KR20180013399A - Electric cooker capable of detecting over heat state - Google Patents

Abstract

According to the present invention, an electric rice cooker capable of sensing overheated state comprises: a first temperature sensor measuring a temperature of an inner pot; a heating part heating the inner pot; a second temperature sensor measuring an internal temperature of the electric rice cooker; and a control part determining that an arbitrary constituent part making of the electric rice cooker is on the overheated state if an ambient temperature measured by the second temperature sensor gets higher than a specific value compared to a standard temperature measured before conducting a cooking process at an arbitrary point while cooking.

Description

{ELECTRIC COOKER CAPABLE OF DETECTING OVER HEAT STATE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric rice cooker, and more particularly, to an induction heating type electric cooker capable of detecting an overheated state.

The rice cooker is configured to perform the cooking process by heating the inner pot containing the cooking object, which is mainly rice and water, by a heater operated by electric power.

At this time, the heater consumes a large amount of electric power, and particularly generates a high temperature, so that it always has a risk of overheating or fire.

In particular, a large number of electronic parts for operating and controlling the rice cooker may be disposed around the heater. If such electronic parts are exposed to heat by the heater, malfunction may be caused or damaged.

Therefore, a countermeasure for detecting and alarming the overheat or fire situation of the heater is necessary. Further, measures for preventing overheating, malfunction, or damage due to heat due to heat caused by the heater are required.

However, existing rice cookers have no function to detect such overheating or fire situation in advance.

The present invention intends to realize a function of promptly detecting an overheating state of an arbitrary constituent part including a heating part constituting an electromagnetic cooker.

According to an aspect of the present invention, there is provided an electromagnetic rice cooker for heating an inner pot containing an object to be cooked and performing a cooking process, the electromagnetic cooker comprising: a first temperature sensor for measuring a temperature of the inner pot; A heating unit for heating the inner pot; A second temperature sensor for measuring a temperature at a predetermined position in the electromagnetic cooker; A display unit for outputting predetermined audiovisual information; The heating operation of the heating unit is controlled based on the temperature of the inner pot measured by the first temperature sensor to perform the cooking process, and the heating operation is performed by the second temperature sensor at any time during the cooking process Judges that any component constituting the rice cooker is in an overheated state when the temperature of the rice cooker becomes higher than a reference value measured by the second temperature sensor before performing the cooking process, And a control unit for controlling the display unit to audibly alarm.

The heating unit may include an inverter and a working coil for heating the inner pot by an induction heating system using current resonance or voltage resonance, and the control unit controls the heating coil so that the heating coil is in contact with the periphery of the electromagnetic cooker Can be regarded as being due to the induction heating of any member.

The electromagnetic cooker further includes an intake unit for sucking air from the outside of the bottom portion of the electromagnetic cooker to flow into the arbitrary constituent unit for cooling the arbitrary constituent unit, To be influenced by the temperature of the air sucked in by the air.

According to the electromagnetic cooker capable of detecting an overheated state according to the present invention including the above-described configuration, it is possible to promptly detect a situation in which the temperature of the electromagnetic cooker becomes abnormally high in the vicinity of the electromagnetic cooker, .

1 is a block diagram for explaining a configuration of an electromagnetic cooker according to an embodiment of the present invention.
2 is a view showing an example of the arrangement of the second temperature sensor.
3 is a conceptual diagram showing a case where the electromagnetic cooker heats the peripheral member.
4 is a flowchart illustrating a method of detecting an overheated state of an electromagnetic cooker according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an electromagnetic cooker capable of detecting an overheated state according to the present invention will be described with reference to the accompanying drawings. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments of the invention only and is not intended to be limiting.

The electromagnetic cooker 100 includes a first temperature sensor 111 for measuring the temperature of the inner pot 105, a second temperature sensor 111 for measuring the temperature of the inner pot 105, A display unit 130 for outputting predetermined audiovisual information and a display unit 130 for displaying predetermined audiovisual information based on the temperature of the inner pot 105 measured by the first temperature sensor 111 in order to perform a cooking process, And a control unit 150 for controlling the heating operation of the heating unit 120.

In particular, the electromagnetic cooker 100 capable of detecting an overheating state according to an embodiment of the present invention may further include a second temperature sensor 112 for measuring a temperature at an arbitrary position inside the electromagnetic cooker. In particular, the second temperature sensor 112 may be disposed around the circuit elements for implementing the electromagnetic cooker to measure the temperature of air contained in the electromagnetic cooker inner space. May be disposed at a position that is not affected by the heat of the heating unit 120 or the inner pot 105.

The control unit 150 controls the second temperature sensor 112 so that the temperature inside the rice cooker measured by the second temperature sensor 112 is lower than the temperature detected by the second temperature sensor 112 at any time during the cooking process, The control unit 100 judges that any component constituting the electromagnetic cooker 100 is in an overheated state and controls the display unit 130 to audibly audibly judge the determined overheating state can do.

