JP5629634B2 - rice cooker - Google Patents

Description

  The present invention relates to a rice cooker that adjusts the pressure applied to the inner pot, cooks deliciously, and reduces the amount of steam released during cooking.

  This conventional rice cooker has been focused on cooking rice deliciously.

  However, with changes in the housing environment and living environment, there is a tendency to dislike a large amount of steam generated when cooking rice.

  Therefore, as shown in Patent Document 1, after starting rice cooking, the operation of the pressure regulating valve is detected by a steam temperature sensor that detects steam discharged by the operation of the pressure regulating valve that regulates the pressure inside the inner pot, and then heating means Some cook rice by lowering the amount of heating and continuing boiling to suppress the discharge of steam from the pressure regulating valve to a very small amount.

  In Patent Document 2, the time required for each detected temperature to reach a specific temperature is determined using a lid sensor that detects the temperature of the heat sink and a steam sensor that detects the discharge temperature of the steam discharge path. Some rice cooking capacity is discriminated based on the judgment time, and the steam temperature generated from the food to be cooked is accurately detected by the steam sensor to detect boiling, thereby reducing the risk of spilling.

JP 2010-246657 A JP 2004-073311 A

  In the conventional example of Patent Document 1, even if the heating amount supplied to the heating means is reduced after catching the steam discharged by the operation of the pressure regulating valve, the inner pot or the like has a large heat capacity, so the steam does not decrease immediately. There are challenges that continue to occur.

  In Patent Document 2, steam is detected by two sensors, a lid sensor that detects the temperature of the heat sink and a steam sensor that detects the discharge temperature of the steam discharge path, and the rice cooking amount is determined when the transition temperature is reached earlier. In the case where boiling detection is performed by a steam sensor, the amount of heating is reduced in order to prevent spilling in the steam detection after passing through the pressure adjusting ball as in Patent Document 1 described above. There is a problem with late timing.

  In order to solve such a conventional problem, in the present invention, a main body, an inner hook accommodated in the main body, a lid covering the upper opening of the main body, an inner cover attached to the lid and covering the upper opening of the inner hook. A lid, a pressure regulating valve that is provided in the inner lid and restricts the discharge of the steam inside the inner pot and maintains a constant pressure; a steam passage that discharges the steam discharged from the pressure regulating valve to the outside of the lid; A heating means for heating the inner pot and a control means for controlling the electric power of the heating means are provided, a first temperature sensor for detecting the temperature inside the inner pot is provided on the lid, and a temperature is provided on the steam passage. A second temperature sensor that detects the discharge of steam from the pressure regulating valve by a change in the pressure, and the control means heats the inner pot with the heating means according to a predetermined rice cooking process, and the first temperature sensor When the temperature reaches a predetermined temperature, the electric power to the heating means When the second temperature sensor detects the discharge of steam when the second temperature sensor detects the discharge of steam, the power supply to the heating means is reduced more greatly than the reduction, so that the pressure regulating operation of the pressure regulating valve is within a range where it is not as much as possible. The power supply to the heating means is controlled so as to keep the pressure in the inner pot higher than the atmospheric pressure.

  According to the present invention, the amount of steam generated in advance is reduced by detecting the temperature change accompanying the rise in pressure in the inner pot and reducing the heating amount for heating the inner pot in advance so that the pressure regulating valve does not operate suddenly. By reducing, the pressure regulating valve can be operated to reduce the amount of steam discharged to the steam passage.

  This keeps the inside of the inner pot at atmospheric pressure or higher and cooks deliciously with a high boiling point, and prevents steam from being discharged from the pressure regulating valve, preventing the risk of condensation near the rice cooker and burns from the discharged steam. be able to. Further, by controlling the amount of heating so as not to emit steam, the amount of power consumption is reduced and an energy-saving rice cooker can be provided.

It is a figure which shows the cross section of the rice cooker of one Example. It is a figure which shows the example of the heating of the rice cooker of one Example. It is a figure which shows the example of the heating of the rice cooker of another Example. It is a figure which shows the cross section of the rice cooker of another Example.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS.

