JP2685227B2 - Electromagnetic cooker - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to an electromagnetic cooker for heating an object to be heated such as a metal pot by an electromagnetic induction effect.

(Prior Art) Generally, an electromagnetic cooker includes a power supply system including a rectifying unit that rectifies an AC input from a commercial power source into a pulsating flow and a smoothing unit that smoothes the pulsating flow into a DC power. A high-frequency inverter, which is provided with a high-frequency transistor, a resonance capacitor, etc., and converts the direct-current power from the power supply system into a high-frequency power of a required frequency; It is composed of a top plate and the like arranged above.

Then, a cooking utensil such as a metal pot placed on the top plate is induction-heated so that required cooking can be performed safely and with high efficiency.

FIGS. 5 (a) and 5 (b) show a method for adjusting the heating output in such an electromagnetic cooker. In this adjusting method, the collector time of the collector is changed by changing the on-time of the high frequency transistor. The current, that is, the input current Ic to the high-frequency inverter is controlled to adjust the heating output. In the figure, V _CE indicates the resonance voltage charged in the resonance capacitor by the energy stored in the heating coil during the off time of the high frequency transistor.

However, in this adjustment method, since the heating output is set low, if the on-time of the high-frequency transistor is controlled to a short time below the required value, the charge stored in the resonance capacitor when the high-frequency transistor is off becomes completely zero. The high frequency transistor is turned on at the previous timing, and the short circuit current Is flows at this moment as shown in FIG. 5 (b).
Then, the short-circuit current Is becomes larger as the ON time of the high frequency transistor is controlled to be shorter, and the loss of the high frequency transistor increases, which may cause thermal destruction.

Fig. 6 shows that, in an electromagnetic cooker with a maximum heating output of 1.2 kW, if the heating output is set lower than about 300 W, the short-circuit current Is increases and the loss (Loss) of the high frequency transistor increases, causing thermal destruction. It shows how to reach.

On the other hand, as another adjustment method that can set the heating output of the electromagnetic cooker to be low without causing thermal damage to the high frequency transistor, the oscillation operation of the high frequency inverter is controlled to be turned on and off at appropriate time intervals. A method is being considered.

7 and 8 show that the high frequency inverter is turned on,
The method of adjusting the heating output by the off control is shown. The electromagnetic cooker adopting this adjusting method is provided with an input setting means for setting the wave number of the pulsating flow input to the smoothing means to the required wave number among the pulsating flow having the predetermined wave number output from the rectifying means.

Then, by setting operation of the input setting means, the wave number of the pulsating flow to be inputted to the smoothing means is set to a required wave number to control the high frequency inverter to turn on / off in a required on / off pattern, thereby causing thermal destruction of the high frequency transistor. Instead, the heating output is set to a required low output or the like.

7 (a), (b), and (c) show examples of on / off patterns of the high-frequency inverter when the predetermined wave number (parameter) of the pulsating flow output from the rectifying means is set to 8. The figure (a) shows the ON / OFF pattern when the maximum heating output is set to P _MAX and the heating output is set to (7/8) P _MAX , and the figure (b) shows heating Output is (5/8) P
ON / OFF pattern when set to _MAX , same figure (c)
Shows the ON / OFF pattern when the heating output is set to (3/8) P _MAX .

However, in this conventional method for adjusting the heating output by the on / off control, when the setting of the on / off pattern is changed by operating the input setting means, the on / off pattern is immediately changed and set to the one after the setting change. Therefore, as shown in (a) and (b) of FIG. 8, the pulsating flow on the rear end side in the on / off pattern immediately before the setting change,
In some cases, the pulsating flow on the front end side in the on / off pattern after setting changes may overlap.In such a case,
There is a problem that the ON / OFF pattern is disturbed, the input control of the pulsating flow to the smoothing unit cannot be stably performed, and it is difficult to reliably set the heating output to a required output.
When the setting operation results in a pattern such as that shown in FIG. 8B, control to a required output such as a low output becomes completely impossible.

(Problems to be Solved by the Invention) In the conventional electromagnetic cooker in which the heating output is adjusted by the on / off control of the high frequency inverter without causing the thermal destruction of the high frequency transistor, the on / off state immediately before the setting is changed. The pulsating flow on the rear end side in the pattern and the pulsating flow on the front end side in the on / off pattern after the setting change may overlap, and in such a case, the heating output is stabilized to the required output, There was a problem that it was difficult to control it reliably.

