JPH01265917A - Rice boiler - Google Patents

Abstract

PURPOSE:To ensure a safety, to shorten the time of rice boiling and to improve the heat insulation characteristic by disposing an induction heating coil in the lower section of a pan, instead of a rice boiling embedded-heater, so as to give an induction heating system with the use of an inverter. CONSTITUTION:A heat-hold determining means 3 determines whether a temperature detected by a pan temperature detecting means 2 is higher than a heat holding temperature or not. Further, a heat-holding heater drive means 6 energizes a heat-holding heater 5 disposed in the upper section of the pan 1, and an inverter 8 having an induction heating coil 7 as a resonating coil disposed in the pan 1 below the heat holding heater 5, is driven by an inverter drive means 9. When the means 3 determines that the temperature of the pan 1 is higher than the heat holding temperature, a control means 10 delivers turn-on and -off signals to the means 6, 9. Meanwhile, when the means 3 determines that the temperature of the pan 1 is lower than the heat holding temperature, the control means 10 delivers turn-on and -off signals, alternatively to the means 6, 9 in accordance with a time counted by a timer counter 4.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a rice cooker that is used at home and uses an induction heating coil and an ordinary heater as heat sources, and particularly relates to a heating method when keeping the rice warm.

BACKGROUND OF THE INVENTION A conventional general rice cooker is as shown in Figure 6. When cooking rice, power is supplied to the rice cooking heater 6o and the side heater 61, and the input power ratio is approximately 5ooW:6.
It is 0W. Further, during heat retention, electricity is supplied to the lid heater 62, side heater 61, and rice cooking heater 6°, and the input power ratio thereof is approximately 24W:48W:8W. The rice cooking heater 60 is also a yI-containing heater, and is shaped so as to come into contact with the bottom surface of the pot 63.

Problems to be Solved by the Invention In the above-mentioned conventional rice cooker, the rice cooking heater 60 and the basin 63 are
If foreign matter gets mixed in between the rice cooker heater 60 and the pot 63, the heat from the rice cooker heater 60 will not be transmitted to the pot 63, and as a result, the rice cooker heater 60, which is a cast-in heater, will reach an abnormally high temperature, which poses a safety problem.

Therefore, the upper limit of the input power to the rice cooking heater 6o is approximately 5o.
oW to 1o○OW, and this was also the cause of the limit in shortening the rice cooking time. Therefore, in order to solve this problem, an induction heating method using an inverter as a heat source without contact with the pot 63 may be considered.

Here, if an induction heating coil is placed in the lower part of the rice cooker 63 instead of the rice cooking heater 6o, the input power can exceed 1000W, which is the upper limit of the rice cooking time of the conventional rice cooker, for example, 12
You can cook rice with 00W input power, but when keeping it warm,
The input power to the induction heating coil is oW, and the lid heater 62 located at the top of the pot 63 and the side heater 61 must be used to keep the pot warm. However, this has the problem that the temperature at the lower part of the pot 63 decreases and the water vapor condenses, which causes the rice at the lower part of the pot 63 to contain moisture, making the rice tasteless.

The present invention solves the above-mentioned conventional problems.Instead of the rice cooking heater, which is a stirrup heater, an induction heating coil is placed at the bottom of the pot, making it easier to use an induction heating method using an inverter. , a rice cooker that is highly safe because the rice heater does not reach abnormally high temperatures, shortens the cooking time, and does not lower the temperature at the bottom of the pot even when kept warm, and has excellent heat retention properties. The purpose is to provide the following.

Means for Solving the Problems In order to solve the above problems, the rice cooker of the present invention includes a pot temperature detection means for detecting the temperature of the pot, and a temperature detected by the pot temperature detection means that is higher than the heat retention temperature. a timer counter for measuring time; a heat retention heater driving means for energizing the heat retention heater located at the upper part of the pot; an inverter that uses an induction heating coil as a resonant coil; an inverter drive means for driving the impark; and when the heat retention determination means determines that the temperature of the pot is higher than the heat retention temperature, the heat retention heater drive means; An off signal is given to the inverter drive means, and when it is determined that there is a difference based on the heat retention temperature, the heat retention heater drive means and the impark drive means are alternately switched on based on the time measured by the timer counter. , a control means for giving an on signal, and an off signal.