The heating unit 120 performs the heating operation by the power supplied from the power supply unit 125. The heating unit 120 may be a heater that generates heat by electrical resistance. In particular, the heating unit 120 may include a working coil that generates current resonance or voltage resonance when high frequency power is applied by the high frequency switching inverter and generates heat in the inner pot 105 by induction heating.

The induction heating system operates on the principle of self-heating the inner pot 105, which is a ferromagnetic substance, by the electromagnetic waves radiated from the working coil.

On the other hand, the electromagnetic wave can propagate in all directions, not selectively acting on a specific object. Therefore, if there is a ferromagnetic substance within the action range of the electromagnetic wave, there is a possibility that it is inadvertently induced to be heated. The main object of the present invention is to promptly detect occurrence of such a situation and to alert the user.

On the other hand, the first temperature sensor 111 may be disposed on or in contact with the bottom surface or the side surface of the inner pot 105. Or the first temperature sensor 111 may be disposed in a lid that covers the inner pot 105. The temperature value measured by the first temperature sensor 111 arranged in this way can be used to determine the heating state of the inner pot 105 or the heating state of the contents contained in the inner pot 105, The heating operation of the heat exchanger 120 can be controlled.

The second temperature sensor 112 measures the temperature of the electromagnetic cooker internal environment. For example, the second temperature sensor 112 can be disposed close to the circuit module 155 in which the electronic components inside the cooker are disposed, and can measure the temperature around the circuit module. In particular, the circuit module 155 is mostly disposed at the bottom portion of the electromagnetic cooker 100, and the second temperature sensor 112 will also measure the temperature of the inside and / or outside air of the electromagnetic cooker bottom portion.

Alternatively, the second temperature sensor 112 may be arranged and configured to measure the temperature of air flowing from the outside of the electromagnetic cooker 100 to cool the circuit module 155 and other components 2).

The display unit 130 may include visual display means such as an LCD display, a touch screen, and an LED array. It may also include an auditory output means such as a speaker.

When the controller 150 detects that the electromagnetic cooker 100 operates in an abnormal state, that is, in an overheated state, the control unit 150 outputs an alarm sound toward the user and / or visually displays the guidance character or image And controls the operation of the display unit 130.

The intake unit 160 sucks the outside air of the electromagnetic cooker 100 to flow toward the target constituent unit in order to cool the heat of the various constituent parts constituting the electromagnetic cooker 100. The intake unit 160 sucks air from the bottom or back of the rice cooker in order not to hurt the appearance of the rice cooker 100 normally. The intake unit 160 may be simply composed of a motor and a fan.

FIG. 2 is a schematic view showing the arrangement relationship of the respective components of the electromagnetic cooker, in particular, an example in which the second temperature sensor is disposed.

The heating unit 120 may be disposed at a position close to or in close contact with the inner pot 105 of the electromagnetic cooker 100. Particularly, the heating unit 120 can be disposed near the bottom of the inner pot 105 to mainly heat the bottom surface of the inner pot 105.

Also, a circuit module 155 including various electronic components for implementing each functional part of the electromagnetic cooker 100 may be disposed at the bottom of the electromagnetic cooker 100.

The intake unit 160 may be disposed at a rear portion or a bottom portion of the electromagnetic cooker 100 to suck air from the outside or from the outside of the rear surface. It is shown in the figure as being placed at the bottom.

The first temperature sensor 111 is disposed near the bottom surface of the inner pot 105.

The second temperature sensor 112 'may be arranged to be exposed to the outside at any portion of the electromagnetic cooker 100. Alternatively, the second temperature sensor 112 may be arranged to measure the temperature of the air sucked by the intake unit 160.

3 is a conceptual diagram showing a case where the electromagnetic cooker heats the peripheral member. The high frequency electromagnetic wave can be emitted from the working coil provided in the induction heating type electromagnetic cooker 100 and propagated in all directions. This electromagnetic wave is sharply reduced as the distance from the working coil increases. However, if the surface on which the rice cooker is placed or the material that can be induction heated is located on the side or periphery of the rice cooker, induction heating may be weakly performed. And, over time, induction heated heat can accumulate to a considerably high temperature and even cause a fire. Or, the user may touch the heated member to be burnt. Alternatively, the heat generated by the heated member may be transmitted to the electromagnetic cooker 100 again, particularly to the circuit module 155, and the operation of the electronic component disposed in the circuit module 155 may be adversely affected.

4 is a flowchart illustrating a method of detecting an overheated state of an electromagnetic cooker according to another embodiment of the present invention.

First, a cooking process, for example, a cooking process, can be performed in the electromagnetic cooker 100 by a user operating the operating means or by a reserved function (S110).

When the cooking process is started, the controller 150 confirms and stores the temperature measured by the second temperature sensor. At this time, the measured temperature is set to the reference temperature (S120) as the temperature of the electromagnetic cooker inner circuit module or its surroundings before the electromagnetic cooker 100 operates.

