KR960004836B1 - Electromagnetic cooking apparatus - Google Patents

Abstract

No content.

Description

Electronic cooker

1 is a circuit diagram showing a first embodiment of an electronic cooker according to the present invention.

FIG. 2 is a characteristic diagram showing the relationship between ON time and input current for each load in the first embodiment. FIG.

3 is a characteristic diagram showing the relationship between the ON time for each load and the inverter current in the first embodiment.

4 is a diagram for explaining a load detection operation when the ON time is set to less than the discrimination ON time in the first embodiment.

5 is a circuit diagram showing a second embodiment of the present invention.

6 is a characteristic diagram showing the relationship between ON time and resonant capacitor voltage for each load in the second embodiment.

7 is a view for explaining a load detection operation when the ON time is set to less than the discrimination ON time in the second embodiment.

8 is a circuit diagram showing a third embodiment of the present invention.

9 is a characteristic diagram showing the relationship between the ON time for each load and the period in which the inverter current flows in the third embodiment.

Fig. 10 is a waveform diagram showing a change in a period in which an interverber current flows for each load in the third embodiment.

FIG. 11 is a diagram for explaining a load detection operation when the ON time is set to less than the discrimination ON time in the third embodiment. FIG.

12 is a circuit diagram showing a fourth embodiment of the present invention.

FIG. 13 is a diagram for explaining a load detection operation when the ON time is set to less than the discrimination ON time in the fourth embodiment.

14 is a circuit diagram showing a fifth embodiment of the present invention.

FIG. 15 is a characteristic diagram showing a relationship between an input current and a resonant capacitor voltage for each load in the fifth embodiment. FIG.

FIG. 16 is a diagram for explaining a load detection operation when the input current is set below the discriminative input current in the fifth embodiment.

17 is a circuit diagram showing a sixth embodiment of the present invention.

FIG. 18 is a characteristic diagram showing a relationship between an input current and an inverter current for each load in the sixth embodiment. FIG.

19 is a diagram for explaining a load detection operation when the input current is set to less than the discrimination input current in the sixth embodiment.

20 is a circuit diagram of a conventional electronic cooker.

21 is a characteristic diagram showing the relationship between the ON time and the input current for each load in the conventional example.

Fig. 22 is a characteristic diagram showing a relationship between an ON time and an inverter current for each load in the conventional example.

* Explanation of symbols for main parts of the drawings

1: AC power 4: DC power

5, 6: switching element 9: heating coil

13: Input setting part 14: ON time setting part

19, 34: inverter current detector 21: input current detector

23: discrimination ON time regulation 24: comparison

25: ON time change part 27, 30, 33, 36, 40, 42: control circuit

28: resonance capacitor voltage detection unit 31: inverter current period detection unit

37: Discriminant input current regulation

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic cooker of an inverter type, and more particularly to an electronic cooker having a detecting means for detecting an unloading state and an unloading load such as an aluminum pan.

Electronic cookers are safe, heat-efficient, and do not use fire, and are rapidly being used for home general use or business use. In such an electronic cooker, depending on the material of the cooking utensil used, it may not be determined as a load, and use is restricted. The non-inadequate load detection means is indispensable because there is a possibility that the electronic cooking with the cooking utensil with an inadequate load may damage the component parts inside the electronic cooker.

As an unsuitable detection method in the conventional electronic cooker, for example, a method of detecting an unsuitable load by comparing the ON time of the switching element and the input current or the ON time of the switching element and the inverter current is used.

