WO2012132042A1 - 炊飯器および炊飯方法 - Google Patents
炊飯器および炊飯方法 Download PDFInfo
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- WO2012132042A1 WO2012132042A1 PCT/JP2011/067656 JP2011067656W WO2012132042A1 WO 2012132042 A1 WO2012132042 A1 WO 2012132042A1 JP 2011067656 W JP2011067656 W JP 2011067656W WO 2012132042 A1 WO2012132042 A1 WO 2012132042A1
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- rice
- water
- cooking
- unit
- rubbing
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J27/00—Cooking-vessels
- A47J27/004—Cooking-vessels with integral electrical heating means
Definitions
- the present invention relates to a rice cooker and a rice cooking method.
- Patent Document 1 Japanese Patent Laid-Open No. 9-206006
- at the time of cooking rice at least one of (a) transglutaminase and (b) protein partial hydrolyzate, oligosaccharide and sugar alcohol is used in the rice cooking water. It has been disclosed to impart stickiness to cooked rice by adding and cooking rice.
- Patent Document 2 Japanese Patent Application Laid-Open No. 2000-308571 discloses that the sticky rice is subjected to high pressure by increasing the heating temperature to 100 ° C. or higher during the heating stage, thereby improving the sticky physical properties. .
- Non-Patent Document 1 Estimation of the taste of commercially available rice by physicochemical measurement, Yokoe et al., Journal of Japanese Society of Food Science and Technology, Vol 56, No. 5,291-298 (2009)
- Yokoe et al. Journal of Japanese Society of Food Science and Technology, Vol 56, No. 5,291-298 (2009)
- the gloss of rice is caused by the rice component (especially amylopectin) eluted during rice cooking being coated on the rice surface again when the rice is steamed.
- rice ball is water added with rice during cooking, and rice components (sticky starch) are eluted and become cloudy when boiling in the latter half of cooking.
- Patent Document 3 Japanese Patent Laid-Open No. 6-113762
- cooking time can be shortened by using deaerated water from which dissolved gas is removed, while color (yellowing due to browning), gloss ( A cooking method for cooked rice that is excellent in boil-up due to surface cell destruction), viscoelasticity, and nutrients (particularly, reducing sugars) and is resistant to aging is disclosed.
- deaerated water may be used to improve the gloss of cooked rice.
- Patent Document 4 Japanese Patent Application Laid-Open No. 2000-308572 discloses a configuration in which if there is residual water during cooking, a water flow is generated to suppress the generation of water vapor and improve the cooked state.
- Patent Document 5 Japanese Patent Application Laid-Open No. 2008-154661
- temperature unevenness occurs due to the structure of the bread maker, and therefore, when the mechanism of the bread maker is applied to rice cooking, stirring is performed at the above temperature. It is disclosed to eliminate unevenness.
- Patent Document 6 Japanese Patent Application Laid-Open No. 2008-92945 discloses that when cooking rice, starch, which is a rice-modification component, is uniformly dispersed by processing it into granules, maintaining the original gloss and stickiness of rice, It is disclosed to improve and further improve the taste, texture and flavor. And as a cooked rice modifier having those effects, it contains 5% by weight or more and 100% by weight or less of granules on a 0.5 mm (32 mesh) sieve opening, and the heating solubility is 20% or more. A cooked rice modifier having a starch content of 40% by weight or more is disclosed.
- Patent Document 7 Japanese Patent Laid-Open No. 2000-308571 discloses that the sticky physical properties of rice are improved by increasing the heating temperature to 100 ° C. or higher in the heating stage and by exposing it to high pressure during cooking. Is disclosed.
- an object of the present invention is to provide a rice cooker and a rice cooking method for cooking cooked rice with gloss and stickiness.
- an object of the present invention is to provide a rice cooker and a rice cooking method that can cook delicious rice while improving the stickiness of the surface of rice and suppressing the burning of rice and poor heat transfer.
- the rice cooker of this invention is A pot containing rice and water, A rubbing part that rubs rice soaked in water in the pan, and A heating unit for heating the pan,
- the heating control unit that controls the driving of the heating unit and the driving of the rubbing unit are controlled so that the solid content eluted from the rice into the water by the driving of the rubbing unit is equal to or less than a predetermined amount.
- a control device having a rubbing control unit to perform, The heating control unit controls the heating unit to heat the pan so that water containing an elution solid content equal to or less than the predetermined amount is boiled.
- the present inventor releases rice starchy substance into water by rubbing rice soaked in water, and boiled water from which the starchy substance has been dissolved. It was discovered that starch can be returned to rice and cooked rice with gloss and stickiness.
- the control performed by the heating control unit includes the control of heating the pan to the heating unit so that the water containing the eluted starchy material is boiled.
- the starch eluted in the water can be returned to the rice later, and the rice can be cooked with gloss and stickiness.
- the shaved surface-eluting solid component is starch particles containing amylose or amylopectin, and many starch particles can be moved by rice cake cooking. Accordingly, a large amount of sticky substance can be present on the surface of the cooked rice, and as a result, the stickiness of the rice can be improved.
- the rubbing control unit can control the rice rubbing operation and the like in the rubbing unit, so that the eluted solid content eluted in water can be suppressed to a predetermined amount or less. . Therefore, yellowing and scorching of cooked rice can be suppressed.
- the amount of the solid content eluted from the rice into the water is the amount that the rice after cooking does not burn at the bottom of the pan, or the amount that does not cause yellowing in the rice after cooking.
- yellowing and scorching do not occur in the cooked rice.
- the rice cooking method of the present invention comprises: The process of adding rice to water, After the rice soaking step, rubbing the rice soaked in water, and eluting the solid content below a predetermined amount from the rice into the water, And the step of boiling water containing the eluted solids below the predetermined amount while the rice is soaked.
- the rubbing control unit is a part from the time when the rice cooking start information is received from the operation unit to the time when the information indicating the gelatinization start temperature of rice is received from the temperature measurement unit. The mating part is driven.
- the heating control unit does not drive the heating unit for a predetermined time after receiving the information about the start of rice cooking from the operation unit
- the rubbing control unit is the information about the start of rice cooking from the operation unit.
- the rubbing unit is driven in whole or in part from when the heating unit is driven to when the heating unit is driven.
- the heating control unit does not drive the heating unit for a predetermined time from the time when the rice cooking start information is received from the operation unit, and the rubbing control unit is configured after the predetermined time has elapsed.
- the rubbing unit is driven during all or part of the period until the information indicating the gelatinization start temperature of rice is received from the temperature measuring unit.
- Execute water absorption process, start-up process, boiling process, steaming process in order The step of eluting the solid content in water is performed during a period until the start-up step ends.
- the amount of solid content to be eluted in water is 0. 0 of the total weight of rice before cooking when the weight of the solid content of rice eluted in water is three. Between 5% and 1%.
- the rice cooker and the rice cooking method of the present invention it is possible to cook rice with little or no yellowing or scorching even though it is glossy and sticky.
- the rice surface immediately after the dipping process is finished when the rice is rubbed together in water during the rice cooking process (right side in FIG. 15) and when the rice is not rubbed together (left side in FIG. 15). It is a figure which shows the photographed image.
