JP4311178B2 - Induction heating device - Google Patents

Description

  The present invention relates to an induction heating device used in an induction heating cooker or the like.

Conventionally, as a capacitive operation unit mounted on an induction heating device, a capacitor is formed by providing an electrode on a flat panel panel, and the capacitance change of the capacitor caused by a person touching the panel with a finger or the like There is one that converts and detects a change in DC voltage (for example, Patent Document 1).
Japanese Patent Laid-Open No. 61-292932

  However, in the configuration in which the operation unit is provided in the induction heating device, a voltage caused by a leakage magnetic field or an electric field generated by the heating source is generated when induction heating is output. There is a problem of affecting the change of Due to this influence, even if the user operates the operation unit with a finger or the like, a stable voltage change cannot be detected and the operation cannot be detected, or the operation is detected even though the operation unit is not touched. was there.

  In addition, when induction heating is stopped, there is no voltage due to the leakage magnetic field or electric field, so there is a problem that the operation detection means determines that the DC voltage has changed and detects the operation.

  The present invention solves such a conventional problem, solves the problem of the operation unit due to the leakage magnetic field generated by the heating source or the voltage caused by the electric field when induction heating is output, and improves the usability of the user. The purpose is to improve safety.

  In order to achieve the above object, the present invention is configured such that the operation detection means switches the detection level for detecting that the human body has touched the operation unit in accordance with the induction heating output of the heating source.

  Therefore, regardless of the induction heating output of the heating source, the user can adjust the heating operation and induction heating output using the operation unit, and the operation is erroneously detected even though the operation unit is not operated. Can be prevented.

  The induction heating device of the present invention can improve the user's convenience because the user can surely adjust the heating operation and induction heating output using the operation unit even during induction heating output. Yes.

  In addition, the problem that the user erroneously detects the operation while the operation unit is not operated during the induction heating output is solved, so that the safety of the user is improved.

  Furthermore, a material detection unit is provided, and when the heated object detected by the material detection unit is a material having high conductivity, the operation detection unit switches a detection level for detecting that the user touches the operation unit. Thus, the influence of the leakage magnetic field or electric field generated from the heating source that varies depending on the material of the object to be heated can be ignored.

  Therefore, regardless of the material of the object to be heated, the user can adjust the induction heating output using the operation unit, and prevent erroneous operation detection even when the operation unit is not operated. can do.

This onset Ming, an operation portion for operating an insulating plate provided between the induction heating output of the heating source of the heating source for heating induces the body to be heated, the heating source and the object to be heated, the an electrode portion which is disposed in scissor the operation portion and opposed located between the insulating plate, changing the DC voltage of the voltage of the electrode portions that due to the human body touches the operation unit added a high-frequency voltage to the electrode portion Capacitance detecting means for converting the change into a change , and an operation detecting means for detecting that the human body has touched the operation unit by decreasing the output voltage of the capacitance detecting means by a change amount larger than a determination change amount ; , and a control means for controlling energization of the heating source based on the signal input from the operation detection means, said operation detecting means, induction heating induction heating output is given of the heat source which is set by the operation unit wherein said determination change amount when the above output value Heat source the determination change amount during non-operation, or in which induction heating output of the heating source is configured to switch smaller than the determination change amount when less than the predetermined inductive heating power.

Another aspect of the present invention, an operation portion for operating the heat source for heating induces the body to be heated, an insulating plate provided between the heating source and the object to be heated, the induction heating output of the heating source, wherein an electrode portion which is disposed in scissor the operation portion and opposed located between the insulating plate, changing the DC voltage of the voltage of the electrode portions that due to the human body touches the operation unit added a high-frequency voltage to the electrode portion The human body touched the operation of the operation unit because the capacitance detecting means for detecting the capacitance to be converted into the change of the output, and the output voltage of the capacitance detecting means decreased by a change amount larger than the determination change amount . comprising an operation detecting means for detecting that a control means for controlling current applied to the heating source based on the signal input from the operation detecting means, and a material detecting means for detecting the material of the object to be heated, the operation detection means is before detected by said material detecting means When the material is a material having a high conductivity such as aluminum, which is constituted to switch small the determination change amount than when a lower conductivity than aluminum conductivity of.