The present invention has been made based on the above circumstances, and an object of the present invention is to provide an electromagnetic cooker capable of stably and reliably controlling a heating output to a required low output or the like without causing thermal destruction of a high frequency transistor. In order to solve the above problems, the present invention rectifies an alternating current into a pulsating flow by a rectifying means, and smoothes this pulsating flow by a smoothing means. In an electromagnetic cooker in which DC power is used, the DC power is converted into high frequency power by a high frequency inverter, and the high frequency power is applied to a heating coil to induction-heat an object to be heated, the wave number of the pulsating flow rectified by the rectifying means. Counting means for counting, the wave number of the pulsating current input from the rectifying means to the smoothing means, an input setting means for setting a required wave number to be converted into high frequency power among predetermined predetermined wave numbers, At the time of changing the setting of the wave number of the input pulsating flow by the input setting means, after the counting of the pulsating flow of the predetermined wave number by the counting means is finished, the input pulsating flow to the smoothing means is changed to the pulsating flow of the required wave number that has been changed. The gist is to have a control means for setting.

(Function) When changing the heating output to the required low output,
When the setting operation of the input setting means is performed, the wave number of the pulsating flow input to the smoothing means is not changed to a new set number until the counting operation of the pulsating flow having a predetermined wave number defined in advance by the counting means is completed. After the pulsating flow counting operation of the predetermined wave number is completed, the required wave number to be converted into the high frequency power after the setting change is set.

Therefore, the pulsating flow on the rear end side in the ON / OFF pattern immediately before the setting change and the pulsating flow on the front end side in the ON / OFF pattern after the setting change are prevented from overlapping, and the heating output is reduced to the required low output. Stable and surely set. Further, since the heating output is adjusted by the on / off control of the high frequency inverter, thermal destruction of the high frequency transistor in the high frequency inverter is prevented.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

1 to 3 show an embodiment of the present invention.

First, the structure of the electromagnetic cooker will be described.
Is a commercial power supply, and this commercial power supply 1 is connected to a full-wave rectification circuit 4 composed of a diode bridge as rectification means via a triac 2 as a switching element. As will be described later, the trigger timing of the triac 2 by the ignition circuit 3 operates at zero cross in synchronization with a half cycle of the AC input from the commercial power source 1 (one waveform of pulsating flow), and the required half cycle. The AC input from the commercial power supply 1 is switching-controlled for an integral multiple period.

Further, a smoothing capacitor 5 is connected to the output terminal of the full-wave rectifier circuit 4 as a smoothing means for smoothing the pulsating current output to obtain DC power.

6 is a heating coil for inductively heating a cooker, which is an object to be heated (not shown) such as a metal pot, 7 is a high frequency transistor, 8
Is a resonance capacitor, 9 is a damper diode, and these elements including the heating coil 6 constitute a high-frequency inverter 10 for converting DC power into high-frequency power and driving the heating coil 6. Reference numeral 11 is a drive circuit for driving a high frequency transistor.

Further, the electromagnetic cooker of this embodiment is further provided with the following respective means in addition to the above configuration. That is,
First, a zero cross detector 12 for detecting an AC zero cross from the commercial power supply 1 and a microcomputer 13 including a counter for counting the zero cross detected by the zero cross detector 12 are provided. With the counter and the zero-cross detector 12 included in the microcomputer 13, a half cycle of the alternating current from the commercial power source 1, in other words,
Counting means for counting the wave number of the pulsating current that is full-wave rectified by the full-wave rectifying circuit 4 is configured. Further, the microcomputer 13 is connected to the above-mentioned firing circuit 3 and the drive circuit 11, respectively, and further, to this microcomputer 13,
The input setter 14 is connected via the A / D converter 15. With the input setting device 14, the A / D converter 15, the triac 2, and the ignition circuit 3, the wave number of the pulsating flow to be input to the smoothing capacitor 5 out of the pulsating flow of the predetermined wave number output from the full-wave rectifying circuit 4 is set to the required wave number. The input setting means 20 for setting is set.

Further, in the microcomputer 13, when the setting of the input pulsating flow to the smoothing capacitor 5 by the above-mentioned input setting means 20 is changed, after the counting of the pulsating flow of a predetermined wave number by the counting means is finished, Control means is included for setting and controlling the input pulsating flow to the pulsating flow of the required wave number whose setting has been changed.

Next, the operation of the electromagnetic cooker configured as described above,
This will be described with reference to FIGS. 2 and 3.

(A), (b), and (c) of FIG.
When the predetermined wave number (parameter) of the pulsating current output from the device is defined as 8, the pattern of the input pulsating current to the smoothing capacitor 5 which is set and operated by the input setting means 20, that is, the high frequency inverter
10 examples of on / off patterns are shown respectively. The figure (a) shows the on / off pattern when the heating output is set to the maximum power P _MAX , and the figure (b) shows the heating output (6 /
8) ON / OFF pattern when set to P _MAX, and FIG. 7C shows the ON / OFF pattern when the heating output is set to (3/8) P _MAX .