- FIG. 1 is a schematic configuration diagram of hardware of a rice cooker according to an embodiment of the present invention.
- this rice cooker is connected to the main body 1 so that it can be opened and closed by a main body 1 having an opening, an inner pot 31 accommodated in the main body 1, a pivot shaft (hinge shaft) and a latch mechanism 2A (not shown).
- the lid 2 is provided.
- An inner lid 4 is detachably attached to the lid 2.
- the control apparatus 8 which controls operation
- the heater 12 constitutes a heating part
- the temperature sensor 9 constitutes a temperature measuring part
- the stirring part 13 constitutes a rubbing part.
- the casing of the lid 2 receives a steam cylinder 5 for escaping water vapor generated in the inner pot 31 during rice cooking, a display unit 93 for outputting information indicating the operation state of the rice cooker, and a user command.
- a user command For this purpose, there is an operation unit 94 including buttons that are operated.
- the temperature of the contents (rice, water) accommodated in the inner pot 31 is predicted and measured by the temperature sensor 9.
- the temperature sensor 9 is installed so as to be able to measure the temperature of the bottom wall of the inner pot 31. In this embodiment, it is confirmed that the pot bottom wall surface temperature is substantially equal to the temperature of the contents (rice, water) accommodated in the inner pot 31.
- the inner pot 31 can be freely put in and out of the outer pot 32.
- the inner surface of the inner pot 31 that contains the cooked food is subjected to fluororesin processing, and the side surface that contacts the outer pot 32 is coated with hollow glass beads. With the hollow glass bead coat, heat can be confined in the inner pot 31 and the heat storage effect at the time of heat retention or the like can be improved.
- the inner lid 4 covers the opening of the inner pot 31 when the lid 2 is closed.
- the stirring unit 13 includes a rotating unit 14 having a stirring blade 136 provided on the bottom surface of the inner pot 31 and a motor unit (a motor unit 15 described later) for rotating the stirring blade 136 of the rotating unit 14.
- a motor unit a motor unit 15 described later
- the stirring blade 136 rotates in the same plane as the bottom surface of the inner pot 31.
- water and rice are accommodated.
- the stirring blade 136 is rotated, and the stirring blade 136 and the rice are rotated based on the rotation. And the solid content is eluted from the rice.
- a water stream (indicated by a thin arrow in the figure) is generated in the inner pot 31, and the rice grains soaked in the water are rubbed together by the water stream to solidify from the rice. The minute is eluted.
- the display unit 93 and the operation unit 94 are integrally provided on the housing surface of the lid 2. It should be noted that the mounting position of the display unit and the operation unit is not limited to the present embodiment as long as the display information can be visually recognized by the user and the button can be operated.
- the fan 7 is configured to rotate at the time of the warming transition after the completion of cooking.
- air is taken in from the intake port 6A in the direction indicated by the thick arrow in the figure, and the taken air is sent to the inner pot 31 and the outer pot 32 and discharged from the outlet 6B to the outside. It has become.
- the said inner pot 31 is cooled rapidly and the oxidation of the cooked rice in the inner pot 31 at the time of heat retention transfer is suppressed.
- the rice cooker is connected to a commercial power source (not shown) via the power cord 11.
- the power supplied from the commercial power supply is supplied to each unit via the power supply unit 10.
- the heater 12 is used as a heat source for heating and heat retention.
- the heat source is not limited to this, and for example, the heat source is configured by IH (Induction Heating: electromagnetic induction heating).
- IH Induction Heating: electromagnetic induction heating
- both may be arranged so that the IH magnetic field and the magnetic field for the rotating mechanism of the stirring unit do not interfere with each other.
- FIG. 2 is a diagram showing an internal configuration of the control device 8 and its peripheral circuits.
- the control device 8 includes a CPU (Central Processing Unit) 81, a memory 82 for storing programs and data, a timer 83 for measuring time and outputting time-measured data, and each unit and data. And an I / F (Interface) 84 for inputting and outputting.
- CPU Central Processing Unit
- memory 82 for storing programs and data
- timer 83 for measuring time and outputting time-measured data
- I / F Interface
- the CPU 81 energizes the heater 12 to perform a heat generating operation, a heater driving unit 92, an operation unit 94, a display control unit 931 that controls the display operation of the display unit 93, a motor driving unit 95 of the stirring unit 13, and a fan.
- Data is input / output via the I / F 84 to each of the fan drive unit 96, the weight sensor 97 for measuring the weight of the contents in the inner pot 31, and the temperature sensor 9.
- FIG. 3 is a block diagram showing various functions of the CPU 81 and its peripheral parts.
- the CPU 81 includes a course determination unit 71 that selectively determines a rice cooking course indicating a procedure for controlling each part related to the rice cooking process in accordance with a command input via a button operation of the operation unit 94.
- the CPU 81 detects the weight of the rice in the inner pot 31 based on the detection signal of the control procedure determining unit 72 and the weight sensor 97 that searches the memory 82 based on the determined rice cooking course and reads the corresponding control program PR.
- a rotational speed determination unit 74 that determines the rotational speed per unit time of the motor of the stirring unit 13 based on the detection signal of the rice volume determination unit 73.
- the CPU 81 generates a voltage signal for the motor to rotate in accordance with the rotational speed determined by the rotational speed determination unit 74, and supplies the voltage signal to the motor control unit 75 and the heater 12 output to the motor drive unit 95.
- a heater control unit 76 that generates a current signal and outputs the current signal to the heater driving unit 92 is provided.
- the motor control unit 75 controls the agitation motor 131 via the motor drive unit 95.
- a control program PR is stored in advance corresponding to each rice cooking course.
- the control program PR includes information for controlling the current level applied to the heater 12 serving as a heating means in a time series from the start to the end of rice cooking and information for controlling the rotation of the stirring blade 136.
- information for controlling the drive of the motor control unit is included based on the determination result of the rice amount determination unit.
- the weight of rice in the inner pot 31 is measured using the weight sensor 97, but the measurement method is not limited to this.
- the weight of rice in the inner pot 31 may be detected based on the load of a motor that rotates the inner pot 31, and the weight of rice is detected based on the detection result of a sensor that detects the water level in the inner pot 31.
- the user may input the amount of rice from the operation unit 94.
- FIG. 4 is a diagram illustrating the display unit 93 and the operation unit 94. As shown in FIG. 4, the display unit 93 and the operation unit 94 are integrally configured. The display operation by the display unit 93 is controlled by the display control unit 931 based on an instruction from the CPU 81. The display unit 93 displays rice information 931 and 932 for selecting a rice cooking course, and time information 934.
- the operation unit 94 includes a heat retention / cancellation button 941, a reservation button 942 operated when setting reserved rice, a start button 943 operated when starting cooking or determining reserved rice cooking, and a rice cooking course A course button 946 operated when selecting is provided.
- the heat retention / cancellation button 941 and the start button 943 have a built-in lamp, and the lamp is turned on / off according to the button operation.
- the warming / cancellation button 941 is operated when instructing the start of warming or when canceling the warming state. In the heat retaining state, the lamp of the heat retaining / cancellation button 941 is turned on.