The operation detecting means, by so determining the variation As the induction heating output increases of the heating source set by the operating unit switches the determination change amount so as to decrease, induction heating output The malfunction of the operation unit due to the voltage caused by the leakage magnetic field or electric field generated by the heating source can be solved.

Further, the operation detection means has an input detection means for detecting an input current from a commercial power supply instead of switching the determination change amount by the induction heating output of the heating source set in the operation unit, and the operation detection means includes: By switching the determination change amount according to the induction heating output of the heating source detected by the input detection means, the voltage caused by the leakage magnetic field or electric field generated by the heating source when the induction heating is output. The trouble of the operation unit due to the can be solved.

Further , instead of switching the determination change amount by the induction heating output set in the operation unit , the operation detection unit includes a current detection unit that detects the magnitude of the high-frequency current flowing through the heating source, and the operation detection unit includes: By switching the determination change amount according to the induction heating output of the heating source detected by the current detection means, a voltage caused by a leakage magnetic field or electric field generated by the heating source when induction heating is output. The trouble of the operation unit due to the can be solved.

Further , instead of switching the determination change amount by the induction heating output set by the operation heating means by the operation heating means, the switching means for converting the DC voltage obtained by rectifying the AC voltage by the rectifier into a high frequency voltage, and the switching means Voltage detection means for detecting a voltage at both ends is provided , and the operation detection means outputs the induction heating by switching the determination change amount according to the induction heating output of the heating source detected by the voltage detection means. The malfunction of the operation unit due to the voltage caused by the leakage magnetic field or electric field generated by the heating source can be solved.

Further, instead of switching the determination change amount operation detecting means by the set induction heating output operation unit, a capacitor voltage detecting means for the heating source to detect the voltage across the resonant capacitor support the inverter is provided to be connected The operation detection unit switches the determination change amount according to the induction heating output of the heating source detected by the capacitor voltage detection unit, so that the heating source is generated when the induction heating is output. It is possible to eliminate the malfunction of the operation unit due to the voltage caused by the leakage magnetic field or electric field.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1
In FIG. 1, a rectifier 2, an inverter circuit 3, and switching means 4 are connected to an AC power source 1 in a subordinate manner. The inverter circuit 3 is connected to a heating source 5 composed of an induction heating coil. The AC voltage supplied from the AC power source 1 is rectified into a DC voltage by the rectifier 2, and the rectified DC voltage is converted into a high frequency AC voltage by the switching means 4 to supply a high frequency current to the heating source 5.

  A body 7 to be heated, such as a load pan, is disposed at a position facing the heating source 5 with the insulating plate 6 interposed therebetween. The heating source 5 supplies a high frequency alternating magnetic field to the heated body 7 to generate an eddy current, and performs induction heating by the Joule heat.

  An operation portion 8 composed of a plurality of touch keys composed of electrodes is provided on the heated plate 7 side of the insulating plate 6. The plurality of electrodes are disposed at positions facing the operation portion 8 with the insulating plate 6 interposed therebetween. Part 9 is installed. The operation unit 8 and the electrode unit 9 form a pair of capacitors, and the capacitance detection means 10 applies a high frequency voltage to the electrode unit 9 and passes through the capacitor formed by the operation unit 8 and the electrode unit 9. The obtained signal is rectified, converted into a DC voltage, and output.

  When the user touches the operation unit 8, the capacitance of the capacitor formed by the operation unit 8 and the electrode unit 9 changes, and the capacitance detection means 10 converts this into a voltage change and outputs it.

  The operation detection unit 11 receives a signal output from the capacitance detection unit 10, detects that the input voltage value is lower than the determination reference value, determines that the operation has been performed, and operates the control unit 12. A signal indicating is output. The determination reference value is a voltage value input when nothing is touching the operation unit 8.