20 shows a circuit configuration of a conventional electronic cooker having such a detection method. In the same figure, the DC power supply 4 is comprised as the AC in the AC power supply 1 is rectified by the full-wave rectifier 2 and smoothed by the smoothing capacitor 3. Two switching elements (5) (6) are connected in series between the two output terminals of the DC power supply (4) and diodes (7) (8) connected in parallel in opposite directions to the respective switching elements (5) (6). And a half coil type inverter circuit are composed of a heating coil 9 connected to a connection point of two switching elements 5 and 6 and a resonant capacitor 10 and 11 connected to a heating coil 9. &Quot; 22 " is a control circuit for controlling two switching elements 5 and 6, and an oscillator 15, an input setting unit 13 for setting an input, and two switching elements 5 and 6 by input setting. An ON time setting unit 14 for setting an ON time of the drive unit, a driving unit 12 for alternately transmitting a driving pulse having an ON time set by the ON time setting unit 14 to the two switching elements 5 and 6, Inverter circuit detected by input current detector 21 and current transformer 18 for outputting a voltage Vin corresponding to the input current from AC power supply 1 detected by current transformer 20 for non-qualified load detection. Inverter current detection unit 19 for outputting a voltage Vinv corresponding to the inverter current flowing in heating coil 9, and voltages Von and Vin corresponding to the ON time output from ON time setting unit 14. And a comparison section 17 for comparing (Vinv) and a heating stop section 16 which sends a heating stop command to the ON time setting section 14.

Referring to the operation of the conventional half-bridge inverter type electronic cooker constructed as described above, the heating coil of the inverter circuit is alternately turned on and off by two switching elements 5 and 6 with respect to the DC power source 4. (9) A high frequency current, that is, an inverter current, is supplied to the resonant capacitors 10 and 11 to heat the load close to the heating coil 9. At this time, the control circuit 22 sets the ON time to the ON time setting unit 14 from the oscillation signal of the constant frequency oscillated by the oscillation unit 15 and the input setting signal of the input setting unit 13, and then is driven by the driving unit 12. Drive pulses of a constant frequency having a set ON time are alternately sent out to the two switching elements 5 and 6. The input changes as the ON time of the switching elements 5, 6 is changed, and when the ON time is increased, the input increases. The half-bridge inverter type electronic cooker can change the input continuously from zero because the switching frequency is constant and the input is changed by changing the ON time. In addition, even when two or more electronic cookers are driven in close proximity and simultaneously driven, they do not generate an unpleasant interference sound and have a great effect on the multi-division of the electronic cookers.

However, the conventional half-bridge inverter type electronic cooker has the following problems in the detection means under ineligibility. That is, Fig. 21 shows the relationship between the ON time and the input current from the AC power supply 1 under appropriate and inadequate loads. As can be seen from FIG. 21, there is a difference in characteristics in the case of using a proper load, an aluminum pan, and no load, and due to the load determination line shown in FIG. 21, no load can be clearly distinguished. FIG. 22 shows the relationship between ON time and inverter current with respect to proper and unsuitable loads. In comparison with the case of proper load and no load, the inverter current is larger when the aluminum pan is used. It is possible to accurately distinguish aluminum pots that are not suitable. The output Vin of the input current detection unit 21 and the output Vin of the ON time setting unit 14 or the output Vin of the inverter current detection unit 19 and the ON time setting unit 14 of FIG. This is realized by comparing the output Von with the comparator 17.

If it is determined that the load is inadequate here, the heating stop section 16 sends a heating stop command to the ON time setting section 14 to stop the heating. If it is judged that it is an aluminum pan, it also informs the user, "This pot cannot be heated."

However, it is difficult to distinguish between no-load and any case at any ON time, e.g., below t1 in FIG. 21, and it is difficult to distinguish between input current characteristics, and in case of t2 or below in FIG. Because of the proximity of the current characteristics, it is difficult to clearly distinguish and there is a fear that the proper load will be wrongly determined even under inadequate government. This is linked to the user's claim that the input remains in place even without load, or that the component parts are damaged. Therefore, in the half-bridge inverter type electronic cooker having a conventional unloading detection (including no-load detection) system, heating is not performed under ON time in which unloading detection is difficult. In other words, the lower limit of the input is limited, and heating can not be performed at the inputs below it. For this reason, when cooking slowly and lightly on low heat, and keeping the load on a weak input, it is necessary to fix the ON time where non-loading detection is possible, and to perform intermittent operation such that the input is set to the fixed ON time in time. The electronic cooker of the half bridge type inverter type which can continuously heat low heat and keep the user satisfied has not been realized.

As described above, in the non-loading detection method of the conventional half-bridge inverter type electronic cooker, the input variable range must be limited in order to reliably detect the unloading load, and continuous weak fire heating and warming are satisfied to the user. An object of the present invention is to provide an electronic cooker capable of.

