KR20010107300A - Pressure control system for Electric rice cooker - Google Patents

Abstract

The present invention relates to a pressure control system of the electric pressure cooker capable of adjusting the pressure in the oven during cooking, the pressure control system of the electric pressure cooker according to the present invention is a solenoid valve 20 mounted on the lid and in the oven 10 The pressure measurement means for measuring the pressure and the pressure value can be set by the user's operation, and the pressure in the oven 10 is determined by comparing the set pressure value with the pressure in the oven 10 determined by the pressure measuring means. It comprises a micom 40 for opening and closing the solenoid valve 20 to be maintained within a certain error range as a reference; The pressure measuring means includes a temperature measuring mechanism for measuring a temperature change in the oven 10 and a conversion unit 42 for converting the temperature change measured by the temperature measuring device into a pressure change.

Here, the temperature measuring device is composed of a thermistor 44 whose electrical resistance changes in accordance with ambient temperature changes.

Therefore, according to the present invention configured as described above, since it can be configured at a low cost by using a general thermistor instead of the conventional pressure sensor, it helps to improve the productivity of the rice cooker, and the pressure change in the oven easily through the thermistor By using this characteristic, it is possible to improve the commerciality of the rice cooker, such as the user can check the operation status of the oven by converting and displaying the pressure change degree by numbers or graphs using this characteristic. In open operation, instead of determining that the pressure in the oven is adjusted based on time alone, the operating pressure of the solenoid valve can be compensated by measuring the pressure change in the oven directly through the thermistor. To improve the operational stability of the cooker do.

Description

Pressure control system for electric rice cooker

The present invention relates to an electric pressure cooker, and more particularly, to a pressure control system of the electric pressure cooker to adjust the cooking state by measuring the pressure change in the oven during cooking.

Electric pressure cooker is a cooking operation using electricity as a heating source, to maintain the inside of the oven at a high pressure to achieve a cooking process quickly by raising the heating temperature at a normal atmospheric pressure, the oven 10 as shown in FIG. And a main body case 12 in which the oven 10 is seated, a lid 14 for opening and closing the main body case 12, an electric device for heating / warming the oven 10, and an oven for cooking ( 10) is configured to include a pressure regulator for regulating the pressure in the.

As shown in FIG. 2, the electric device is a working coil 16 mounted on the main body case 12 to generate an induction current during cooking, a heater 18 that performs relatively weak heat generation when warming, and the like. Consists of

In addition, according to the function of the pressure regulator, the solenoid valve 20 which lowers the pressure in the oven 10 by automatically opening after a certain time after the end of cooking, and the pressure in the oven 10 during cooking are constant. If it exceeds, it consists of a poise valve (30) to be kept open while preventing the pressure in the oven (10) from being excessively raised by opening.

The solenoid valve 20 is connected to the top plate 141 of the lid 14, as shown in Figure 3, the steam discharge pipe 22 is connected to the outside of the top cover 142, and the steam discharge pipe ( The diaphragm 24 which opens and closes the vapor hole 22a in 22, the plunger 26 coupled with the diaphragm 24, and the solenoid core 28 for the operation of the plunger 26 are comprised. Here, the plunger 26 is elastically supported by the spring 27.

The poise valve 30 includes a steam discharge pipe 32 installed through the lid 14 and a pressure weight 34 mounted on an upper end of the steam discharge pipe 32 from the outside of the lid 14. The pressure weight 34 has a valve pin 35 for opening and closing the upper end of the steam discharge path 32a of the steam discharge pipe 32 therein, and has a structure in which a discharge hole 34a is discharged at the lower side thereof. consist of.

As described above, the cooking operation of the electric pressure cooker is as follows.

First, the eddy current is induced in the oven 10 by the working coil 16, the soaking process is performed so that the moisture is absorbed in the rice grains by gradually heating the oven 10 due to the eddy current, after a soaking process for a predetermined time By heating the oven to a high temperature, the boiling temperature rises rapidly and the boiling process proceeds.

At this time, the upper end of the oven 10 is in close contact with the bottom of the top plate by a binding device (not shown), to maintain the solenoid valve 20 and the poise valve 30 constituting the pressure control system is closed. Therefore, when the boiling process is started and the rice starts to cut off, the pressure inside the oven 10 becomes higher than atmospheric pressure due to steam generation. As the pressure inside the oven increases, the temperature of the rice also rises to a temperature higher than the boiling point (at about 100 ° C) at normal pressure, so the rice will ripen quickly.

After the boiling process for a certain time is completed, the heating process by the working coil 16 is stopped in the state of the moxibustion process for a predetermined time, after the end of the moxibustion process by the operation of the solenoid valve 20 In the state in which the steam in the oven 10 is discharged to the outside and the pressure is lowered, the heating process is performed in which the oven 10 is weakly heated to a constant temperature by the heater 18.