Then, the oscillating operation of the high frequency inverter 10 is controlled to be turned on and off by the on / off pattern as described above by the setting operation of the input setting means 20, and the high frequency transistor 7
The heating output is set and controlled to a required low output or the like without incurring the thermal destruction.

Next, when such an object to be heated is heated, the input setting means 20 is set to change the setting of the on / off pattern in order to perform appropriate cooking and the like. As shown in b), the wave number of the pulsating current input to the smoothing capacitor 5 is changed to a new set number until the counting operation of eight pulsating currents, which is a predetermined wave number by the counting means, is completed. I can't. Then, when the counting operation of the eight pulsating currents, which is the predetermined wave number, is completed, at the end point, the setting to the required wave number after the setting change is performed.

Therefore, the pulsating flow on the rear end side in the ON / OFF pattern immediately before the setting change and the pulsating flow on the front end side in the ON / OFF pattern after the setting change are prevented from overlapping, and the heating output is stabilized at the required output, The setting is surely controlled.

Next, FIG. 4 shows another embodiment of the present invention. In this embodiment, the input setting means 30 has a plurality of setting switches.
It is composed of 16a to 16e. Each setting switch 16a-1
6e outputs the heating output, for example, (2/8) P _MAX , (3
/ 8) P _MAX ... Corresponds to be set to P _MAX .
Then, by turning on the desired setting switches 16a to 16e, a desired on / off pattern can be set. The other structure is the same as that of the one embodiment. Also, the operation is almost the same as that of the one embodiment.

[Effects of the Invention] As described above, according to the present invention, when the heating output is changed to the required output, when the input setting means is operated, it is input to the smoothing means by the control operation of the control means. The wave number of the pulsating flow is not changed to a new set number until the counting operation of the pulsating flow of the predetermined wave number by the counting means is finished, and is set after the counting operation of the pulsating flow of the predetermined wave number is finished. It is set to the required wave number to be converted into the changed high frequency power. Therefore, turn on the
The pulsating flow on the rear end side in the off pattern and the pulsating flow on the front end side in the on / off pattern after the setting change are prevented from overlapping, and heating output is required without causing thermal destruction of the high frequency transistor in the high frequency inverter. There is an advantage that the output can be controlled stably and reliably at a low output.

[Brief description of the drawings]

FIG. 1 is a circuit configuration diagram showing an embodiment of an electromagnetic cooker according to the present invention, FIGS. 2 and 3 are for explaining the operation of the embodiment, and FIG. 2 is an input setting means. 4 is a timing chart showing an example of ON / OFF pattern of the high frequency inverter set by FIG. 3, FIG. 3 is a timing chart for explaining the control action of the control means at the time of changing the setting of the ON / OFF pattern by the input setting means, FIG. FIG. 5 is a circuit configuration diagram showing another embodiment of the present invention, and FIG. 5 is a timing chart showing the current flowing in the heating coil in the conventional electromagnetic cooker adopting the method of adjusting the heating output by controlling the on-time of the high frequency transistor, FIG. 6 is a characteristic diagram showing the relationship between the heating output and loss of the high frequency transistor in the same example as above, and FIG. 7 is the heating output by the on / off control of the high frequency inverter FIG. 8 is a timing chart showing ON / OFF patterns of a high-frequency inverter in another conventional example adopting the node method, and FIG. 8 shows the disturbance of the ON / OFF pattern when changing the setting of the ON / OFF pattern in the other conventional examples. It is a timing chart for explaining. 1: Commercial power supply, 2: Triac, 3: Ignition circuit, 4: Full wave rectification circuit (rectification means), 5: Smoothing capacitor (smoothing means), 6: Heating coil, 10: High frequency inverter, 12: Counting means Constituting zero-crossing detector, 13: Microcomputer including counter and control means constituting counting means, 20, 30: Input setting means.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-58-142787 (JP, A) JP-A-61-7586 (JP, A)

Claims (1)

(57) [Claims] Claim: What is claimed is: 1. A rectifying means rectifies an alternating current into a pulsating current, the smoothing means smoothes the pulsating current into a direct current power, the direct current power is converted into a high frequency power by a high frequency inverter, and the high frequency power is heated by a heating coil. In an electromagnetic cooker for inductively heating an object to be heated by applying to, a counting unit for counting the wave number of the pulsating flow rectified by the rectifying unit, and the wave number of the pulsating flow input to the smoothing unit from the rectifying unit, Input setting means for setting a required wave number to be converted into high frequency power among predetermined prescribed wave numbers, and when changing the setting of the wave number of the input pulsating flow by the input setting means, the pulsating flow of the predetermined wave number by the counting means is changed. And a control means for setting the input pulsating flow to the smoothing means to the pulsating flow of the required changed wave number after completion of the counting.