction current power supply device 31 and the commercial power supply 1 to the electric heater 33e via the power supply terminal 33d. The electric power at this time is, for example, an alternating current of a voltage of 200 to 300 V and 20 to 30 kHz. As such an electric cooker 33, for example, an electric stove, an electric pot, an electric toaster, an electric roaster, an electric oven toaster, an electric rice cooker, an electric grill, an electric coffee kettle, and the like are suitable.
[0042]
In the electric cooking appliance 33 shown in FIG. 6B, a current flows from a changeover switch 33c for switching between the induction current power supply device 31 and the commercial power supply 1 to a rectifier circuit 33f via a power supply terminal 33d. The electric power at this time is, for example, an alternating current of a voltage of 200 to 300 V and 20 to 30 kHz. The current is converted from alternating current to direct current in the rectifier circuit 33f, returned to alternating current again by the inverter 33g, and the current is supplied to the electric heater 33e for cooking. The electric power at this time is, for example, an alternating current with a voltage of 100 V and 50 to 60 Hz. Further, a microcomputer control circuit 33h is connected to the rectifier circuit 33f, and can control a current in accordance with a cooking process. Note that the inverter 33g can extract high-frequency power when switching to the commercial power supply 1 and control the power by changing the frequency when switching to the induction current power supply device 31. As such an electric cooker 33, for example, an electric stove, an electric pot, an electric toaster, an electric roaster, an electric oven toaster, an electric rice cooker, an electric grill, an electric coffee kettle, a microcomputer rice cooker, and the like are suitable.
[0043]
In the electric cooking appliance 33 shown in FIG. 6C, a current flows from a changeover switch 33c for switching between the induction current power supply device 31 and the commercial power supply 1 to a rectifier circuit 33f via a power supply terminal 33d. The rectifier circuit 33f converts the current from AC to DC, returns the current to AC again by the inverter 33g, and allows the current to flow to the electric motor 33i for cooking. The electric power at this time is, for example, an alternating current with a voltage of 100 V and 50 to 60 Hz. As such an electric cooking appliance 33, for example, an electric mixer, an electric juicer or the like is suitable.
[0044]
In the electric cooking appliance 33 shown in FIG. 6D, a current flows from a changeover switch 33c for switching between the induced current power supply device 31 and the commercial power supply 1 to a rectifier circuit 33f via a power supply terminal 33d. The rectifier circuit 33f converts the current from AC to DC, returns the current to AC again by the inverter 33g, and allows the current to flow through the heating coil 33j to perform cooking. The electric power at this time is, for example, an alternating current of 20 to 30 kHz. Further, a microcomputer control circuit 33h is connected to the rectifier circuit 33f, and can control a current in accordance with a cooking process. As such an electric cooking appliance 33, for example, an IH rice cooker is suitable.
[0045]
In the electric cooking appliance 33 shown in FIG. 6E, in the case of the induction current power supply device 31, the changeover switch 33c is set to the induction current power supply device 31 side, and the high-frequency current is directly supplied to the heating coil 31a via the power supply terminal 33d. Shed. In the case of the commercial power supply 1, the switch 33c is set to the commercial power supply 1 side, and a current flows to the rectifier circuit 33f via the power supply terminal 33d. The electric power at this time is, for example, an alternating current of 20 to 30 kHz. When connected to the commercial power supply 1, the rectifier circuit 33f converts the current from AC to DC, returns the current to AC again by the inverter 33g, and allows the current to flow to the heating coil 33j to perform cooking. Further, a microcomputer control circuit 33h is connected to the rectifier circuit 33f, and can control a current in accordance with a cooking process. As described above, in the electric cooking appliance 33 shown in FIG. 6E, the heating coil 31a can be heated by the high-frequency power from the induction current power supply device 31, and efficient heating is possible. As such an electric cooking appliance 33, for example, an IH rice cooker, an IH pot, and an IH coffee kettle are suitable.
[0046]
Next, the operation will be described.
The induction current electric appliance 30 can be used by inserting the plug of the current input terminal 33a of the electric cooking appliance 33 into the outlet of the current output terminal 31b, and placing the coil 31a at the heating position of the electromagnetic induction heater. When the electromagnetic induction heater is operated, current flows intermittently through the magnetic force generating coil, and the generated magnetic force lines change. The lines of changing magnetic force penetrate the coil 31a placed at the heating position, and an electromotive force is generated in the coil 31a by electromagnetic induction. Since the circuit from the coil 31a to the electric cooking appliance 33 is a closed circuit, an electric current flows by the electromotive force generated in the coil 31a. Thus, the induction current appliance 30 can generate an induction current in the coil 31a by the electromagnetic induction heater.
[0047]
The generated electric current flows to the electric cooking utensil 33, and the electric cooking utensil 33 can be operated to perform cooking. Thereby, the induction current electric appliance 30 can use the electric cooking appliance 33 by the electromagnetic induction heater, and can widen the use range of the electromagnetic induction heater. The current input terminal 33a may be used by inserting a plug into a household outlet.
[0048]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the use range of an electromagnetic induction heater can be expanded and the induction current power supply apparatus and the induction current electric appliance which can be applied also to household electric appliances not for an electromagnetic induction heater can be provided.
[Brief description of the drawings]
FIG. 1 is a partial sectional view showing an induced current electric appliance according to a first embodiment of the present invention.
2A is a plan view and FIG. 2B is a side view showing an induction current power supply device of the induction current appliance shown in FIG.
FIG. 3 is a sectional view showing an induced current electric appliance according to a second embodiment of the present invention.
FIG. 4 is a sectional view showing a modified example of the induction current electric device shown in FIG.
FIG. 5 is a side view showing an induction current electric device according to a third embodiment of the present invention.
6 is a block diagram showing the configuration of the electric cooking appliance of the induction current electric appliance shown in FIG. 5 in (A) to (E).
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Induction current appliance 11 Induction current power supply 11a Coil 11b Current output terminal 12 Container 13 Load 14 Switch 15 Power supply terminal 16 Current input terminal 16a Plug 16b Cable

Claims (8)

A coil that can be electromagnetically coupled to generate an induction current for the electromagnetic induction heater,
A current output terminal electrically connected to the coil,
An induction current power supply device comprising: A coil that can be electromagnetically coupled to generate an induction current for the electromagnetic induction heater,
Electrically connected to the coil, and a load provided on the upper side of the coil,
An inductive current appliance characterized by having: A coil that can be electromagnetically coupled to generate an induction current for the electromagnetic induction heater,
A container provided above the coil,
A load electrically connected to the coil and capable of heating the inside of the container,
An inductive current appliance characterized by having: 4. The induction current appliance according to claim 2, further comprising a switch between the coil and the load. 5. The induction current appliance according to claim 2, further comprising a current input terminal electrically connected to said load. 6. The induction current appliance according to claim 2, further comprising a current output terminal electrically connected to said coil. 7. The induction current appliance according to claim 6, further comprising a switch between the coil and the current output terminal. 8. The induction current appliance according to claim 2, wherein the load comprises an electric cooking appliance.

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