- the reservation button 942 is operated when setting the reserved cooking rice.
- the reserved time is displayed as time information 934 on the screen of the display unit 93. Reservations can be made up to 12 hours later.
- the reservation time refers to the time for completing cooking. At the time of rice cooking, the remaining time until the end of rice cooking is displayed by the time information 934 based on the timing data of the timer 83.
- the white rice course of the information 932 is selected by operating the course button 946, the white rice course lamp of the display unit 93 is lit.
- the left and right operation buttons 945 the three cooked rice [sticky (strong), sticky (weak), new rice] patterns shown in the information 931, that is, the timing of rubbing, which will be described later, are shown. You can choose one of them.
- the finished state of cooked rice indicates the degree of stickiness of cooked rice. If the left and right operation buttons 945 are not operated, stickiness (strong) is selected and the stickiness (strong) of the information 931 is displayed in bold. By operating the operation button 945 to the right, the selection target can be switched from stickiness (weak) ⁇ new rice. The characters of the selected information 931 are changed to bold display. After “novice”, which is the stickiness of a new rice, is selected as the degree of stickiness, when the operation button 945 is further operated to the right, all three patterns are displayed in fine characters. In that case, the below-mentioned rubbing by rotation of the below-mentioned stirring blade 136 is omitted.
- the finished state of rice cooking cannot be selected by information 931.
- the high-speed (high-speed rice cooking) course or rice porridge course of information 932 is selected, the white rice course is selected.
- the finished state can be selected by operating the operation button 945. Needless to say, even when the brown rice course of information is selected, the finished state of the cooked rice may be selected based on the information.
- the operation content The rice cooking course selected based on is performed.
- the rice cooking course is determined by a combination of the heating control selected by the information 932 and the rubbing timing selected by the information 931.
- FIG. 5 is a diagram illustrating a mounting structure of the rotating unit 14. As shown in FIG. 5, a concave portion 190 that matches the shape of the rotating portion 14 and a shaft 134 are formed at the center of the bottom surface of the inner pot 31. The rotating part 14 is fitted in the concave part 190. When the inner pot 31 is fitted in a predetermined position, the rotating shaft 134 is connected to the central axis of the stirring blade 136.
- the motor unit 15 is attached at a position corresponding to the concave portion of the inner pot 31 outside the bottom surface of the outer pot 32.
- the driving force for rotation can be transmitted from the motor unit 15 to the rotating unit 14. Since the agitating blade 136 is detachably attached to the rotating portion 14, after use, the rotating portion 14 can be removed from the motor portion 15 or the agitating blade 136 can be removed from the rotating portion 14 to be cleaned. ing.
- FIG. 6 is a diagram illustrating a mechanism for rotating the stirring blade 136.
- a magnet coupling non-contact type stirring mechanism is employed as a mechanism for rotation.
- the motor unit 15 provided outside the bottom surface of the outer pan 32 includes a stirring motor 131 and an outer box 138 connected to the rotating shaft of the stirring motor 131.
- the outer box 138 is a hollow box having a recess 191 that can receive the rotating part 14 and having an outer yoke 132 attached to the inner wall thereof.
- An outer magnet 133 is fixed to the surface of the outer yoke 132 opposite to the inner wall of the outer box 138.
- the rotating portion 14 of the inner pot 31 is attached to the recess 191 so as to be fitted into the recess 191 of the outer box 138.
- the rotating part 14 is coated with Teflon (registered trademark), which is a fluororesin, and the inside is filled and completely waterproof.
- the rotating unit 14 includes an inner yoke 137 that is disposed around the rotation shaft 134 of the inner pot 31 via a gap, and an inner magnet 135 that is disposed in the inner yoke 137 to form a magnetic field.
- the inner magnet 135 and the outer magnet 133 are positioned so as to face each other via a gap, and are attracted to each other by a magnetic force.
- the stirring blade 136 is a substantially circular member made of a resin material (the diameter of the circle is, for example, about 5 to 7 cm), and a cross-shaped convex portion that is orthogonal to the center of the circle is formed on the upper surface of the contour circular shape. Has a mountain shape so that a water flow is easily generated by rotation.
- FIGS. 7A to 7D are diagrams for explaining each step of rice cooking in the present embodiment.
- the vertical axis indicates the water temperature
- the horizontal axis indicates the elapsed time from the start of cooking.
- 7B to 7D show the timing of rice rubbing in each course.
- FIGS. 7A to 7D show a case where rice is cooked in an inner pot 31 containing 3 rice grains in a rice cooker cooked at 5.5 go (1 go for rice is 150 grams). Yes.
- the rice is subjected to a water absorption / gelatinization process in which heating is performed by the heater 12, followed by an immersion process in which the heating by the heater 12 is not performed, and then the boiling is continued.
- a process and a steaming process are performed and completed.
- immersion when the term “immersion” is used, it means “shin” that gradually permeates, not “shin” that is immersed in the liquid.
- the user operates an open / close button related to the mechanism 2A (see FIG. 1) to take out the inner pot 31 from the main body 1 of the rice cooker.
- the following series of operations are performed, and rice and water are stored in the inner pot. Specifically, weigh the amount of rice that we want to cook.
- the unit of rice is goo and koji. 1 go is equivalent to 150 grams and 1 kaki is equivalent to 1500 grams.
- the rice after milling used at home is still washed (polished) with tap water, etc., because the straw layer still remains on the surface. Washing rice is a method of quickly stirring several times while exchanging water in order to remove the surface wrinkle layer.
- the washed rice and a predetermined amount of water (the amount of water added is 1.4 to 1.5 times the weight of the rice) are put into the inner pot 31.
- the rotating part 14 including the stirring blade 136 is attached to the bottom of the inner pot 31 in advance, and the contents (rice or water) do not leak to the outside from the bottom.
- the inner pot 31 containing rice and water is set in the outer pot 32 of the main body 1, and the lid 2 is closed.
- the start button 943 is pressed to start cooking rice.
- the CPU 81 reads the control program PR corresponding to the course from the memory 82 according to the selection. Thereafter, the CPU 81 controls each unit based on the read instruction code of the control program PR. Thereby, cooking rice advances.
- the heater control unit 76 After the user operation, the heater control unit 76 outputs a control signal to the heater driving unit 92, and the heater driving unit 92 energizes the heater 12 based on the control signal. Thereby, the contents of the inner pot 31 are heated. Simultaneously with the start of rice cooking, the temperature measured by the temperature sensor 9 is input to the CPU 81, and the CPU 81 detects the water temperature in the inner pot 31 based on the input temperature. Thereby, temperature management in cooking rice is performed.
- the moisture contained in the rice becomes nearly 30% by dipping at room temperature (20 ° C.) for about 15 minutes, and the dipping process is completed. Then, further water absorption is performed while heating is started to raise the water temperature, and gelatinization of rice is performed at 60 ° C. or higher.
- the heater controller 76 controls the energization amount of the heater 12 based on the temperature detected by the temperature sensor 9 so that the constant temperature is maintained.