In order to solve the above problems, the present invention includes a switching element, a heating coil, and a resonant capacitor. First, as the switching element is periodically turned on and off, a DC voltage is converted into high frequency and supplied to the heating coil to heat the load. In an electronic cooker having an inverter circuit and an ON time setting unit for setting the ON time of the switching element due to a setting input, and having a control circuit for driving the switching element with the ON time set by the ON time setting unit, Discrimination ON time regulation that specifies and stores the minimum ON time (discrimination ON time) of the switching element required for detection under government, discriminant ON time prescribed by the discrimination ON time regulation, and ON time set by the ON time setting section. If the ON time set by the comparison result comparing the comparison unit and the comparison unit is less than the discrimination ON time, Increases until the ON time or more to determine the ON time subjected to a non-appropriate load detecting between predetermined period of time by changing the ON time to go back to the original set of ON time and a base having portions.

Secondly, it includes a rectifier circuit for rectifying AC in AC power, a switching element, a heating coil, and a resonant capacitor. The DC voltage output of the rectifying circuit is converted to high frequency as the switching element is periodically turned on and off. An inverter circuit for supplying a heating coil to heat the load and an ON time setting unit for setting the ON time of the switching element due to a setting input, and a control circuit for driving the switching element with the ON time set by the ON time setting unit. An electronic cooker comprising: an input current detector for detecting an input current from the AC power supply, and a discrimination input current regulation for defining the minimum input current (discrimination input current) required for detection under ineligibility and a corresponding discrimination input current Comparison comparing the discrimination input current specified by the specification section with the deposition current detected by the input current detection section When the set input current is less than the discrimination input current according to the comparison result of the corresponding comparison section, the ON time of the switching element is increased until the corresponding input current becomes greater than the discrimination input current at a predetermined period to detect the non-optimal check between the predetermined time periods. It is a summary of the present invention to have an ON time changing section for returning to the originally set ON time.

In the above configuration, first, the minimum discrimination ON time required for detection under non-information is specified, and when the ON time is less than the discrimination ON time, the ON time is increased until a certain ON time becomes longer than the discrimination ON time and is inconsistent between predetermined times. The following detection is carried out.

After the non-corrective detection operation, the ON time returns to the originally set ON time. This enables reliable detection under ineligibility without limiting the setting input range.

Secondly, the minimum discriminant input current required for detection under ineligibility is specified, and if the input current is less than the discriminant input current, the ON time is increased until the input current becomes higher than the discriminant input current at regular intervals, and the non-negative Detection is carried out. After the non-corrective detection operation, the ON time returns to the originally set ON time. As a result, as described above, it is possible to reliably detect the non-correction without limiting the setting range.

An embodiment of the present invention will be described below based on the drawings.

1 to 4 are diagrams showing a first embodiment of the present invention. In addition, in the figure which shows FIG. 1 and each Example mentioned later, the thing which is the same as or equivalent to the apparatus, circuit element, etc. in FIG. 20 is represented with the same code | symbol as the above, and the overlapping description is abbreviate | omitted.

In this embodiment, as shown in FIG. 1, the discrimination ON time regulation section 23 which defines and stores the minimum ON time (discrimination ON time) of the switching element required for detection under ineligibility in the control circuit 27, The comparison unit 24 for comparing the discrimination ON time defined by this discrimination ON time regulation unit 23 with the ON time set by the ON time setting unit 14, and the ON time set by the comparison result of the comparison unit 24. If this time is less than the discrimination ON time, the ON time changer 25 increases the ON time at a predetermined period until it becomes more than the discrimination ON time, performs non-fitting detection for a predetermined time, and returns to the originally set ON time. It is provided.