  In the cross-sectional view of the rice cooker in FIG. 1, a detachable inner pot 2 is accommodated in the main body 1, and a lid 3 that closes the upper opening of the main body 1 is provided to be freely opened and closed. The lid 3 is provided with an inner lid 4 that covers the upper opening of the inner hook 2, and a packing 14 attached to the lower peripheral edge of the inner lid 4 is brought into contact with the entire upper end of the inner hook 2 to contact the inner hook 2 and the inner lid. 4 is kept in a sealed state. A pressure regulating valve 5 is attached to the inner lid 4 to restrict the discharge of steam inside the inner hook 2 and keep the pressure constant. In the present embodiment, when the pressure becomes 1.3 atm, the pressure regulating valve 5 operates and the steam is discharged from the pressure regulating valve 5 to the steam passage 6 of the lid 3. The discharged steam is discharged to the outside through an exhaust port 15 provided in the lid 3 through the steam passage 6.

  Inside the main body 1 are heating means 7 for heating the inner pot 2, a pot bottom temperature sensor 13 for detecting the temperature of the bottom of the inner pot 2, and heating means 7 based on temperature information detected by the pot bottom temperature sensor 13. Control means 8 for controlling the electric power supplied to is provided.

  The lid 3 is provided with a first temperature sensor 9 for detecting the temperature inside the inner pot 2 and a second temperature sensor 10 for detecting the steam discharged from the pressure regulating valve 5 to the steam passage 6 as a constant temperature change. Yes.

  The first temperature sensor 9 is provided so as to be exposed to the inside of the inner hook 2 from the hole portion 11 of the inner lid 4, and is provided on the lid 3 through the seal member 12 so that steam does not leak from the hole portion 11. .

  The second temperature sensor 10 detects a change in temperature caused by the steam discharged into the steam passage 6 to detect that the pressure regulating valve 5 has been operated and discharged the steam.

  Temperature information from the first temperature sensor 9, the second temperature sensor 10, and the bottom temperature sensor 13 is transmitted to the control means 8, and the control means 8 controls the power supplied to the heating means 7 accordingly.

  The operation of the above configuration will be described.

  When rice and a proper amount of water are put into the inner pot 2 and a rice cooking start operation (the operation button is not shown) is performed, the control means 8 adjusts the heating amount of the heating means 7 according to a process determined to cook rice deliciously. The inner pot 2 is heated and rice cooking proceeds.

  When the heating of the inner pot 2 proceeds and the water temperature inside the inner pot 2 exceeds 60 ° C., steam begins to condense on the inner lid 4 and the first temperature sensor 9, and the heat of the steam is transmitted by the dew condensation. 4 and the temperature of the first temperature sensor 9 begin to rise.

  As the heating of the inner pot 2 further proceeds, the water temperature approaches 100 ° C. and steam (hereinafter referred to as steam) is generated vigorously. Then, the temperature of the inner lid 4 and the first temperature sensor 9 also approaches 100 ° C.

  At this time, since the steam generated in the inner pot 2 is restricted from being discharged into the steam passage 6 by the pressure regulating valve 5, the pressure inside the inner pot 2 is further increased and increased by the steam pressure.

  The control means 8 weakens the electric power supplied to the heating means 7 when the temperature of the first temperature sensor 9 reaches 80 ° C., so that the pressure in the inner pot 2 rises all at once and steam is generated from the pressure regulating valve 5. Prevent a large amount from being discharged. In this embodiment, the power is weakened from 1000 W to 800 W. Even if the heating amount is reduced by about 200 W at this timing, the pressure in the inner pot 2 continues to rise, and the boiling point increases as the pressure rises, and is about 103 ° C. at 1.1 atm and about 105 ° C. at 1.2 atm. .

  When the temperature in the inner pot 2 further rises and the first temperature sensor 9 detects 100 ° C. or higher, the control means 8 determines that the pressure inside the inner pot 2 has become atmospheric pressure or higher, and the heating amount of the heating means 7 Is further reduced from 800 W to 400 W, further suppressing the generation of steam, continuing the cooking of rice within the pressure at which the pressure regulating valve 5 operates, and suppressing the discharge of steam from the pressure regulating valve 5.

  Thereby, the inside of the inner pot 2 maintains about 1.2 atm, and the rice cooking can be continued at 105 ° C. while continuing the state where steam is not discharged from the pressure regulating valve 5, so that the rice cooking can be continued deliciously at a high temperature.

  However, even if the heating amount of the heating means 7 is weakened to 400 W due to the amount of cooked rice or water, the pressure rises to 1.3 atm and the pressure regulating valve 5 operates to discharge steam. The discharged steam is directed to the exhaust port 15 through the steam passage 6.

  However, since the electric power to the heating means 7 is reduced in advance, the pressure regulating valve 5 is operated so that less steam is discharged to the steam passage 6, and the steam condenses and condenses in the path of the steam passage 6. The steam is not exhausted from the exhaust port 15 to the outside.

