KR101718878B1 - Automatic power control system used sensing of cooking utensils multi-coil for induction range and induction range using it - Google Patents

Abstract

The present invention relates to an automatic power control system using multi-coil of an induction range used for automatically sensing cooking tools and an induction range using the same, in which the cooking tool can be heated without limitation on a position of an upper cooking surface of the induction, and energy loss can be minimized by automatically distributing a power amount according to the location of the cooking tool. To this end, The system includes: a heating plate (10) provided on an upper surface thereof with a heat reinforcing cover for heating the cooking tool, and provided therein with an induction coil unit (11) in which a plurality of induction coils (11a) are disposed, in which the induction coils (11a) are simultaneously controlled by one induction coil unit (11); a control panel (20) provided at one side of the heating plate (10) to set the operation control of the heating plate (10) by the user, and display an operational state; and a control device (30) for executing and controlling the command inputted from the control panel (20).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an induction automatic power control system using multiple coils for automatic detection of cooking utensils,

The present invention relates to an induction automatic power control system using a plurality of coils for automatic sensing of cooking utensils and an induction using the induction system. The induction heating system can heat the cooking utensil without restricting the position of the induction upper cooking surface, So that the energy loss can be minimized.

Generally, an induction is for heating a cooking utensil such as a pot, and the utensil is heated using electric energy without using fossil fuels such as natural gas.

In the case of such a heating device, there is a heating device such as a direct heating type heating device for directly heating a heating element, and an induction device utilizing an induction current.

Here, in the case of the induction, since the cooking apparatus is placed on the upper side of the induction coil for generating heat, the cooking apparatus is heated, so that the position is mostly fixed.

However, in the case of such a cooking device, when the user can not position the cooking device in the correct position, heat loss occurs, and since only the cooking device corresponding to the number of the specified cooking devices can be used, it is difficult to use a large number of cooking devices there was.

Various types of freezone induction have been proposed, but most of the technologies merely propose a technique of heating the cooking apparatus without restriction of the cooking zone, so that it is difficult to simultaneously control a plurality of induction coils, The amount of electric power to be supplied to the battery is also shaped and there is a problem of loss of energy.

In addition, there is a disadvantage that the user must manually control the operation of the induction coil for cooking.

Korean Patent Laid-open Publication No. 10-2011-0076166 (an apparatus and method for automatically controlling a burner according to a cooking container locking of an electric cooking stove, and disclosed on Jul. 06, 2011)

In order to solve the above problems, an induction automatic power control system using a plurality of coils for automatic sensing of cooking utensils capable of heating a cooking appliance irrespective of a heating section and an induction using the same, The present invention provides an induction automatic power control system using a plurality of coils for automatic sensing of cooking utensils, and an induction applying the same.

It is still another object of the present invention to provide an induction automatic power control system using a plurality of coils for automatic sensing of cooking utensils capable of minimizing heat loss by automatically adjusting the amount of power supplied to each induction coil and an induction applying the same .

In order to achieve the above object, there is provided an automatic power control system using a plurality of coils for automatic sensing of cooking utensil, wherein a heat-resistant cover is provided on an upper surface for heating the cooking utensil, The induction coil unit 11 is provided with a plurality of induction coils 11a to be distributed and supplied to the respective induction coils 11a, A heating plate 10 which is controlled at the same time by the coil unit 11 and at one side of the heating plate 10 and which controls the operation of the heating plate 10 by the user, A control panel 20; And a control unit (30) for controlling and controlling commands inputted from the control panel (20). The induction automatic power control system using the plurality of coils for automatic sensing of a cooking instrument is provided.

In addition, the control panel 20 is provided with a touch slide 21 for controlling temperature as a user's touch, a power button 22 for controlling the power source, a timer 23 for setting an operation time, And a warmer 24 for maintaining the temperature of the cooked food.

Further, the control panel 20 further includes a turbo button 25 used when a strong thermal power is required when cooking food, and the control device 30 is provided with a control command such as temperature and time input from the user A central control unit 31 for processing the control panel 20, a button provided on the control panel 20, an LED serving as display means, and a temperature sensor, a thermal pen, and a buzzer, which are further provided on one side of the heating plate 10, A distributor 33 for distributing electric power to the induction coil 11a of the heating plate 10 and a sensor 34 for sensing the amount of voltage delivered to the distributor 33, And a rectifier filter 36 for supplying power for operation of the induction coil 11a is provided, and a rectifier filter 36 for supplying power for operating the induction coil 11a is provided, An IGBT filter (Insulated Gate Bipolar mode Trans) for controlling the operation signal of the induction coil 11a istor: 37).