Next, the operation of the electronic cooker constructed as described above will be described. FIG. 2 and FIG. 3 show that the relation between ON time and input current and the ON time and inverter current are determined in advance by varying a variety of suitable loads, unsuitable aluminum pots, no load and load. The load determination lines fin (Von) and finv (Von) as shown in each of the transfer planes can be used to detect an unsuitable aluminum pot or no load, as described in the prior art. The lower limit of the ON time possible is set. Therefore, in the present embodiment, the ON time of the lower limit that can be detected with non-correction lowering, that is, the discrimination ON time Tond, is determined by the discrimination ON time regulation 23 in both the relationship between the ON time and the input current and the relationship between the ON time and the inverter current. It is remembered by definition. The ON time and the discrimination ON time set by the input setting are determined by the comparison section 24, and when the ON time output Von <determined ON time output Vond, as shown in FIG. 4 (a). The ON time changer 25 temporarily increases the ON time until it becomes the discriminated ON time and makes a comparison in the comparison unit 26 using a load determination line fin (Von) preset between the predetermined time T ₂ . Prosecution under government. In this case, if the period T ₁ is made larger than (ON time increase / decrease time + T ₂ ), the input can be seen as constant. In the case of the input current detection, as shown in FIG. 4 (b), the load detection detects an appropriate load if the output Vin of the input current detection unit 21 is greater than or equal to the load determination value fin (Vond) and no load if less than that. do. In the case of the inverter current, as shown in FIG. 4 (c), if the output Vinv of the inverter current detection unit 19 is equal to or greater than the load determination value finv (Vond), an aluminum pot is detected. . If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14, and stops heating. The comparator 26 is capable of performing the ON time when the ON time is equal to or greater than the discriminative ON time output. The comparator 26 continuously performs unsuitable detection when the set ON time is greater than the discriminative ON time output. By the above operation, it is possible to reliably detect the unsuitable drop in any setting input.

5 to 7 show a second embodiment of the present invention. In this embodiment, as shown in FIG. 5, the voltages Von and Vin corresponding to the ON time output from the resonance capacitor voltage detection unit 28 and the ON time setting unit 14 of the inverter circuit to the control circuit 30 are shown in FIG. ) And a comparison unit 29 for comparing (Vc) is provided.

Next, the operation of the electronic cooker according to the present embodiment will be described. Various kinds of aluminum pots with appropriate loads and unsuitable loads can be detected, and both aluminum pots and no loads can be detected by using the relationship between the input current and the ON time of FIG. 2 as described above. The lower limit of the possible ON time is limited. Therefore, in the present embodiment, the ON time of the lower limit that can be detected with non-corrective lowering, i.e., the discrimination ON time Tond, is determined in the relationship between the ON time and the input current and the relationship between the ON time and the resonance capacitor voltage. It is prescribed. When the ON time is set to less than the discrimination ON time by the input setting, i.e., when the ON time output Von <determination ON time output Vond, this is detected by the comparator 24 and shown in FIG. 7 (a). As described above, the ON time is increased by the ON time changer 25 until it becomes the discriminated ON time, and the comparator 29 detects an unsuitable load between the predetermined time T ₂ . In the case of the input current detection, as shown in FIG. 7 (b), the load detection detects an appropriate load if the output Vin of the input current detection unit 21 is equal to or greater than the load determination value fin (Vond), and no load if it is less than that. do. In case of the resonant capacitor voltage, as shown in FIG. 7 (c), if the output Vc of the resonant capacitor voltage detection unit 28 is equal to or greater than the load determination value fc (Vond), it is appropriate to load an aluminum pot. Detect. In case of the resonant capacitor voltage, as shown in FIG. 7 (c), if the output Vc of the resonant capacitor voltage detection unit 28 is equal to or greater than the load determination value fc (Vond), it is appropriate to load an aluminum pot. Detect. If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14, and stops heating. In addition, the comparing unit 29 functions when the ON time becomes equal to or greater than the discrimination ON time output, and performs non-fitting detection continuously when the set ON time is greater than or equal to the discriminating ON time output.

By the above operation, it is possible to reliably detect the unsuitable drop in any setting input. In the present embodiment, one current transformer is reduced by one resonant capacitor voltage as the inverter current, and the present embodiment can be configured at a low price with respect to the first embodiment.