- the heater control unit 76 controls the energization amount of the heater 12 via the heater driving unit 92 so that the boiling of water can be continued for 15 minutes or more.
- the excess steam in the inner pot 31 during boiling is exhausted to the outside as needed through a small hole (not shown) of the lid 2 and the steam cylinder 5. After boiling for 15 minutes, there is almost no free water in the inner pot 31, and the rice is a rice in which starch is fully alphatized. Thereafter, the process proceeds to the steaming process.
- the heater control unit 76 controls the heater 12 so that the temperature does not become 90 ° C. or lower. At this stage, the rice balls that remain slightly on the surface of the rice are absorbed by the rice, so you can cook delicious and shiny rice. When the steaming process is completed, rice cooking is completed.
- the subsequent boiling duration step and the steaming step temperature control is performed in accordance with each purpose.
- the water absorption step after the dipping step is performed at a water temperature from room temperature to 60 ° C. or lower
- the gelatinization step is performed at a water temperature of 60 ° C. or higher up to 100 ° C.
- the boiling duration step is performed by maintaining 98 ° C. or higher for 20 minutes or longer.
- the process is basically carried out by maintaining at 90 ° C. or higher for 15 minutes or longer.
- rice grains soaked in water are rubbed together in the rice to cook it into sticky / glossy rice.
- the surface portion of the rice grain is smoothed and the starchy surface of the scraped rice surface is transferred to the water side.
- the period of rubbing can be said to be a starch transfer process in which the starch of rice is transferred to the water side.
- the components of the shaved surface are starch particles containing amylose and amylopectin, and can be included as starch particles in the rice at the time of cooking, so the amount of sticky substance on the surface of the cooked rice may be increased it can.
- the stickiness of cooked rice can be improved. Further, since the surface of the rice grain is smooth, light is easily reflected on the surface of the rice, and the gloss of the rice can be improved. Moreover, since the amount of amylopectin for coating the surface increases, the gloss after cooling after cooking can be improved.
- a cross shape provided on the bottom surface of the inner pot 31 during the period when the water temperature in the inner pot 31 is equal to or lower than the gelatinization start temperature after the start of rice cooking.
- FIG. 7 (B) to (D) show the rubbing timing in association with the temperature change with the lapse of time of rice cooking in FIG. 7 (A).
- the rubbing timing is preferably changed depending on the state or variety of rice. For example, since fresh rice with a lot of moisture is more easily scraped by the rubbing force, it is better to shorten the rubbing, for example, as long as the dipping process is performed as shown in FIG.
- the temperature of the soaking process and the water temperature in the water absorption and gelatinization process are 60 ° C. It was found that by performing rubbing in almost all of the following periods, strong tenacity can be obtained and the tenacity can be made closer to Koshihikari.
- the temperature is hunted for a certain time around 55 ° C. in the water absorption / gelatinization process, and the temperature is maintained at 55 ° C. for a certain time. If it does in this way, the enzyme activity of rice can be raised and the effect which promotes the production
- the water absorption / gelatinization process is started without going through the dipping process, and immediately after the water absorption / gelatinization process, the temperature is increased to the boiling duration process at once. May be. In this case, the elasticity of the rice is increased. In this case as well, the stirring operation is performed below the gelatinization temperature.
- the rotational speed of the stirring blade 136 in order to avoid the rice itself from cracking or being excessively scraped off by rubbing during the period shown in FIGS. 7 (B) to (C), the rotational speed of the stirring blade 136, That is, it was found that the rotation speed of the stirring motor 131 should be changed according to the amount of rice stored in the inner pot 31.
- the rotation speed is 500 rpm (number of revolutions / minute), and in the case of 5 go, it is preferably 750 rpm.
- the operation of the stirring motor 131 during the rubbing period that is, the rotation of the stirring blade 136 may be continuous or intermittent.
- an operation rate per unit time (10 seconds) for example, when the operation rate is 20% in the case of intermittent operation in which the operation is stopped for 2 seconds and stopped for 8 seconds, according to the experiment, in order to obtain the effect of the above-described rubbing operation It was found that the rate is preferably 36% to 100%. Moreover, if it was at least 36%, the knowledge that the water temperature in the inner pot 31 was uniformed was also obtained.
- the present inventor has also obtained other knowledge about the operation of the stirring motor 131, that is, the rotation of the stirring blade 136, other than the above described with reference to FIG.
- FIG. 8 shows the results of a sensory test in the case where the eluted solid content was changed when the rice was rubbed together in water during the dipping process and the water absorption process (60 ° C. or lower) in the present invention.
- the rice used for the test is Hinohikari and Koshihikari. In addition, this experiment was conducted with 3 rice (450 g). The sensory test investigates whether it is preferred over those that do not elute starch at all. In FIG. 8, ⁇ indicates a case where it is preferred, and ⁇ indicates a case where it is not preferred.
- the range in which the state of cooked rice can be improved was in the range of 1.8 g to 4.0 g as an elution amount.
- the elution amount is 1.2 g or less, it is not preferred, and when it exceeds 5.0 g, it causes burning.
- the rice cooking process flowchart is stored in the memory 82 as the control program PR in advance according to the rice cooking course. Which control program PR is used to perform rice cooking is determined based on the content of the user operating the operation unit 94 in the preprocessing.
- the user sets the inner pot 31 containing a predetermined amount of rice and water in the outer pot 32 of the main body 1, closes the lid 2, and then operates the operation unit 94 to start cooking.
- the course determination unit 71 detects the operation content of the operation unit 94 and determines the rice cooking course selected based on the operation content.
- the determined rice cooking course is output to the control procedure determination unit 72. The above is the preprocessing.
- FIG. 9 is an example of a flowchart of the rice cooking procedure when “white rice + sticky (strong) course” is selected as the rice cooking course.
- the control procedure determination unit 72 searches the memory 84 for the control program PR corresponding to the information on the rice cooking course given in the preprocessing and reads it (step S (hereinafter, “S”)). , Simply abbreviated as S) 101).
- the CPU 81 executes the instruction code of the read control program PR and controls each part, so that the rice cooking according to the selected rice cooking course is performed.
- the rice quantity determination unit 73 detects the amount of rice stored in the inner pot 31 based on the detection data of the weight sensor 97, and provides the detected rice quantity data to the rotation speed determination unit 74.
- the rotation speed determination unit 74 determines the rotation speed and the stirring time of the stirring blade 136 based on the given rice amount data, and outputs it to the motor control unit 75 (S103).
- the rotational speed determination unit 74 constitutes a rubbing control unit.
- a table in which the amount of rice, the number of rotations, and the stirring time are associated with each other is stored in the memory 84 in advance. Therefore, by searching the table based on the detected amount of rice data, the corresponding number of rotations and stirring Time can be read.
- the stirring motor 131 rotates at an operation rate of at least 36%. Further, in the embodiment shown in FIG. 9, by appropriately adjusting the rotation speed of the stirring motor, an appropriate amount of rice driven by the stirring blade 136 (meaning an appropriate amount that does not cause scorching or yellowing). When the elution of the solids ends by the end of the dipping process, that is, a ⁇ 15 minutes from the start of the dipping process (15 minutes is an example of the dipping time) and stirring (rubbing rice) ) Will be described.