In addition, the induction automatic power control system using the plurality of coils for automatic sensing of the cooking instrument may include a cooking instrument sensing step (S10) for sensing whether the preliminary mechanism is mounted on the heating plate (10) (S20), which is a user-set temperature interval, which is set by the user through the control panel 20 when the temperature sensor detects the presence of the temperature sensor, and sets the amount of power according to the temperature interval set by the user A step S40 of checking the range of the induction coil 11a through which the object is sensed through the step S30 and a distribution step of distributing electric power supplied according to the range of the induction coil 11a sensed in the step S40 S50), and a cooking device heating step (S60) for heating the cooking device is applied to the freezing induction system. The present invention provides a freezone induction system in which the above- It is possible to achieve the object of the present invention by providing an induction using an induction automatic power control system using a plurality of coils for automatic detection.

The present invention provides an induction automatic power control system using an induction automatic power control system using a plurality of coils for automatic detection of a cooking appliance and minimizes energy loss and automatically recognizes a heating zone of a cooking appliance, There is an effect that can be made.

1 is a plan view showing a configuration of an induction automatic power control system using a plurality of coils for automatic sensing of a cooking apparatus of the present invention.
2 is an enlarged view showing the configuration of a control panel 20 according to an induction automatic power control system using a plurality of coils for automatic detection of cooking utensils according to the present invention.
3 is a configuration diagram of a control device 30 according to an induction automatic power control system using a plurality of coils for automatic sensing of a cooking device of the present invention.
4 is an exemplary diagram for explaining a control method according to the present invention.
5 is a flowchart of a method of controlling an induction automatic power control system using a plurality of coils for automatic sensing of a cooking instrument according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an induction automatic power control system using a plurality of coils for automatic sensing of a cooking apparatus of the present invention and induction using the same will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

1 is a plan view showing a configuration of an induction automatic power control system using a plurality of coils for automatic detection of a cooking apparatus according to the present invention,

FIG. 2 is an enlarged view showing a configuration of a control panel 20 according to an induction heating system automatic power control system using a plurality of coils for automatic sensing of a cooking apparatus according to the present invention. And the control device 30 according to the present invention.

1 to 3, an induction automatic power control system using a plurality of coils for automatic sensing of a cooking apparatus according to the present invention includes a heating plate 10 for heating a cooking device, A control panel 20 for setting the operation control of the heating plate 10 by a user and displaying an operation state, and a controller (not shown) for executing and controlling the commands inputted from the control panel 20 30).

The heating plate 10 is provided with a heat-enhanced cover on its upper surface and is provided with an induction coil unit 11 having a plurality of induction coils 11a disposed therein.

More specifically, two or more induction coils 11a are collectively arranged to form one induction coil unit 11 and a pair of induction coil units 11 configured as described above are arranged.

In this instance, the induction coil unit 11 is shown as a pair in the attached drawings for the detailed description of the present invention, but the present invention is not limited thereto, and a plurality of induction coil units 11 may be installed.

The induction coils 11a provided in the respective induction coil units 11 of the heating plate 10 are simultaneously controlled for each induction coil unit 11. [

More specifically, two or more induction coils 11a are provided in the induction coil unit 11, and the total amount of electric power supplied to one induction coil unit 11 is set to a predetermined value, And is controlled to be distributed to the coil 11a.

For example, when the total amount of electric power supplied to one induction coil unit 11 having four induction coils 11a is 3,000 W and two induction coils 11a among the four induction coils 11a are supplied, When the cooker serving as the object to be heated is located, the electric power of 3,000W is supplied to the two induction coils 11a at 1,500W each.

At this time, when the temperature interval set by the user is the maximum value, the power is divided by 1,500 W, and when the temperature interval set by the user is in the middle level, the intermediate value of the power of 3,000 W is divided into 1,500 W, (See Fig. 4)

A control panel 20 is provided on one side of the heating plate 10 to display the control of the heating plate 10 and the like.

The control panel 20 is provided with a touch slide 21 for controlling temperature as a user's touch and includes a power button 22 for controlling the power source and includes a timer 23 for setting an operation time, A warmer 24 is provided to maintain the temperature of the cooked food.

Here, the warmer 24 applies heat to such a degree that the cooked food does not cool. For example, if boiling of the liquid food is started at a temperature of 100 ° C or higher, the warmer 24 maintains a lower temperature and keeps the food from cooling .

Further, the control panel 20 is further provided with a turbo button 25 to be used when a strong thermal power is required when food is cooked.

In addition, the control panel 20 is provided with a lock button 26 for preventing the time and temperature set by the user from being changed by another person, or for accidentally operating a child or the like to prevent an accident such as an image, Respectively.