8 to 11 show a third embodiment of the present invention. In the present embodiment, as shown in FIG. 8, the inverter current outputting the voltage Vinv.t corresponding to the period of the inverter current detected by the current transformer 18 for non-loading detection to the control circuit 33. In the ON time output from the period current detection unit 31, the resonance capacitor voltage detection unit 28 and the ON time setting unit 14, which output a voltage Vc corresponding to the voltage generated in the resonance capacitor 11 of the inverter circuit. A comparator 32 for comparing the corresponding voltages Von with Vinv.t and Vc is provided.

Next, the operation of the electronic cooker according to the present embodiment will be described. In Fig. 9, the relationship between the flow duration of the inverter current and the ON time was obtained by changing the various kinds of appropriate loads, unsuitable aluminum pots, no loads, and loads. As shown in FIG. 10, the period of inverter current flowing (tinv.t) is the time until the inverter current flows when the switching element is turned on and off at the ON time (ton) until it becomes 0 after the switching element is turned on. to be. With this relationship, the load determination line finv.t (Von) as shown in FIG. 9 can be provided to detect no load which is ineligible, and also use the relationship between the resonance capacitor voltage and the ON time of FIG. The lower surface can detect both an aluminum pan and no load, but the lower limit of the ON time that can be reliably detected as described in the prior art is limited. Therefore, in the present embodiment, the ON time of the lower limit that can be detected with non-integrated drop, that is, the discrimination ON time (Tond), is determined in the relationship between the ON time and the inverter current period and the relationship between the ON time and the resonance capacitor voltage. It is prescribed by). When the ON time is set to less than the discrimination ON time by the input setting, i.e., when the ON time output Von <discrimination ON time output Vond, this is detected by the comparator 24 and shown in FIG. 11 (a). In the same manner, the ON time is increased by the ON time changer 25 until the discrimination ON time is reached, and the comparator 32 detects an unsuitable load between the predetermined time periods T ₂ . When the load detection is caused by the resonance capacitor voltage, as shown in FIG. 11 (b), if the output Vc of the resonance capacitor voltage detection unit 28 is equal to or greater than the load determination value fc (Vond), the aluminum pot is smaller. Detect the government. In the case of the inverter current period, as shown in FIG. 11 (c), if the output Vinv.t of the inverter current period detection unit 31 is equal to or greater than the load determination value finv.t (Vond), no load, and less than that. Detect proper load.

If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14 and stops heating. In addition, the comparing unit 32 functions when the ON time is equal to or higher than the ON time output, and performs non-loading detection continuously when the set ON time is equal to or greater than the discriminative ON time output. By the above operation, it is possible to reliably detect the unsuitable drop in any setting input. In this embodiment, the current transformer for detection is completed in one, and it can be configured at a low price with respect to the first embodiment.

12 and 13 show a fourth embodiment of the present invention. In the present embodiment, as shown in FIG. 12, the inverter current outputting the voltage Vinv.t corresponding to the flow period of the inverter current detected by the current transformer 18 for non-loading detection to the control circuit 36. FIG. The period current detection unit 31, the inverter current detection unit 34 for outputting the voltage Vinv corresponding to the inverter current detected by the same current transformer 18, and the ON time output from the ON time setting unit 14 A comparison unit 35 for comparing the voltages Von with (Vinv.t) and (Vinv) is provided.

Next, the operation of the electronic cooker according to the present embodiment will be described. In this embodiment, both the aluminum pot and the no load are detected by using the relationship between the inverter current and the ON time of FIG. 3 and the relationship between the duration and ON time of the inverter current of FIG. 9, as described in the prior art. The lower limit of the ON time that can be detected is limited. Therefore, in the present embodiment, the lower limit ON time, that is, the discrimination ON time Tond, that can be detected with non-integral drop in both the relationship between the ON time and the inverter current, and the relationship between the ON time and the inverter current flowing period is determined ON time regulation 23 It is prescribed by). When the ON time is set to less than the discrimination ON time by the input setting, i.e., when the ON time output Von <the discrimination ON time output Vond, this is detected by the comparator 24 and shown in FIG. 13 (a). As described above, the ON time is changed by the ON time changer 25 until the ON time becomes the discriminating ON time, and the comparator 35 detects an unsuitable load between predetermined times T ₂ . When the load detection is caused by the inverter current, as shown in FIG. 13 (b), if the output Vinv of the inverter current detection unit 34 is equal to or greater than the load determination value finv (Vond), the load is appropriate. Detect. In the case of the inverter current period, as shown in Fig. 13 (c), if the output of the inverter current period detection unit 31 (Vinv.t) is greater than or equal to the load determination value finv.t (Von), no load is applied. Detect the government.