  The input current detection means 13 detects the current flowing from the AC power source 1 to the rectifier 2, the inverter circuit 3, and the switching means 4, and outputs a signal to the control means 12.

  The control means 12 changes the drive cycle or drive time of the switching means 4 so that the input current detection means 13 detects a current corresponding to the heating power set by the operation unit 8, and generates an induction heating output to the heating source 5. Control.

  The material detection unit 14 causes a current to flow through the heated object 7, determines the material based on the flow of resonance current, and outputs a signal to the control unit 12.

  FIG. 2 is a circuit configuration diagram of the capacitance detection means 10. The oscillator 101 generates a rectangular wave having a frequency of about 400 kHz, turns the transistor 101 on and off, and forms a triangular wave at the connection point A between the electrode unit 9 and the capacitor 102. Is generated. The capacitor 104 removes the direct current component of the triangular wave to obtain only the amplitude component, and the diode 104 and the diode 105 extract the positive direction component of the amplitude. The resistor 106, the capacitor 105, the resistor 107, the transistor 102, the resistor 108, and the resistor 109 are extracted. Then, it is converted into direct current by a peak hold circuit (integration circuit) formed by the capacitor 105.

  At this time, the amplitude of the triangular wave generated at point A changes between when the operation unit 8 is not touched and when a person touches it with a finger or the like. The operation is detected by outputting it to the operation detection means 11.

  A plurality of capacitance detecting means 10 are provided corresponding to the plurality of operation units 8 and the electrode unit 9.

  The operation and action of the above configuration will be described.

  When the heating source 5 is not operating or at a low heating output of about 500 W or less, there is almost no influence of the leakage magnetic field due to the induction heating output and the electric field applied to the heating source. ).

  3A, when the finger is not touching the operation unit 8, the output voltage Vo of the capacitance detection means 10 is 3.20V, and the operation detection means 11 holds 3.20V as a determination reference value.

  The operation detecting means 11 determines the operation when it has decreased by 0.34 V or more from the determination reference value 3.20 V and 0.1 second has elapsed. Here, 0.34 V is the determination change amount.

  For example, when a finger touches the operation unit 8, the output voltage Vo of the capacitance detection means 10 decreases to 2.80V. At this time, the determination reference value is 3.20V-2.80V = 0.40V, and the operation is determined because the voltage is lower than the determination change amount of 0.34V.

  When the heating source 5 has a high heating output of 500 W or more, the influence of the leakage magnetic field due to the induction heating output and the electric field applied to the heating source 5 has an influence on the determination reference value of about 0.3 V or more and the determination change amount. The effect is about 0.1V or more. For this reason, the operation cannot be determined based on the determination criterion of FIG.

  Therefore, FIG. 3B shows the operation of the operation detection means 11 when the heating source 5 is at a high heating output of 500 W or more. When the finger is not touching the operation unit at the time of high heating output, the output voltage Vo of the capacitance detection means 10 is 3.60V. At this time, when the input current detection means 13 determines that the current value is at the time of high heating output, the operation detection means 11 switches the determination reference value to 3.60V.

  Furthermore, the operation detection means 11 is switched to the determination of the operation when 0.1 second has elapsed since the determination reference value has dropped by 0.22 V or more from the determination reference value 3.60 V. The determination change amount is 0.22V.

  For example, when a finger touches the operation unit 8 at the time of high heating output, the output voltage Vo of the capacitance detection means 10 decreases to 3.35V. At this time, 3.60V−3.35V = 0.25V, and the voltage is lower than the determination change amount of 0.22V, so the operation is determined.

  When switching from high heating output to low heating output or non-operation, the criterion value is switched to the original 3.20V. As a result, the operation is not detected due to the influence of the output voltage that decreases when the output decreases.

  As shown in FIG. 4, the determination change amount is decreased stepwise depending on the value of the current flowing to the heating source 5 detected by the input current detection unit 13.

  When the material of the object to be heated 7 is a material having high conductivity such as aluminum, the influence of the leakage magnetic field and the electric field applied to the heating source 5 is larger than that of a material having low conductivity.