Here, the operation of the solenoid valve 20 is applied to the solenoid core 28 under the control of a controller (not shown), the plunger 26 is a diaphragm (26) by the magnetic force generated in the solenoid core 28 The elastically deformed 24 to open the steam hole (22a), the steam in the oven 10 through the steam flow path of the open steam hole (22a) and the vapor discharge pipe 22 communicated with the way Is done.

In addition, in such an electric pressure cooker, if the pressure in the oven 10 during cooking is higher than the reference value, by operating the poise valve 30 as described above, the steam in the oven 10 is discharged to the outside of the appropriate amount is excessive pressure The rise is prevented, the operation of the poise valve 30 will be described in detail as follows.

First, before the pressure in the oven 10 reaches the reference value, the steam exhaust passage 32a of the steam discharge pipe 32 is kept closed by the valve pin 35, which causes the valve pin 35 to be closed. This is because the steam discharge path 34a is blocked by being pressed downward by the weight of the pressure weight 34. Then, when the pressure in the oven 10 exceeds the reference value, that is, the weight of the pressure weight 34, the valve pin 35 is lifted up and the pressure weight 34 is tilted to one side (the virtual line in FIG. 2). By swinging), the steam discharge path 32a is opened and the steam in the oven 10 is discharged through the discharge hole 34a of the pressure weight 34 so that the pressure in the oven 10 is lowered to a reference value or less. When the pressure in the oven 10 is lowered, the pressure weight 34 is in equilibrium again in its structure so that the valve pin 35 blocks the steam discharge path 32a to prevent excessive pressure drop, and this operation is repeated to cook. The pressure inside the oven 10 is maintained at a constant level.

That is, in the conventional electric pressure cooker as described above is to achieve an effective cooking through the pressure control and safe operation of the pressure regulator.

On the other hand, in the prior art as described above, provided with a pressure sensor (not shown) capable of measuring the pressure change in the oven 10 and the input means for inputting the desired pressure to the microcomputer, the pressure sensor And the solenoid valve 20 may be linked to the so-called pressure regulating system. According to the pressure regulating system, when the pressure in the oven 10 reaches a preset value, the solenoid valve 20 is controlled by the microcomputer. Opening allows cooking in various forms because the user can maintain the pressure in the oven 10 to the extent desired by the user.

However, according to the prior art as described above, in constructing the pressure regulating system, since the structure is complicated and requires an expensive pressure sensor, the production cost of the rice cooker is increased, resulting in a decrease in the productivity of the rice cooker. Occurs.

The present invention has been made to solve the above-mentioned conventional problems, and by using a thermistor for measuring the temperature instead of the pressure sensor, which is complicated in structure, the pressure in the oven during cooking helps to improve the productivity of the rice cooker. The purpose is to provide a pressure control system of the electric pressure cooker.

1 is a cross-sectional view showing the structure of a general electric pressure cooker.

Figure 2 is a cross-sectional view showing the structure and operating state of the solenoid valve applied to the pressure control system of the electric pressure cooker according to the prior art.

Figure 3 is a cross-sectional view showing the poise valve structure and operating state applied to the pressure control system of the electric pressure cooker according to the prior art.

Figure 4 is a schematic diagram showing the configuration of the pressure control system of the electric pressure cooker according to an embodiment of the present invention.

Figure 5 is a schematic diagram showing the mounting structure of the temperature measuring mechanism in the pressure control system of the electric pressure cooker according to the embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: oven 20: solenoid valve

30: poise valve 22a: steam ball

26: plunger 27: spring

40: micom 42: conversion unit

44: Thermistor 46: Earth resistance

The pressure control system of the electric pressure cooker provided to achieve the above object is a solenoid valve mounted on the lid, a pressure measuring means for measuring the pressure in the oven, the pressure value can be set by the user operation, the set pressure value and the Comprising a microcomputer for opening and closing the solenoid valve to compare the pressure in the oven determined by the pressure measuring means to maintain the pressure in the oven within a certain error range based on the pressure value; The pressure measuring means is characterized in that it comprises a temperature measuring mechanism for measuring the temperature change in the oven, and a conversion unit for converting the temperature change measured by the temperature measuring mechanism into a pressure change.

Here, the temperature measuring device is composed of a thermistor whose electrical resistance changes according to a change in ambient temperature.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4 to 5.

First, the pressure control system of the electric pressure cooker according to the embodiment of the present invention, as shown in Figure 4, the solenoid valve 20, the pressure measuring means for measuring the pressure in the oven 10, and the pressure value of the user operation The solenoid valve 20 may be set and compare the set pressure value with the pressure in the oven 10 determined by the pressure measuring means to maintain the pressure in the oven 10 within a predetermined error range based on the pressure value. It consists of a microcomputer 40 for opening and closing the pressure measuring means, the temperature measuring mechanism for measuring the temperature change in the oven 10, and the function of converting the temperature change measured by the temperature measuring mechanism to the pressure change It consists of a conversion unit 42 having a.