- the motor control unit 75 outputs a control signal based on the given rotational speed to the motor drive unit 95.
- the motor drive unit 95 energizes the stirring motor 131 based on the control signal.
- the stirring motor 131 rotates at a speed corresponding to the amount of rice.
- the stirring blade 136 rotates in conjunction with the rotation of the motor, and the rice rubbing (S104a) and the dipping process (S105a) start simultaneously.
- the dipping process starts (S105a).
- the time count of the dipping time is started by the timer 83 (S106a). If the motor control unit 95 determines that the time from the driving of the stirring motor has passed a minutes based on the measurement data from the timer 83 (YES in S129a), the motor control unit 95 stops the rotation of the stirring motor, and the rubbing unit Is stopped (S130a), and the measurement of the immersion time (T1) is continued by the timer 83 (S131a). In this way, finish the rubbing of rice properly, elute the appropriate amount of rice starch in water so that the cooked rice has stickiness and gloss, but does not burn or yellow To do.
- the heater control unit 76 determines that the immersion time has passed 15 minutes based on the timing data from the timer 83 (YES in S105)
- the heater control unit 76 starts energizing the heater 12 via the heater driving unit 92 (S108a). .
- the heating of the contents (rice and water) of the inner pot 31 is started.
- the heater control unit 76 constitutes a heating control unit.
- the heater control unit 76 measures the pot bottom wall surface temperature K1 of the inner pot 31 based on the temperature detected by the temperature sensor 9 (S110a). Here, it is assumed that the pot bottom wall surface temperature K1 is equal to the water temperature of the inner pot 31.
- the heater control unit 76 When the heater control unit 76 detects that the pan bottom wall surface temperature K1 indicates a predetermined temperature, for example, 55 ° C. (YES in S111a), the heater control unit 76 causes the heater through the heater driving unit 92 so that the temperature detected by the temperature sensor 9 is maintained at the predetermined temperature. 12 is controlled (S112a).
- the heater control unit 76 detects that the pan bottom wall surface temperature K3 indicates 103 ° C. based on the temperature detected by the temperature sensor 9 (YES in S120), the heater control unit 76 stops energizing the heater 12 via the heater driving unit 92. . Thereby, the heating operation with respect to the inner pot 31 is stopped (S121).
- the CPU 81 After that, it shifts to the steaming process.
- the CPU 81 After stopping the heating operation (ending the boiling continuing process), the CPU 81 starts measuring the steaming time T3 based on the time data of the timer 83 in order to steam the cooked rice in the inner pot 31 (S122).
- the pan bottom wall surface temperature K4 is detected based on the temperature detected by the temperature sensor 9 (S123).
- the heater control unit 76 compares the pan bottom wall temperature K4 based on the temperature detected by the temperature sensor 9 with 95 ° C, and based on the comparison result, the heater bottom wall temperature K4 does not fall below 95 ° C.
- the energization amount of the heater 12 is controlled via the drive unit 92 to control the heating amount (S123 to S125).
- the CPU 81 determines whether or not the steaming time T3 indicates 15 minutes based on the timing data of the timer 83 (S126). When the steaming time T3 indicates 15 minutes, that is, when it is determined that 15 minutes have passed since the start of the steaming process (YES in S126), the rice cooking process is terminated (S127). At the end of rice cooking, the CPU 81 may output a sound or message notifying the end of rice cooking via a voice output unit (not shown).
- the heater control unit 76 operates to control the energization amount of the heater 12 via the heater driving unit 92 to keep the cooked rice in the inner pot 31 warm (S128).
- the CPU 81 lights the lamp of the heat retention / cancellation button 941 during the heat retention process to notify that it is in the heat retention state.
- the fan 7 is rotated via the fan drive unit 96 to rapidly cool and suppress the oxidation of the cooked rice.
- stirring is performed during the period from the start of rice cooking until the water temperature in the inner pot 31 reaches the gelatinization start temperature (60 ° C.).
- the blade 136 is continuously or intermittently driven at a predetermined rotational speed for a predetermined time.
- FIG. 10 is an example of a flowchart of the rice cooking procedure when “white rice + stickiness (weak) course” is selected as the rice cooking course.
- the rice cooking process according to the selected rice cooking course is performed by executing the command code of the control program PR corresponding to the rice cooking course determined in the pre-processing, and controlling each part.
- an appropriate amount of rice meaning an appropriate amount that does not cause scorching or yellowing
- stirring starts from the first time when the temperature in the water supply process is maintained at 55 ° C.
- stirring is completed when ⁇ 15 is described. If it does in this way, when temperature is maintained at predetermined temperature by stirring, local variation in temperature can also be controlled.
- the dipping process starts (S204b).
- the timer 83 starts the time count of the dipping time T1 (S205b). If the motor control unit 75 determines that the immersion time T1 indicates 15 minutes based on the time count value (YES in S206b), the heater control unit 76 energizes the heater 9, and the water / Rice heating is started (S208b). When heating is started, the water absorption / gelatinization process is started (S209b).
- the heater control unit 76 measures the pan bottom wall surface temperature K1 with the temperature sensor 9 (S210b), and detects that the pan bottom wall surface temperature K1 has reached a predetermined value, for example, 55 ° C. (S211b), the temperature sensor. 9, the energization amount of the heater 9 is controlled via the heater driving section 92 so that the detected temperature of the predetermined temperature 9 indicates a predetermined temperature (S212b), and the measurement of the water absorption time T2 is started based on the timing data of the timer 83 (S213b) ). At the same time, the stirring motor 131 is rotated via the motor drive unit 95. Thereby, the rotation of the stirring blade 136 is started, and stirring of the soaked rice in the inner pot 31 is started (S229b).
- stirring by the stirring blade 136 for a predetermined number of rotations and a predetermined time is continued during the period from the end of the soaking process until the water temperature in the inner pot 31 reaches the gelatinization start temperature. Or it is done intermittently. In this way, by properly finishing the rubbing of the rice, the appropriate amount of starch in the rice is eluted in the water so that the cooked rice is sticky and shiny, but not burnt or yellowed. ing.
- FIG. 11 is an example of a flowchart of the rice cooking procedure when “white rice + new rice course” is selected as the rice cooking course.
- the CPU 81 appropriately adjusts the rotation speed of the stirring motor based on the signal from the weight sensor 97, so that an appropriate amount of rice (burned or yellowed) by driving the stirring blade 136 is obtained.
- an appropriate amount of rice burned or yellowed
- the motor control unit 75 starts the rotation of the stirring motor 131 via the motor driving unit 95 to start stirring of rice and water in the inner pot 31 and the dipping process is started (S304c, S305c).
- the timer 83 starts the time count of the immersion time T1 (S306c), and when the motor control unit 75 determines that the immersion time T1 indicates 15 minutes based on the time count value (S307c).
- step S308c since the dipping process ends, the stirring motor 131 is stopped via the motor drive unit 95. Thereby, the stirring operation in the inner pot 31 is stopped.
- the heater 12 is energized and heating is started (S309c).
- the water absorption / gelatinization process is started (S310c).