The control device 30, which controls the power amount and operation of the heating plate 10 as described above, performs control commands inputted by the user from the control panel 20, and displays the control and operation states, A central control unit 31 for processing control commands such as temperature and time, a button provided on the control panel 20, LEDs as display means, a temperature sensor further provided on one side of the heating plate 10, A distributor 33 for distributing electric power to be applied to the induction coil 11a of the heating plate 10 and a device interlocking portion 32 for operating a buzzer or the like as a voice display means, A sensor 34 for sensing a voltage and an amount of current and a switched mode power supply 35 for operating and controlling the sensor 34 are provided.

A rectifying filter 36 for supplying power for operating the induction coil 11a is provided and is constituted by an IGBT filter (Insulated Gate Bipolar mode Transistor) 37 for controlling the operation signal of the induction coil 11a .

The device interlocking unit 32 includes a buzzer interlocking node 321 interlocked with a buzzer for voice signals, a heat dissipating pen interlocking node 322 interlocked with a heat dissipating pen for heat dissipation, An LED & KEY node 323 interlocked with a button and a LED serving as display means, and a temperature sensor node 324 interlocked with the temperature sensor.

The sensor 34 is capable of sensing a voltage and an amount of current, and is capable of sensing a resonance voltage, which is a voltage applied to the induction coil, and an amount of resonance current, which is an amount of current applied to the induction coil.

This is for detecting the resonance voltage of the induction coil, detecting the resonance current flowing in accordance with the operation of the induction coil, and determining the presence or absence of the cooking container based on the detected resonance current.

The control device 30 having the above-described structure controls the induction coil 11a and the plurality of induction coils 11a of the heating plate 10 in accordance with the control command input by the user through the control panel 20 The operation of the induction coil unit 11 is controlled.

The induction automatic power control system using the plurality of coils for automatic detection of the cooking apparatus of the present invention is controlled through a control method as shown in the flow chart of the control method of the induction automatic power control system using the plurality of coils for automatic sensing of the cooking utensil of FIG. , Which will be described below in detail with reference to Fig.

The induction automatic power control system using a plurality of coils for automatic detection of a cooking instrument according to the present invention automatically detects the presence of a cooking device on a heating plate 10 and controls the operation of the induction coil unit 11 And then heated.

To this end, a cooking device detection step (S10) for detecting whether the early mechanism is mounted on the heating plate (10) and a case where the user senses that the cooking appliance is mounted in the step (S10) A step S30 of setting a power amount according to a temperature interval set by the user through a temperature interval checking step S20 set by the user for confirming the set temperature interval inputted and checking the induction coil 11a, A range checking step (S40) is performed.

After the dispensing step S50 of distributing electric power supplied according to the range of the induction coil 11a sensed in the step S40, the cooking appliance heating step S60 for heating the cooking appliance is performed.

In the cooking instrument sensing step S10, an induction current generated in response to a reaction between a metal such as iron contained in the cooking appliance and a magnetic field of the induction coil 11a is sensed to determine whether the cooking appliance is located above the induction coil 11a It will be judged whether or not.

At this time, the induction current is sensed by the electric power sensor 34 provided in the control device 30, and the technique of sensing the change of the electric current through the sensing of the electric energy utilizes the Ohm's law. Therefore, a detailed description thereof will be omitted.

If the cooking device is detected in step S10, the user enters through the control panel 20 and confirms the set temperature range (S20).

This is because the user recognizes the setting value set by the user through the touch slide 21 of the control panel 20 in steps from 0 to 9.

Here, it means that the temperature is set higher as the temperature goes from 0 to 9.

After checking the temperature interval set by the user in step S20, a power amount setting step S30 is performed according to the user set temperature interval.

At this time, the power amount setting step S30 calculates the amount of power corresponding to the temperature in the range of the total amount of power applied to the induction coil unit 11 to confirm the temperature interval set by the user, and supplies the calculated amount to the induction coil unit 11 .

For example, assuming that the total amount of power supplied to one induction coil unit 11 is 3,000 W, if the temperature interval set by the user is set to five levels, which are intermediate levels, And supplies the electric power to the induction coil unit 11.

After the step S30, a step S40 of checking the range of the induction coil 11a in which the object is sensed is performed.

In the step S40 of detecting the range of the induction coil 11a in which the object is sensed, the range of the induction coil 11a is detected by sensing the change amount of the magnetic field of the induction coil 11a. At this time, .

Here, when the change amount of the magnetic field is detected to be small, a small amount of electric power to be supplied is supplied. When the object to be cooked is smaller than the average value of the change in the magnetic field of the induction coil, Thereby preventing energy loss.

The power is distributed in accordance with the range of the induction coil 11a sensed after the step S40. At this time, the power is distributed by the distributor 33 provided in the controller 30, Power is supplied to the individual induction coils 11a provided in the unit 11 to heat the cooking utensil.