If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14 and stops heating. In addition, the comparison unit 35 functions when the ON time becomes equal to or greater than the discrimination ON time output, and continuously detects the unsuitable unloading when the set ON time is greater than or equal to the discrimination ON time output. By the above operation, it is possible to reliably detect the unsuitable drop in any setting input. In this embodiment, two current characteristics can be detected with one current transformer for detecting, that is, the period in which the inverter current and the inverter current flow, and there is no high voltage part detection such as the resonance capacitor voltage. It can be constructed safely and at low cost.

14 to 16 show a fifth embodiment of the present invention. In the present embodiment, as shown in FIG. 14, the input current detection unit 21 for outputting a voltage Vin corresponding to the input current detected by the current transformer 20 for non-loading detection to the control circuit 40, A resonant capacitor voltage detector 28 for outputting a voltage Vc corresponding to the voltage generated in the resonant capacitor 11 of the inverter circuit, a comparator 39 for comparing Vin and Vc, and a discrimination input current Iind are specified. A discrimination input current regulator 37 is provided.

Next, the operation of the electronic cooker according to the present embodiment will be described. Fig. 15 shows the relationship between the input current and the resonant capacitor voltage by varying the appropriate load, the aluminum pot, the no load, and the load, which are not appropriate loads. As the load determination line (fc (Vin)) shows this relationship as shown in the figure, an unsuitable load aluminum pan can detect no load, but the lower limit of the input current that can be reliably detected as shown in the drawing is limited. do. Thus, in the present embodiment, the lower limit of the input current, i.e., the discrimination input current Iind, which can be detected by the unsuitable lower limit in the relation between the input current and the resonance capacitor voltage, is defined as the discrimination input current regulation 37. When the input current is less than the discrimination threshold current during the heating operation, i.e., when the input current detector 21 output Vin <discrimination input current output Vin, it is detected by the comparator 38, and the 16th (a) is also detected. As shown in the figure, the ON time changing section 25 increases the input current until it becomes the discriminating input current, and the comparator 39 detects the unsuitable under certain period T ₂ . As shown in FIG. 16 (b), the load detection detects that the output Vc of the resonant capacitor voltage detection unit 28 is equal to or greater than the load determination value fc (Vind), but is unloaded, and if it is less than that, the appropriate load is detected. . If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14, and stops heating. In addition, the comparator 39 functions when the input current becomes equal to or greater than the discriminative input current, and performs non-loading detection continuously when the input current is greater than or equal to the discriminative input current. By the above operation, it is possible to reliably detect the unsuitable drop in any setting input. In this embodiment, the combination of detection for detection is completed in one piece, and can be configured at a lower price with respect to the first to fourth embodiments.

17 to 19 show a sixth embodiment of the present invention. In the present embodiment, as shown in FIG. 17, the input current detector 21 for outputting a voltage Vin corresponding to the input current detected by the current transformer 20 for non-loading detection to the control circuit 42, Inverter current detector 21 outputs a voltage Vinv corresponding to the inverter current detected by the current transformer 18, and inverter current detector outputs a voltage Vinv corresponding to the inverter current detected by the current transformer 18. (34), a comparator 41 for comparing Vin and Vinv, and a discrimination input current regulator 37 for defining discrimination input current Iind.