Subsequently, the heating unit 120 is operated to perform the cooking process while heating the inner pot 105 (S130). The control unit 150 checks the temperature of the inner pot measured by the first temperature sensor 111 from time to time and controls the heating operation of the heating unit 120 according to a previously stored heating algorithm with reference to the temperature of the inner pot.

On the other hand, the control unit 150 may measure the temperature of the food at a certain point in time and / or at an arbitrary period of time after the cooking process is started and the heating unit 120 is supplied with electric power and starts heating operation The temperature is checked (S140). This temperature is referred to as ambient temperature. Then, a check is made to see how the measured ambient temperature changes relative to the reference temperature (S150).

If it is determined at a certain point of time that the measured ambient temperature is higher than the reference temperature by a predetermined value, for example, 20 DEG C or more, the internal constituent portion of the electromagnetic cooker 100 and / or the outside of the electromagnetic cooker 100 It can be considered that overheating occurs (S160).

The second temperature sensor 112 may be arranged so as not to be affected by the heat generated by the heating operation of the heating unit 120. When a temperature much higher than that before the cooking process is performed in the second temperature sensor 112 is detected This means that at least a part of the internal constituent parts constituting the electromagnetic cooker 100 is overheating. It can be regarded as a situation in which not only the inner pot 105 but also any member outside the rice cooker is heated by the heating unit 120 and the heat is transmitted to the rice cooker again.

In particular, when the electromagnetic cooker 100 is used in the field, it may be placed in a sink or furniture, where the sink or furniture may include a material that can be induction heated. At this time, if the induction heating type electromagnetic cooker 100 is placed on the surface of the material or is close to the wall surface of such a material, the electromagnetic wave radiated from the heating part 120 may inadvertently induce the floor or the wall surface Will be.

2, if the intake unit 160 is disposed at the bottom portion of the electromagnetic cooker 100, heat due to the inhaled air may affect the electromagnetic cooker internal temperature. At this time, by disposing the second temperature sensor 112 at a position where the temperature of the air to be sucked can be influenced, it is possible to detect when the sucked air is in a heated state. This makes it possible to predict, for example, whether the surface on which the rice cooker 100 is placed is being heated by induction heating.

Alternatively, if a pot or a material that can be induction-heated is placed near the periphery of the electromagnetic cooker 100, there is a possibility that the pot or the appliance is induction-heated.

Therefore, by measuring the temperature inside and outside of the rice cooker using the second temperature sensor 112, it is possible to identify a situation in which the periphery of the rice cooker 100 is inadvertently heated by induction heating to raise the internal temperature of the rice cooker It will be possible.

On the other hand, in step S160, the controller 150 may alert the user that the rice cooker is operating in an abnormal state. Particularly, it is necessary to place the electromagnetic cooker 100 on the surface of a material which is not induction-heated, to separate the electromagnetic cooker 100 from the wall surface that can be induction-heated, or to remove the material that can be induction- You may.

If necessary, the control unit 150 may perform a corresponding process in such a manner that the heating operation of the heating unit 120 is reduced or stopped.

If it is determined in the comparison of step S150 that the measured ambient temperature does not become higher than the predetermined temperature by more than a predetermined value, it is considered that the electromagnetic cooker is operating safely and the cooking process can be continued (S170).

According to the present invention, it is possible to detect an overheating situation occurring in a constituent part of an electromagnetic cooker, a situation in which a surface or a structure close to the electromagnetic cooker is inadvertently heated by induction heating, And can be safely used.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the scope of protection of the present invention should be interpreted according to the claims. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the essential characteristics thereof, It is to be understood that the invention is not limited thereto.

Claims (3)

An electric rice cooker for heating an inner pot containing a cooking object to perform a cooking process, comprising:
A first temperature sensor for measuring the temperature of the inner pot;
A heating unit for heating the inner pot;
A second temperature sensor for measuring a temperature at a predetermined position in the electromagnetic cooker;
A display unit for outputting predetermined audiovisual information;
The heating operation of the heating unit is controlled based on the temperature of the inner pot measured by the first temperature sensor to perform the cooking process, and the heating operation is performed by the second temperature sensor at any time during the cooking process Judges that any component constituting the rice cooker is in an overheated state when the temperature of the rice cooker becomes higher than a reference value measured by the second temperature sensor before performing the cooking process, And a control unit for controlling the display unit to audibly alarm the user. The method according to claim 1,
Wherein the heating unit includes an inverter and a working coil for heating the inner pot in an induction heating system using current resonance or voltage resonance,
Wherein the control unit regards the overheated state as being caused by induction heating of a member in the vicinity of the electromagnetic cooker by the working coil. 3. The method of claim 2,
Further comprising an air intake portion for sucking air from the outside of the bottom portion of the electromagnetic cooker and flowing the air into the optional component for cooling the optional component,
Wherein the second temperature sensor is arranged to be influenced by a temperature of air sucked by the intake unit.

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