At least two induction coils 11a are provided in the induction coil unit 11. The total amount of electric power supplied to one induction coil unit 11 is distributed to each induction coil 11a in a predetermined section. .

For example, when the total amount of electric power supplied to one induction coil unit 11 having four induction coils 11a is 3,000 W and two induction coils 11a among the four induction coils 11a are supplied, When the cooker serving as the object to be heated is located, the electric power of 3,000W is supplied to the two induction coils 11a at 1,500W each.

At this time, when the temperature interval set by the user is the maximum value, the power is divided by 1,500 W, and when the temperature interval set by the user is in the middle level, the intermediate value of the power of 3,000 W is divided into 1,500 W, (See Fig. 4)

After the above-described step S50, the cooking appliance is heated through the cooking appliance heating step S60 for operating the cooking appliance by operating the induction coil 11a to which the electric energy is differentially supplied.

Here, when the turbo button 25 to be used is operated when a strong thermal power is required for cooking food provided in the control panel 20, in addition to the amount of power supplied to the induction coil unit 11, So that more power is supplied.

This makes it possible to uniformly distribute or distribute the amount of power supplied to the induction coil unit 11 to individual induction coils 11a to efficiently heat the cooking apparatus without loss of energy, For selectively heating the cooking utensil by a user.

In addition, the induction according to the present invention can be achieved by providing the induction using the induction automatic power control system using the plurality of coils for automatic sensing of the cooking utensil.

According to this method, an induction automatic power control system using a plurality of coils for automatic sensing of cooking utensils capable of heating a cooking apparatus irrespective of a heating period, which is a problem of a conventional induction range, and an induction using the induction automatic power control system are provided.

10: heating plate 11: induction coil unit
11a: induction coil 20: control panel
21: touch slide 22: power button
23: Timer 24: Warmer
25: Turbo button 30: Control device
31: Central control unit 32: Interlocking unit
33: distributor 34: sensor
35: SMPS 36: Rectifier filter
37: IGBT filter

Claims (7)

An induction automatic power control system using a plurality of coils for automatic detection of cooking utensils,
An induction coil unit (11) in which a plurality of induction coils (11a) are disposed inside is provided with a heat-enhancing cover on its upper surface for heating a cooking utensil. The induction coil unit (11) (10) in which a plurality of induction coils (11a) are simultaneously controlled by an induction coil unit (11) so as to be automatically distributed and supplied to individual induction coils
A control panel 20 provided at one side of the heating plate 10 for setting an operation control of the heating plate 10 by a user and displaying an operation state; And
And a control device (30) for controlling and controlling commands inputted from the control panel (20). The induction automatic power control system using the plurality of coils for automatic sensing of a cooking appliance.
delete The method according to claim 1,
The control panel 20 is provided with a touch slide 21 for controlling temperature as a user's touch and includes a power button 22 for controlling the power source and includes a timer 23 for setting an operation time, And a warmer (24) for maintaining the temperature of the food. The induction automatic power control system using the plurality of coils for automatic sensing of the cooking utensil.
The method of claim 3,
Wherein the control panel (20) further comprises a turbo button (25) used when a strong thermal power is required when food is cooked. The induction automatic power control system using the plurality of coils for automatic sensing of a cooking appliance.
The method according to claim 1,
The control device 30 includes a central control unit 31 for processing control commands such as temperature and time input from the user, a button provided on the control panel 20, A device interlocking portion 32 for operating a temperature sensor, a heat dissipating pen and a buzzer as a voice display means and a distributor 33 for distributing electric power to the induction coil 11a of the heating plate 10, And a sensor 34 for sensing the amount of voltage delivered to the distributor 33 and a switched mode power supply 35 for operating and controlling the sensor 34. The induction coil 11a And an IGBT filter (Insulated Gate Bipolar mode Transistor) 37 for controlling an operation signal of the induction coil 11a. The cooking appliance according to claim 1, Induction automatic power control using multiple coils for automatic detection System.
6. The method according to any one of claims 1 to 5,
The automatic power control system using the plurality of coils for automatic sensing of the cooking utensil includes a cooking instrument sensing step (S10) for sensing whether the preliminary mechanism is mounted on the heating plate
A temperature interval checking step (S20) set by the user for checking the set temperature range inputted by the user through the control panel 20 when the cooking instrument is mounted in step S10;
A step S40 of checking the range of the induction coil 11a in which the object is sensed through the step S30 of setting the amount of electric power according to the temperature interval set by the user,
A control step consisting of a cooking step heating step (S60) for heating the cooking device after a distribution step (S50) of distributing electric power supplied according to the range of the induction coil (11a) sensed in the step (S40) is applied The induction automatic power control system using a plurality of coils for automatic sensing of a cooking instrument.
An induction automatic power control system using the plurality of coils for automatic detection of a cooking instrument according to claim 6.

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