- the pan bottom wall surface temperature K1 is measured based on the temperature detected by the temperature sensor 9 (S311c).
- the heater control unit 76 causes the heater driving unit 92 so that the temperature detected by the temperature sensor 9 indicates the predetermined temperature.
- the measurement of the water absorption time T2 based on the timing data of the timer 83 is started (S314c).
- heating with full power is started (S118).
- the stirring blade 136 is provided so as to rotate in the same plane as the bottom surface of the inner pot 31, but the configuration and mounting mode of the stirring member are not limited to this.
- Drawing 12 is a figure showing the composition of the stirring part of the rice cooker of other embodiments.
- 401 is a rice cooker body
- 402 is a lid that can be opened and closed at the top of the pan
- 402A is an open / close button.
- Reference numeral 404 denotes an inner lid
- reference numeral 405 denotes a steam cylinder
- reference numeral 407 denotes a fan.
- Reference numeral 431 denotes an inner pot
- 432 denotes an outer lid
- 408 denotes a control device.
- 409 is a temperature sensor that detects the pan temperature
- 410 is a power source
- 411 is a power cord
- 412 is a heater that heats the rice cooker
- 433 is rice and water.
- Reference numeral 531 denotes a motor for rotating the stirring blade
- 538 denotes a stirring blade shaft storage case for storing the shaft of the propeller type stirring blade
- 539 denotes a propeller type
- the stirring blade shaft storage case 538 is present on the upper portion of the shaft that holds the propeller type stirring blade 539.
- the stirring blade shaft storage case 538 can store shafts in multiple stages.
- the stirring blade shaft storage case 538 is configured to store the shaft when the lid is opened and closed.
- the shaft for holding the stirring blade 539 at the tip is connected to the motor shaft of the stirring motor 531 and is extendable.
- the inner lid 31 is provided to seal the rice cooker with the lid 402 closed.
- the inner lid 31 has a small hole on the surface so that steam can be exhausted when boiling.
- the steam cylinder 405 is provided for exhausting excess steam during the boiling process.
- the stirring member is integrally attached to the lid 402.
- the stirring member includes a stirring motor 531 incorporated in the lid 402, a propeller-type stirring blade 539 connected to the motor shaft of the stirring motor 531, and a shaft (connected to the motor shaft) that holds the propeller-type stirring blade 539.
- the case 538 is accommodated by extending or contracting the shaft holding the propeller-type stirring blade 539 or extending toward the bottom surface of the inner pan 431.
- the shaft is housed in the case 538.
- the shaft holding the stirring blade 539 extends from the case 538 toward the bottom surface of the inner pan 431 only during the stirring period shown in FIGS. 539 is positioned in the immersed rice and rotates. During other periods, the shaft is housed in the case 538.
- the agitation motor 531 rotates at the number of rotations and the drive time corresponding to the amount of rice as described above. Since the propeller-type agitating blade 539 rotates in conjunction with the rotation of the motor, a water flow is generated in the inner pan 431, and the rice moves in the water and is rubbed with it. Thereby, the effect of rubbing is acquired similarly to the case where the stirring blade 536 provided in the bottom face of the inner pot 431 is used.
- the stirring blade 539 is a propeller-type stirring blade, and has a structure in which a plurality of blades are attached obliquely to the axis.
- the stirring blade 539 is configured to scoop up water at an angle, so that only the water flow is generated and the rice is not impacted.
- the stirring blade 539 can be removed from the motor and cleaned after use.
- the heater 412 is energized by the command of the control device 408, and rice cooking is started. Simultaneously with the start of rice cooking, the temperature sensor 409 is also activated to perform temperature management for each step of rice cooking.
- the water content of the rice becomes nearly 30% by soaking at room temperature for about 20 minutes, and the water absorption process is completed. Thereafter, while the water temperature is raised, further water absorption and gelatinization occurs at 60 ° C. or higher.
- the stirring blade 539 is driven at an appropriate rotational speed for an appropriate time to elute an appropriate amount of solid content from the rice into water.
- Water temperature is changed by a temperature sensor that detects the pan temperature. As described above, when hunting is performed at a certain constant temperature, the constant temperature is maintained by cooperation between the temperature sensor and the control circuit.
- the control device 408 controls the power supply heater 412 so that the boiling can be continued for 15 minutes or more.
- the excess steam during boiling is exhausted to the outside through a small hole in the inner lid 404 and a steam cylinder 405 as necessary.
- the rice is fully ⁇ -ized rice.
- the heater 412 is controlled so that the temperature does not become 90 ° C. or lower. At this stage, the rice cake slightly left on the surface is absorbed by the rice, and the rice is transformed into a delicious and shiny rice.
- cooking is complete.
- the surface is slightly shaved by rubbing the rice together in part during the water absorption process and the startup process, and the shaved rice flour moves to the water side. Since these fine particles contain starch particles, they become sticky by heating.
- the water that was present around the rice returns to the surface of the rice and becomes part of the rice.
- the “rice cake” containing more starch particles than before is coated on the surface of the rice, so that the stickiness can be improved.
- the stirring part mentioned above was a structure which a wing
- a motor is connected to the turntable via a shaft, and the inner pan is placed on the turntable.
- the rotating table rotates through the shaft, and the inner pan placed on the rotating table rotates.
- rice and water are stirred while flowing.
- the inventors measured the stickiness of the cooked rice with a texture (mastication simulation) meter when the rice was not rubbed at all and when the rice was rubbed.
- FIG. 13 is a diagram showing the results of one test example of the mastication simulation test.
- Two rice balls were made according to the above procedure. Rice used for rice balls was cooked at a water addition ratio of 1.5 times using Shiga Prefecture Kinuhikari. One rice ball is a rice ball cooked using a conventional rice cooker (no rubbing), and the other rice ball is a rice rice that has undergone a rice cooking process in which rubbing is performed at the timing shown in FIG. 7 (B). Rice balls with matching).
- These rice balls are used to evaluate the cooked rice (stickiness strength). Specifically, a ⁇ 16 mm cylindrical plunger is stabbed in the center of each of the two rice balls, and after 90% penetration and 90% deformation, the negative load value when lifting is measured at the same speed. .
- the load speed is 1 mm / s.
- the plus side load value was hardness
- the minus side load value peak was stickiness of rice grains
- the minus side area was stickiness due to adhesion
- the finish (stickiness strength) was evaluated.
- the sticky load value is an indicator that the stickiness increases as the negative value increases.
- the variation E of the stickiness weight for every sample is also shown.
- FIG. 14 is a diagram showing the timing of rubbing rice in the rice cooker of the modification.
- a period in which the rices are rubbed together is shown below the graph in which the vertical axis indicates temperature and the horizontal axis indicates time.
- water supply step and start-up step are used instead of the terms immersion step and water supply / gelatinization step shown in FIG.
- Cooking rice is a water absorption process, a startup process, a boiling process, and a steaming process, and temperature control is performed according to each purpose.
- the water absorption step refers to a period in which the water temperature is from room temperature to 60 ° C. or less
- the startup step refers to a period from that to 100 ° C. above.