Here, the temperature measuring device is composed of a thermistor (44) having a characteristic of changing the electrical resistance according to the change of the ambient temperature, wherein the thermistor (44) receives a power supply voltage for forming the electrical resistance and It is made of a structure that is connected to the ground resistance 46 for stability.

The pressure measurement using the thermistor 44 in the pressure control system configured as described above uses the principle that the pressure P and the temperature T are proportional to the ideal gas state equation (PV = nRT). That is, in the proportional value (P / T = nR / V) of the pressure and temperature derived from the ideal gas state equation, since the inside of the oven 10 during cooking is closed, the volume V may be considered to be constant. When the number of moles of gas (n) and the gas constant (R) are arbitrarily set, the pressure change relative to the temperature change can be estimated because the proportional value of the pressure and the temperature becomes a constant.

The error caused in applying the ideal gas state equation to the actual gas is corrected in comparison with the amount of deviation preset through experiments or the like in the conversion unit 42.

Therefore, according to the pressure control system according to the present embodiment, by setting the desired pressure limit by the user through the microcomputer 40, the microcomputation degree of the pressure change estimated by the temperature change measured by the thermistor 44 at the time of cooking When the pressure in the oven 10 approaches the limit pressure as determined by 40, the solenoid valve 20 is opened to maintain the pressure in the oven 10 within a certain error range.

In addition, since the pressure change in the oven 10 can be easily signaled through the thermistor 44, the user can display the pressure change state in the oven by converting the pressure change degree to a number or a graph using this characteristic. You can check it.

On the other hand, the plunger 26 which opens and closes the steam hole 22a in the solenoid valve 20 is elastically supported by the spring 27 (see FIG. 2), and is connected to the solenoid core 28 and the spring 27. When the solenoid valve 20 is used for pressure control during cooking, since the elastic modulus of the spring 27 changes as the rice cooker is used for a long time, the operation stability of the solenoid valve 20 may be deteriorated. Occurs. That is, despite the need to control the pressure in the oven 10 within a predetermined error range by maintaining the open state of the steam hole 22a for a predetermined time controlled by the microcomputer 40 to move the plunger 26 during cooking. When the modulus of elasticity of (27) is different, the plunger 26 is closed earlier or later than the control time at the microcomputer 40. However, since the microcomputer 40 estimates the operation of the plunger 26 based only on time, it is determined that there is no abnormality in the operation of the solenoid valve 20, and consequently affects the operation stability of the rice cooker.

According to the embodiment of the present invention, in the control operation of the solenoid valve 20, the pressure change in the oven 10 is measured through the thermistor 44 without determining that the pressure in the oven 10 is adjusted based only on time. Therefore, as described above, it is possible to correct the operation error of the solenoid valve 20 generated by the elastic modulus of the spring 27 different from the initial stage.

As described above, according to the pressure control system of the electric pressure cooker according to the embodiment of the present invention, the pressure in the cooking oven 10 can be easily measured using the thermistor 44 having a simple structure and low cost. In addition, by adjusting the pressure in the oven 10 through the measured pressure it can be cooked in various states according to the user's taste.

Finally, the pressure control system according to the present embodiment is not only a pressure cooker, it turns out that it can be applied to various cooking utensils (for example, a universal cooker) that requires pressure control when cooking.

According to the pressure control system of the electric pressure cooker according to the present invention, first, since it can be configured at a low cost by using a general thermistor instead of the conventional pressure sensor, it helps to improve the productivity of the cooker, and second, in the oven through the thermistor Since the pressure change can be easily signaled, this feature can be used to convert the pressure change into numbers or graphs and display the user's operating status, thereby helping to improve the commerciality of the rice cooker. Third, the solenoid valve generated by changing the elastic modulus of the spring by measuring the pressure change in the oven directly through the thermistor without determining that the pressure in the oven is adjusted based only on the time of opening the solenoid valve. The work of the rice cooker which can correct the working error of the It helps to improve the stability of copper.

Claims (2)

Solenoid valve mounted on the lid, Pressure measuring means for measuring the pressure in the oven, The pressure value may be set by a user operation, and the opening and closing of the solenoid valve may be performed such that the pressure in the oven is maintained within a certain error range based on the pressure value by comparing the set pressure value with the pressure in the oven determined by the pressure measuring means. Control In the pressure control system of the electric pressure cooker comprising a; The pressure measuring means is a pressure measuring system of the electric pressure cooker, characterized in that the temperature measuring device for measuring the temperature change in the oven and the conversion unit for converting the temperature change measured by the temperature measuring device into a pressure change. According to claim 1, wherein the temperature measuring instrument Pressure control system of an electric pressure cooker, characterized in that consisting of a thermistor whose electrical resistance changes with changes in ambient temperature.