Function In the rice cooker configured as M as described above, when cooking rice, there is no contact between the pot and the induction heating coil that serves as the resonance coil of the inverter that is the heat source, so it is not possible to use the conventional method. An input power of 1000 W or more, which is the upper limit of the input power of a rice cooker, can be input, and as a result, the rice cooking heater does not reach an abnormally high temperature, and the rice cooking time can be shortened.

In addition, when keeping warm, the temperature at the bottom of the pot can be maintained at an appropriate temperature, so water vapor does not condense.
You can keep your food delicious and warm even in times of disaster.

Embodiment Hereinafter, one embodiment of the present invention will be described based on the accompanying drawings. FIG. 1 shows a block diagram of a rice cooker in an embodiment of the present invention. 1 is a pot for cooking rice; 2 is a pot temperature detection means; this pot temperature detection means 2 detects the temperature of the bottom surface of the pot 1; Reference numeral 3 denotes a heat retention determining means, which inputs the output signal of the pot temperature detection means 2 and determines whether the pot temperature is higher or lower than the set heat retention temperature.

4 is a timer counter that measures time. 5 is pot 1
The heat-retaining heater 6 is located above the heat-retaining heater 6, and its energization is controlled by the heat-retaining heater driving means 6. 7 is an induction heating coil located below 'A1 than the heat-retaining heater 6, and 8 is an inverter that uses the induction heating coil 7 as a resonance coil. Reference numeral 9 represents an inverter driving means for driving the inverter 8. Reference numeral 10 denotes a control means, and this control means 1° receives output signals from the heat retention determining means 3 and the timer counter 4, and when the temperature of the pot 1 is higher than the heat retention temperature, it controls the heat retention heater drive means 6 and the inverter drive. On the other hand, when the temperature of the pot 1 is lower than the heat retention temperature, an ON signal is supplied to the inverter drive means 9 for tl seconds, an OFF signal is supplied to the heat retention heater drive means 6, and an OFF signal is supplied to the heat retention heater drive means 6 for tl seconds. During the progress, an OFF signal is sent to the inverter drive means 9.
Further, an ON signal is given to the heat retention heater driving means 6, and this process is repeated when the temperature of the pot 1 is lower than the heat retention temperature. Here, tl and t2 seconds are times measured by the timer counter 4.

Here, the input power of the heat retention heater 5 is Pl, the input voltage of the induction heating coil 7 is P2, and the ratio of the average input power of the heat retention heater 6 with the best heat retention characteristics to the average input power of the induction heating coil/V7 is calculated. Set the values of tl and t2 seconds so that x:Y.

Fig. 2 shows a specific circuit diagram of a rice cooker according to an embodiment of the present invention, and Fig. 3 shows the configuration of the rice cooker. It is a pot for cooking rice υ, and 2 is a thermistor that detects the temperature of the pot 1.

3 is a heat retention judgment means, which includes a comparator 11 and a resistor 1.
2-14 Toyo') I-! lj has been completed. A reference potential for the heat retention temperature is inputted to one terminal of the comparator 11 by the resistor 13 and the resistor 14 . Resistance 1
2, together with the thermistor 2, provides a potential corresponding to the temperature of the pot 1 to the child terminal of the comparator 11. As a result, the output of the comparator 11 becomes a positive output when the temperature of the pot 1 is higher than the keep-warm temperature, and becomes a negative output when it is lower than the keep-warm temperature.
You can determine whether the insulation temperature is higher or lower. 6
is a heat-retaining heater, and this heat-retaining heater 6 consists of a side heater 6a and a lid heater 5b, and is located at the upper part of the pot 1. Reference numeral 6 denotes a heat-retaining heater drive means for supplying current to the heat-retaining heater 6, which is composed of resistors 16, 16, a transistor 17, and a three-terminal circuit 18.