Next, the operation of the electronic cooker according to the present embodiment will be described. Fig. 18 shows the relationship between the input current and the inverter current by varying the appropriate loads, aluminum pots with no fixed loads, and no loads and loads. As a result, as shown in the figure, by installing a load judgment line (fin), an unsuitable aluminum pot or no load can be detected. As shown in the drawing, the lower limit of the input current that can be reliably detected is limited. In this embodiment, therefore, the lower limit of the input current, i.e., the discrimination input current Iind, which can be detected by the unsuitable lower limit in the relation between the input current and the resonance capacitor voltage, is defined by the discrimination input current regulation 37. As shown in FIG. When the input current is less than the discrimination input current during the heating operation, that is, when the output Vin <discrimination input current and output Vin of the input current detection unit 21, this is detected by the comparator 38 and the 19th (a As shown in the figure, the ON time changer 25 increases until the input current discrimination input current is reached, and the comparator 39 detects an unsuitable load between the determination times T ₂ . As shown in FIG. 19 (v), the load detection detects that the output of the inverter current detection unit 34 Vinv is greater than or equal to the load determination value finv (Vin), but no load, and if it is less than that, the appropriate load. If the proper load is determined here, the process returns to the set ON time and repeats the same operation after a predetermined period (T ₁ ). If it is judged to be inadequate, the heating stop section 16 sends a command of heating stop to the ON time setting section 14, and stops heating. In addition, the comparing unit 41 functions when the input current becomes equal to or greater than the discriminative input current, and performs non-appropriate detection continuously when the input current is equal to or greater than the discriminative input current. By the above operation, it is possible to reliably detect the unsuitable drop in any setting input. This embodiment also has the same combination of detection for detection as in the fifth embodiment, and can be configured at a lower price with respect to the first to fourth embodiments.

In each of the embodiments described above, the same effect and effect are generated even when the resonant capacitor of the inverter circuit is connected only to the high voltage side or only the low voltage side of the DC power supply 4.

As described above, according to the present invention, first, the minimum discrimination ON time required for detection under ineligibility is defined, and when the ON time is less than the discrimination ON time, the ON time is increased at a predetermined period until the discrimination ON time is equal to or greater than a predetermined time period. Since the non-loading detection was carried out in order to return to the set ON time, it is possible to reliably detect the non-loading load such as no-load aluminum pot without limiting the input variable range, and continuously weak heating and warming to satisfy the user. It becomes possible to carry out.

Second, the minimum discriminative input current required for detection under ineligible conditions is specified, and if the input current is less than the discriminative input current, the ON time is increased until the input current becomes greater than the discriminative input current at a predetermined period, and the non-incorrect Since the detection is carried out to return to the original ON time, it is possible to reliably detect non-loading load such as no load without limiting the input variable range and to perform continuous weak fire heating and warming that satisfies the user as described above. It becomes possible.

Claims (2)

It is composed of a switching element, a heating coil and a resonant capacitor, and based on an inverter circuit and a setting input for converting a DC voltage into a high frequency and supplying the heating coil to heat the load as the switching element is periodically turned on and off. An electronic cooker having an ON time setting unit for setting the ON time of the switching element and having a control circuit for driving the switching element with the ON time set by the ON time setting unit, wherein the minimum switching required for detection under ineligibility When the ON time set according to the comparison result of the comparison unit comparing the ON time set by the discrimination ON time regulation and specifying and storing the ON time (discrimination ON time) of the device is determined for each period, The ON time is increased until it is equal to or longer than the discriminating ON time, and non-correction detection is carried out within a certain time period. Electromagnetic cooker, characterized in that having to change the ON time to go back to a specified ON time portion. And a rectifying circuit for rectifying alternating current in an AC power source, a switching element, a heating coil, and a resonant capacitor. The switching element is periodically turned on and off, thereby converting the DC voltage output of the rectifying circuit into a high frequency to heat it. An inverter circuit for supplying a coil to heat the load, and an ON time setting unit for setting the ON time of the switching element based on a setting input, and driving the switching element with the ON time set by the ON time setting unit. An electronic cooker having a control circuit, comprising: an input current detector for detecting an input current from the AC power supply; and a discrimination input current regulation for defining and storing a minimum of the input current (discrimination input current) required for detection under ineligibility. And comparing the discriminating input current specified by the discriminating input current regulation with the input current detected by the input current detecting unit. When the input current set by the comparison result of the comparison unit is less than the discrimination input current, increases the ON time of the switching element until the corresponding input current is equal to or greater than the discrimination input current at a predetermined period, An electronic cooker comprising an ON time changer for performing non-loading detection and returning to the originally set ON time.