- the boiling step is basically performed at 98 ° C. or higher for 20 minutes or longer
- the steaming step is basically performed at 90 ° C. or higher for 15 minutes or longer.
- a propeller-type stirring blade provided in the water is rotated by a rotary motor to generate a water flow, and the rice moves accordingly in the water.
- the temperature is hunted at around 55 ° C. during the water supply period. In this way, the enzyme activity of rice is cited to promote sugar production.
- the timing of rubbing can be changed depending on the state of rice. For example, a new rice with a lot of moisture is more likely to be cut with the same rubbing force, so it is better to shorten the rubbing timing.
- Kirara 394 with little stickiness
- it can be made closer to Koshihikari by rubbing in all of the water absorption process and the startup process.
- the surface can be sufficiently smoothed only by performing only the water absorption process, so that it is also possible to eliminate the subsequent start-up process.
- Koshihikari is sticky, it can contribute to the improvement of stickiness sufficiently even by rubbing from the heater operation at the initial stage of rice cooking to the start-up process. (Example in the lower part of FIG. 1).
- FIG. 15 shows a case where rice is rubbed together in water during the rice cooking process according to the present embodiment (right side in FIG. 15) and a case where rice is not rubbed together (left side in FIG. 15).
- This is a photograph of the surface of rice.
- the same type of rice of the same type is polished under the same conditions and then immersed in water (water temperature 20 ° C.) with a water ratio of 1.5 times for 20 minutes.
- the left side of FIG. 15 has no unevenness in the color tone of the rice surface because it is not rubbed during the soaking period, and is not very glossy.
- FIG. 15 indicates a case in which the agitation period (20 minutes) was rubbed for 10 minutes (the stirring motor 131 was operated at 500 rpm and an operation rate of 80%), but there was little unevenness in color tone. It can be seen that the surface is smoother and the surface is slightly shaved and smoothed. For reference, when the moisture content of the rice was measured, it was 28.7% in the case without rubbing and 29.2% with rubbing.
- the rice cooker of the said embodiment after starting a rice cooking process, in the period when the water temperature of the inner pot 31 is below gelatinization start temperature, the surface is shaved a little by rubbing rice together, It is moved to the water side and boiled without removing any water containing the shaved rice flour. Therefore, these rice flours contain starch particles and thus become sticky by subsequent heating.
- the water that was present around the rice returns to the surface of the rice and becomes part of the rice, so it contains more starch particles than before. ”And the stickiness of rice can be improved.
- the rice surface is made uniform by rubbing, it is possible to uniformly coat the rice surface on the rice surface.
- the said motor control part 95 controls the rubbing operation
- the rubbing unit is preferably driven during a part of the period from the beginning of rice cooking until the rice is gelatinized (60 ° C.) (this period can be driven in any period).
- the rubbing portion may be driven after the start of gelatinization.
- the storage memory stores a correspondence table between the weight of the weight rice measured based on the weight sensor and the predetermined solid content to be shaved from the rice, and the weight sensor stores the correspondence table.
- the rotation speed of the stirring blade and the driving time of the stirring blade were determined so that the solid content corresponding to the weight measured based on the weight was scraped from the rice.
- the correspondence table is a brand of rice, for example, sticky rice, new rice, old rice and weak sticky rice, respectively, and a predetermined solid amount to be shaved is determined based on each mass. Well, simply, any rice needs only one amount of shaving corresponding to the mass.
- this correspondence table may be distinguished between non-washed rice and non-washed rice, and may be distinguished for each representative brand such as Koshihikari, standard rice, Sasanishiki, and Akitakomachi.
- the lower limit of the weight of the eluted solid content of the rice eluted in water with respect to the total weight of the rice before cooking is 0.2%, 0.3%, 0.4%. 0.6%, 0.7%, 0.8%, 0.9%, 1.0%, or other percentages.
- the upper limit of the weight of the eluted solid content of the rice eluted in water with respect to the total weight of the rice before cooking is 0.7%, 0.8%, 0.9% It may be 1.1%, 1.2%, 1.3%, 1.4%, 1.5% or other percentages.
- an amount that does not cause scorching after cooking can be selected depending on the properties of each rice to be cooked.
- the quantity which does not yellow after cooking can be selected by the property of each rice to cook.
- the mass of the rice cooked was measured with the weight sensor, the structure which a user inputs directly the mass of the rice cooked may be sufficient.