  Then, when the temperature of the second temperature sensor 10 suddenly rises due to the steam discharged into the steam passage 6 and the control means 8 detects that the second temperature sensor 10 has reached 70 ° C., the control means 8 goes to the heating means 7 for 1 minute. After the supply of power is stopped, the heating of the inner pot 2 is resumed at 300 W. As a result, the pressure inside the inner pot 2 is reduced and the steam is not continuously discharged from the pressure regulating valve 5, the pressure inside the inner pot 2 is kept at about 1.2 atm, and the rice is cooked deliciously at high temperatures. While cooking rice, steam is not discharged.

  When rice cooking progresses and the water in the inner pot 2 runs out, the temperature at the bottom of the inner pot 2 rises rapidly, and when the pot bottom temperature sensor 13 exceeds 120 ° C., the control means 8 determines that the water has run out, and the heating means The power supply to 7 is stopped and the process proceeds to the steaming process.

  Steaming is performed for a certain period of 15 minutes, and the heating means 7 operates intermittently during this time to prevent a decrease in temperature. Before the steaming is completed, the temperature inside the inner pot 2 is lowered to 100 ° C. or lower, and the internal pressure is also returned to the atmospheric pressure.

  In this embodiment, the control means 8 has shown an example in which the heating amount of the heating means 7 is adjusted by the temperatures of the first temperature sensor 9 and the second temperature sensor 10, but the second temperature sensor as shown in FIG. After adjusting the heating to 300 W at 10, if the temperature drop of the first temperature sensor 9 is detected, the heating amount is raised again to 400 W, and when the temperature of the second temperature sensor 10 rises again, the heating amount is lowered to 300 W, etc. You may make it adjust a heating amount at any time.

  Further, in this embodiment, the first temperature sensor 9 is provided so as to be exposed to the inside of the inner hook 2 from the hole 11 of the inner lid 4, but the temperature of the back surface of the inner lid 4 is detected as shown in FIG. May be provided.

  According to the present embodiment described above, the first temperature sensor 9 detects the internal temperature of the inner pot 2 and the second temperature sensor 10 detects the temperature of the steam discharged to the steam passage 6, thereby adjusting the pressure regulating valve 5. , That is, the pressure applied to the inside of the inner pot 2 can be detected by the control means 8, and the inside of the inner pot 2 can be cooked in a range where the pressure regulating valve 5 does not operate and at a high boiling point above atmospheric pressure. Therefore, it can maintain 98 degreeC or more required for alpha conversion of rice, and can cook rice deliciously.

  Further, since steam is not discharged from the exhaust port 15 into the room, the humidity in the room is not increased, the environment is not deteriorated, and the wall and furniture are not damaged by condensation in the vicinity. Since the steam is not discharged to the outside, a highly safe rice cooker can be provided without the risk of being burned by the discharged steam.

  Furthermore, since the amount of heating necessary to maintain the atmospheric pressure or higher is adjusted, an energy-saving rice cooker with less power consumption can be provided.

DESCRIPTION OF SYMBOLS 1 Main body 2 Inner hook 3 Lid 4 Inner lid 5 Pressure regulating valve 6 Steam passage 7 Heating means 8 Control means 9 First temperature sensor 10 Second temperature sensor 11 Hole 12 Seal member 13 Bottom temperature sensor

Claims (1)

A main body, an inner hook accommodated in the main body, a lid covering the upper opening of the main body, an inner lid attached to the lid and covering the upper opening of the inner hook, and provided in the inner lid, A pressure regulating valve that restricts the discharge of the steam to maintain a constant pressure, a steam passage that discharges the steam discharged from the pressure regulating valve to the outside of the lid, a heating means for heating the inner pot, and the heating means A rice cooker provided with a control means for controlling the power of
The lid is provided with a first temperature sensor for detecting the temperature inside the inner pot, and the steam passage is provided with a second temperature sensor for detecting discharge of steam from the pressure regulating valve according to a change in temperature,
The control means heats the inner pot with the heating means according to a predetermined rice cooking process, and reduces the supply of electric power to the heating means when the temperature of the first temperature sensor reaches a predetermined temperature. When the second temperature sensor detects the discharge of steam, the pressure in the inner pot is increased within a range in which the pressure regulating operation of the pressure regulating valve is minimized as much as possible by reducing the power supply to the heating means more than the reduction. A rice cooker characterized by controlling the supply of electric power to the heating means so as to keep the pressure higher than the atmospheric pressure.

Images