Reference numeral 7 denotes an induction heating coil, which is located at a lower part of the pot 1 than the insulating heater 5. 8 is an inverter using an induction heating coil as a resonant coil, and this inverter 8 includes an inverter control circuit 19 and resistors 20, 21 . Zener diode 22, switching element 23, diode 24,
It is composed of capacitors 25 to 27, a coil 28, and a diode bridge 29 for full-wave rectification of AC power supply. Reference numeral 9 denotes an inverter driving means for driving the inverter 8, which is composed of resistors 30, 31 and a transistor 32. 33 is a microcomputer, and this microcomputer 33 inputs the output signal of the heat retention determining means 3;
It consists of a timer counter 4 and a control means 1o, and provides output signals to the inverter drive means 9 and the heat retention heater drive means 6.

Next, the operation of this embodiment will be explained based on the flowchart shown in FIG. When the rice cooking is finished and the warming mode is entered, the microcomputer 3o inputs the output signal of the comparator 11 in step 50. When the temperature of the pot 1 is higher than the warming temperature, the output of the comparator 11 is a positive output, and the process proceeds to step 61. The microcomputer 3o is
The input power is It becomes ○.

Next, in step 5o, when the temperature of wAl is lower than the insulating temperature, the output of the comparator 11 is a negative output, and the process proceeds to step 52.

In step 52, the microcomputer 33 outputs a low level output to the insulating heater drive means for t1 seconds based on the time measured by the timer counter 4, and on the other hand, outputs a low level output to the inverter drive means 9. is output, the power supply to the heat insulating heater 6 is stopped, and the inverter 8 is driven.

Next, in step 63, the microcomputer 33 outputs an open state output to the insulation heater driving means 6 for 12 seconds based on the time measured by the timer counter 4.
On the other hand, a low level output is provided to the inverter driving means 9 to energize the heat insulating heater 5 and stop driving the inverter 8. Then, the process returns to step 60 and the above steps are repeated. Now step 52
and 53 may be reversed in order; in this case, the ratio of the average input power by the fl heating heater 5 to the average input power by the inverter 8 should be a ratio that provides good heat retention characteristics.

Effects of the Invention As is clear from the description of the above embodiments, according to the present invention,
Since induction heating is used, which is a heat source that does not contact the pot, even if foreign matter gets between the pot and the heater, unlike traditional cast-in heaters, the heater itself will not reach abnormally high temperatures. , very safe. In addition, the input power is 100
Although it was supposed to be less than 0W, rice can be cooked with more input power than this, which shortens the cooking time. When keeping warm, the ratio of input power between the upper and lower parts of the pot can be set to the ratio that provides the best heat retention properties, so the temperature of the lower part of the pot, where the induction heating coil is located, can be kept at an appropriate temperature. As a result, the rice does not become moist due to condensation of water vapor, and the rice can be kept warm and delicious.

[Brief explanation of the drawing]

Fig. 1 is a block diagram of a rice cooker according to an embodiment of the present invention, Fig. 2 is a specific circuit diagram of the rice cooker, Fig. 3 is a longitudinal sectional view of the rice cooker, and Fig. 4 is a diagram of the rice cooker. FIG. 6 is a longitudinal cross-sectional view of a conventional rice cooker. 1... Pot, 2... Pot temperature detection means, 3
... Warmth retention judgment means, 4 ... Timer counter, 6 ... Song/warm heater, 6 ... Warmth retention heater driving means, 7 ... For induction heating Coil, 8...
...Inverter, 9...Inverter drive means, 1o...Control means. Name of agent: Patent attorney Toshio Nakao and 1 other person!・
・-Pot, standing-5' 1 side heater

Claims (1)

[Claims] a pot temperature detection means for detecting the temperature of the pot; a heat retention determination means for determining whether the temperature detected by the pot temperature detection means is higher or lower than the heat retention temperature; a timer counter for measuring time; A heat retention heater located at the upper part, a heat retention heater drive means for supplying electricity to the heat retention heater, an inverter having an induction heating coil as a resonant coil located at a lower part of the pot than the heat retention heater, and driving this inverter. When the inverter drive means and the heat retention determining means determine that the temperature of the pot is higher than the heat retention temperature, an off signal is given to the heat retention heater drive means and the inverter drive means; When the determination is made, the rice cooking method is characterized by comprising a control means that alternately gives an ON signal and an OFF signal to the warming heater drive means and the inverter drive means based on the time measured by the timer counter. vessel.