  Therefore, when the material detecting means 14 detects that the material of the heated body 7 is a material having high conductivity such as aluminum, the operation detecting means 11 further reduces the set determination change amount by 0.01V.

  According to the first embodiment, the operation detection unit 11 changes the operation determination reference value and the determination change amount, so that the leakage magnetic field generated when the heating source 5 is at a high heating output and the electric field applied to the heating source 5 are reduced. Since the trouble of the operation unit 8 caused by the influence can be solved, safety and usability are improved.

  The same effect can be obtained by changing the determination reference value and the determination change amount of the operation detection unit 11 according to the heating level set by the operation unit 8 without using the input current detection unit 13.

  Further, in the first embodiment, the heating source 5, the rectifier 2, the inverter circuit 3, and the switching means 4 are configured as a single unit.

  In addition, although the operation unit 8 is composed of electrodes, since a human hand is a resistor containing an electrolyte such as sweat, a conductor formed of the electrolyte or the like is an electrode without an electrode. Play a role. For this reason, if the output voltage of the electrostatic capacitance detection means 10 is changed by touching the user, the operation unit 8 may not be configured with electrodes.

  Further, when the output voltage Vo decreases due to the influence of the leakage magnetic field and the electric field applied to the heating source 5, the decreased value is set as the determination reference value. When the determination change amount increases, the determination change amount is increased as the value of the current flowing through the heating source 5 increases.

  In FIG. 4, the determination change amount is gradually reduced as the value of the current flowing to the heating source 5 increases. However, the same effect can be obtained even if the change amount is monotonously decreased linearly or curvedly.

  Moreover, the material detection method of the material detection means 14 may detect a material by methods other than the method of detecting a material by the way of the resonance current flow.

(Example 2)
5, the configuration uses the current detection means 15 instead of the input current detection means 13 in FIG. 1, detects the current value flowing through the heating source 5, and changes the determination reference value and the determination change amount of the operation detection means 11. Like to do.

  Since the operation and action are the same as those in the first embodiment, a description thereof will be omitted.

  According to the second embodiment, since the current value at a position closer to the heating source 5 can be detected, the determination reference value and the determination change amount of the operation detection unit 11 can be changed more accurately than when the input current detection unit 13 is used. Can do.

(Example 3)
6, the configuration uses the voltage detection means 16 instead of the input current detection means 13 in FIG. 1, detects the voltage across the switching means 4, and changes the determination reference value and the determination change amount of the operation detection means 11. I am doing so.

  Since the operation and action are the same as those in the first embodiment, a description thereof will be omitted.

  According to the third embodiment, since the voltage value corresponding to the induction heating output of the heating source 5 can be detected, the determination reference value and the determination change amount of the operation detection unit 11 can be more accurately set than when the input current detection unit 13 is used. Can change.

(Example 4)
7, the configuration uses the capacitor voltage detection means 17 instead of the input current detection means 13 in FIG. 1, detects the voltage across the resonant capacitor 3a, and changes the determination reference value and the determination change amount of the operation detection means 11. I am doing so.

  Since the operation and action are the same as those in the first embodiment, a description thereof will be omitted.

  According to the second embodiment, since the voltage value corresponding to the induction heating output of the heating source 5 can be detected, the determination reference value and the determination change amount of the operation detection unit 11 can be more accurately determined than when the input current detection unit 13 is used. Can change.

  As described above, the induction heating device of the present invention can be adjusted conveniently and safely regardless of the size of the induction heating output when the user adjusts the induction heating output. It can also be applied to uses such as induction heating cookers, induction heating rice cookers, industrial induction heating equipment, water heaters applicable to induction heating, electric irons, dishwashers, washing dryers, and water heaters.