- the rubbing portion has a configuration in which the rubbing portion is fixed to the lid, but there is a propeller type stirring blade that exists at the tip of the shaft extending vertically from the lid.
- the rubbing portion has a configuration in which rice is stirred at the tip of an up and down movable arm that can be accommodated inside the lid, and the arm is accommodated inside the lid by the centrifugal force of the arm. It may be a simple configuration.
- the drive time and the rotation speed of the rubbing unit are appropriately controlled in order to keep the solid content of rice eluted in water below a predetermined amount.
- one of the driving time and the rotational speed may be made constant and the other may be changed. Both the rotation speed and the rotation speed may be varied.
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Abstract
Description
米と、水とを収容する鍋と、
上記鍋内の水に浸された米を擦り合わせる擦り合わせ部と、
上記鍋を加熱する加熱部と、
上記加熱部の駆動を制御する加熱制御部と、上記擦り合わせ部の駆動によって上記米から水中に溶出する溶出固形分が予め定められた量以下になるように、上記擦り合わせ部の駆動を制御する擦り合わせ制御部とを有する制御装置と
を備え、
上記加熱制御部は、上記予め定められた量以下の溶出固形分を含んだ水が沸騰するように、上記加熱部に上記鍋を加熱させる制御を行うことを特徴としている。
上記米から水中に溶出する溶出固形分の量は、炊飯後の米が、上記鍋の底で焦げ付かない量、または、炊飯後の米に黄変が生じない量である。
米を水にひたす工程と、
米浸し工程の後、水に浸された米を擦り合わせて、上記米から予め定められた量以下の固形分を水中に溶出させる工程と、
上記米が浸されていると共に、上記予め定められた量以下の溶出固形分を含んだ水を沸騰させる工程と
を備えることを特徴としている。
上記鍋の内部の温度を計測するための温度計測部と、
炊飯開始の情報を入力する操作部と
を備え、
上記制御装置は、上記温度計測部が計測した温度情報に基づいて、上記加熱部の駆動と、上記擦り合わせ部の駆動とを制御するようになっている。
上記擦り合わせ制御部は、上記操作部からの炊飯開始の情報を受けたときから、上記温度計測部から米の糊化開始温度を表す情報を受けたときまでの間の一部で、上記擦り合わせ部を駆動するようになっている。
上記加熱制御部は、上記操作部からの炊飯開始の情報を受けたときから予め定められた時間、上記加熱部を駆動しない一方、上記擦り合わせ制御部は、上記操作部からの炊飯開始の情報を受けたときから、上記加熱部が駆動するまでの間の全部または一部で、上記擦り合わせ部を駆動するようになっている。
上記加熱制御部は、上記操作部からの炊飯開始の情報を受けたときから予め定められた時間、上記加熱部を駆動しないと共に、上記擦り合わせ制御部は、上記予め定められた時間経過後から上記温度計測部から米の糊化開始温度を表す情報を受けたときまでの期間の全部または一部の間で、上記擦り合わせ部を駆動するようになっている。
吸水工程、立ち上げ工程、沸騰工程、蒸らし工程を順次実行し、
上記固形分を水中に溶出させる工程は、上記立ち上げ工程終了までの期間に行われるようになっている。
上記固形分を水中に溶出させる工程で、水中に溶出させる固形分の量は、水中に溶出される米の溶出固形分の重量が、3合の場合、米の炊飯前の総重量の0.5%から1%の間である。
図2に示すように、上記制御装置8は、CPU(Central Processing Unit)81と、プログラムおよびデータを格納するメモリ82と、時間を計時して計時データを出力するタイマ83と、各部とデータを入出力するためのI/F(Interface)84とを備える。
図3に示すように、上記CPU81は、操作部94のボタン操作を介して入力する命令に従って炊飯工程に係る各部を制御するための手順を指す炊飯コースを選択的に決定するコース判定部71を備える。また、上記CPU81は、決定された炊飯コースに基づきメモリ82を検索して対応する制御プログラムPRを読出す制御手順決定部72、重量センサ97の検出信号に基づき内鍋31の米の重量を検出する米量判定部73、および、米量判定部73の検出信号に基づき攪拌部13のモータの単位時間当たりの回転数を決定する回転数決定部74を備える。また、上記CPU81は、回転数決定部74で決定された回転数に従ってモータが回転させるための電圧信号を生成して、モータ駆動部95に出力するモータ制御部75、および、ヒータ12に供給する電流信号を生成してヒータ駆動部92に出力するヒータ制御部76を備える。
図4に示すように、表示部93と、操作部94とは、一体的に構成されている。表示部93による表示動作は、CPU81の指示に基づき表示制御部931により制御される。表示部93には、炊飯コースを選択するための米の情報931および932と、時間情報934とが表示されるようになっている。
図5に示すように、内鍋31の底面の中央部には、回転部14の形状に適合する凹部190と、軸134とが形成されている。回転部14は、当該凹部190に嵌め込まれるようになっている。内鍋31が所定の位置に嵌め込まれると、回転軸134は、攪拌翼136の中心軸に連接されるようになっている。
図6に示すように、本実施形態では、回転のための機構として、マグネットカップリング非接触式攪拌機構を採用している。具体的には、外鍋32の底面外部に設けられたモータ部15(図5参照)は、攪拌用モータ131と、攪拌用モータ131の回転軸に接続される外箱138とを有する。
図12において、401は、炊飯器本体であり、402は、鍋上部に開閉可能に設置された蓋体であり、402Aは、開閉ボタンである。また、404は、内蓋であり、405は、蒸気筒であり、407は、ファンである。また、431は、内鍋であり、432は、外蓋であり、408は、制御装置である。また、409は、鍋温度を検知する温度センサであり、410は、電源であり、411は、電源コードであり、412は、炊飯鍋を加熱するヒータであり、433は、米および水である。また、531は、攪拌翼を回転させるモータであり、538は、プロペラ型の攪拌翼の軸を収容するための攪拌翼軸収納ケースであり、539は、モータに直結したプロペラ型攪拌翼である。
先ず、炊飯鍋をセットし、蓋体を閉じる。この状態で、軸収容ケースからプロペラ型攪拌翼が伸び、蓋体から伸びた攪拌翼は米とともに水に漬かるようになっている。
また、例えば、新米時期のやわらかい米の場合は、吸水工程のみのすりあわせを行うだけでも十分に表面を平滑化できるので、後半の立ち上げ工程のすり合わせはなしにすることも可能である。(図1中段の例)
また、例えば、粘りのつよいコシヒカリであれば、炊飯初期のヒータ稼働から、立ち上げ工程までの擦り合わせだけでも、十分粘りの向上に寄与できる。(図1下段の例)。
12 ヒータ
31 内鍋
32 外鍋
93 表示部
94 操作部
71 コース判定部
72 制御手順決定部
73 米量判定部
74 回転数決定部
75 モータ制御部
76 ヒータ制御部
131 攪拌用モータ
136 攪拌翼。
Claims (3)
- 米と、水とを収容する鍋(31,404)と、
上記鍋(31,404)内の水に浸された米を擦り合わせる擦り合わせ部(13)と、
上記鍋(31,404)を加熱する加熱部(12)と、
上記加熱部(12)の駆動を制御する加熱制御部(76)と、上記擦り合わせ部(13)の駆動によって上記米から水中に溶出する溶出固形分が予め定められた量以下になるように、上記擦り合わせ部(13)の駆動を制御する擦り合わせ制御部(74)とを有する制御装置(8,408)と
を備え、
上記加熱制御部(76)は、上記予め定められた量以下の溶出固形分を含んだ水が沸騰するように、上記加熱部(12)に上記鍋(31,404)を加熱させる制御を行うことを特徴とする炊飯器。 - 請求項1に記載の炊飯器において、
上記米から水中に溶出する溶出固形分の量は、炊飯後の米が、上記鍋(31,404)の底で焦げ付かない量、または、炊飯後の米に黄変が生じない量であることを特徴とする炊飯器。 - 米を水に浸す工程と、
米浸し工程の後、水に浸された米を擦り合わせて、上記米から予め定められた量以下の固形分を水中に溶出させる工程と、
上記米が浸されていると共に、上記予め定められた量以下の溶出固形分を含んだ水を沸騰させる工程と
を備えることを特徴とする炊飯方法。
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JPH09276140A (ja) * | 1996-04-11 | 1997-10-28 | Nakanishi Seisakusho:Kk | 炊飯釜内攪拌装置 |
JP2000308572A (ja) * | 1999-04-28 | 2000-11-07 | Matsushita Electric Ind Co Ltd | 炊飯器 |
JP2011072706A (ja) * | 2009-10-01 | 2011-04-14 | Sharp Corp | 炊飯器および炊飯器の制御方法 |
WO2011068078A1 (ja) * | 2009-12-01 | 2011-06-09 | シャープ株式会社 | 炊飯器 |
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JP4383233B2 (ja) * | 2004-04-08 | 2009-12-16 | 三洋電機株式会社 | 自動製パン器 |
CN2796592Y (zh) * | 2004-09-14 | 2006-07-19 | 王冬雷 | 一种多功能电子模糊控制电饭煲 |
JP2007181542A (ja) * | 2006-01-06 | 2007-07-19 | Matsushita Electric Ind Co Ltd | 調理器 |
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JPH09276140A (ja) * | 1996-04-11 | 1997-10-28 | Nakanishi Seisakusho:Kk | 炊飯釜内攪拌装置 |
JP2000308572A (ja) * | 1999-04-28 | 2000-11-07 | Matsushita Electric Ind Co Ltd | 炊飯器 |
JP2011072706A (ja) * | 2009-10-01 | 2011-04-14 | Sharp Corp | 炊飯器および炊飯器の制御方法 |
WO2011068078A1 (ja) * | 2009-12-01 | 2011-06-09 | シャープ株式会社 | 炊飯器 |
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