The circuit block diagram of the induction heating apparatus in Example 1 of this invention The circuit block diagram of the electrostatic capacitance detection means of the induction heating apparatus in Example 1 of this invention (A) Operation diagram of the operation determination means when the heating output of the induction heating device in the first embodiment of the present invention is not operating or low output (b) Operation diagram of the operation determination means when the heating output is high output Operational diagram of determination change amount of induction heating device in Embodiment 1 of the present invention The circuit block diagram of the induction heating apparatus in Example 2 of this invention The circuit block diagram of the induction heating apparatus in Example 3 of this invention The circuit block diagram of the induction heating apparatus in Example 4 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 5 Heating source 6 Insulating plate 7 To-be-heated body 8 Operation part 10 Capacitance detection means 11 Operation detection means 12 Control means 13 Input current detection means 14 Material detection means 15 Current detection means 16 Voltage detection means 17 Capacitor voltage detection means

Claims (7)

A heating source for inductively heating the heated body, an insulating plate provided between the heated body and the heating source, an operation unit for operating an induction heating output of the heating source, and the insulating plate converting an electrode portion which is disposed in scissor the operating portion opposed to the position, the change in the voltage of the electrode portions that by the touching the human body on the operation unit added a high-frequency voltage to the change of the DC voltage to the electrode portion Capacitance detection means, operation detection means for detecting that a human body has touched the operation unit when the output voltage of the capacitance detection means decreases by a change amount larger than a determination change amount, and the operation detection means and control means for controlling energization of the heating source based on the signal inputted from the operation detecting means, the induction heating output of the heating source set by the operation unit when the above predetermined induction heating power the determination variation the heating source non The determination change amount during work, or the heating source the determination change amount induction heating device configured to switch smaller than the induction heating output when less than the predetermined inductive heating power of. A heating source for inductively heating the heated body, an insulating plate provided between the heated body and the heating source, an operation unit for operating an induction heating output of the heating source, and the insulating plate converting an electrode portion which is disposed in scissor the operating portion opposed to the position, the change in the voltage of the electrode portions that by the touching the human body on the operation unit added a high-frequency voltage to the change of the DC voltage to the electrode portion Capacitance detection means, operation detection means for detecting that a human body has touched the operation unit when the output voltage of the capacitance detection means decreases by a change amount larger than a determination change amount, and the operation detection means Control means for controlling energization of the heating source based on a signal input from the apparatus , and material detection means for detecting the material of the object to be heated, wherein the operation detection means detects that the material detected by the material detection means is aluminum. high conductivity, such as When a material having the said determined amount of change smaller switches configured induction heating device as compared to when a material having a lower conductivity than aluminum conductivity of. Operation detection means, the induction heating device of claim 1, determining the variation As the induction heating output increases of the heating source set by the operation unit is configured to switch the determination change amount so as to decrease . The operation detection means switches the determination change amount by the induction heating output of the heating source set in the operation unit.
Instead, an input detection unit that detects an input current from a commercial power source is provided , and the operation detection unit is configured to switch the determination change amount by an induction heating output of the heating source detected by the input detection unit. The induction heating apparatus according to claim 1 or 3 . Instead of switching the determination change amount by the induction heating output set by the operation unit, the operation detection unit includes a current detection unit that detects the magnitude of the high-frequency current flowing through the heating source, and the operation detection unit includes the current induction heating apparatus according to claim 1 or 3 configured to switch the determination change amount by induction heating output of the heating source detected to the detecting means. Voltage detection that detects the voltage at both ends of the switching means for converting the DC voltage obtained by rectifying the AC voltage into a high-frequency voltage instead of switching the judgment change amount by the induction heating output set by the operation unit. comprising means, operation detection means, the induction heating apparatus according to claim 1 or 3 configured to switch the determination change amount by induction heating output of the heat source detection to the voltage detecting means. Instead of operation detection means switches the determination change amount by the set induction heating output operation unit, a capacitor voltage detecting means for the heating source to detect the voltage across the resonant capacitor to the inverter is provided to be connected, the The induction heating apparatus according to claim 1 or 3 , wherein the operation detection unit is configured to switch the determination change amount by an induction heating output of the heating source detected by the capacitor voltage detection unit.

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