JP2014200348A - Rice cooker - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent rice from being cooked inferiorly in taste due to water .SOLUTION: A rice cooker includes: a rice cooking pot into which cooking rice and water are put; rice feeding means (push-out member) for feeding cooking rice; water feeding means having a water storage tank for storing water and water supply means (water supply member); and rice cooking control means (microcomputer) for executing rice cooking processing after performing a water supply process for supplying water in the rice cooking pot, a sterilization process S29 for heating the water by heating means (induction heating coil), and heating/sterilizing the water in the rice cooking pot, and a rice feeding process S30 for feeding cooking rice after the sterilization process S29.

Description

  The present invention relates to a rice cooker that can automatically supply rice and water.

  A rice cooker cooks cooked rice by setting cooked rice and water in a detachable rice cooker and heating the rice cooker with heating means. However, when setting rice and water in a rice cooker, it is necessary to weigh each of them, and this weighing work has been a burden on the user. In addition, because the cooked state (hardness) changes due to a slight excess or deficiency of rice and water set in the rice cooking pan, it is difficult to always realize rice cooking according to the user's preference.

  Patent Document 1 describes a fully automatic rice cooker that automatically supplies rice rice and water to a rice cooker to enable rice cooking. This rice cooker includes a rice storage tank and a water storage tank inside the exterior body. Moreover, it has the rice supply means which supplies the rice in the rice storage tank to the rice cooking pan, and the water supply means which supplies the water in the water storage tank to the rice cooking pan.

  However, for cooking rice, purified water or natural water from which calcite has been removed may be used. These waters have a problem in that general bacteria propagate when they exceed a specific time at room temperature, so that the odor generated from the bacteria adheres to the cooked rice (rice cooked rice) and the taste deteriorates.

JP 2004-8469 A

  An object of the present invention is to provide a rice cooker that can prevent cooked rice with poor taste from water.

  In order to solve the above problems, a rice cooker according to the present invention is a rice cooker in which rice and water are accommodated, rice supply means capable of supplying rice to the rice cooker, and water for storing water to be contained in the rice cooker. A storage tank, a water supply means having a water supply means for supplying water in the water storage tank to the rice cooking pot, a water supply step for supplying water into the rice cooking pot by the water supply means, and heating the rice cooking pot A sterilization step of heating by means to heat sterilize the water in the rice cooker, and supplying rice in the rice cooker by the rice supply means based on the desired rice cooking capacity by the capacity selection means after the sterilization step After performing the rice process, the rice cooking pot is heated by the heating means, and the rice cooking control means for executing the rice cooking process is provided.

  In this rice cooker, the rice and water are automatically supplied to the rice cooking pot by the rice supplying means and the water supplying means, so the burden on the user regarding the weighing can be reduced and the convenience can be improved. Moreover, since rice and water can be supplied in a fixed amount without excess or deficiency, cooked rice according to the user's preference can be cooked stably. Moreover, since it is not necessary to connect a rice cooker to water supply, while being able to improve the workability regarding installation, the restriction | limiting of an installation place can be eliminated.

  In addition, before performing the rice cooking process, water is supplied into the rice cooking pot based on the desired rice cooking capacity, and the sterilization process of heating the water is performed, so even if general bacteria are propagated in the water, it smells Can kill germs that cause Therefore, it is possible to reliably prevent cooked rice having a poor taste due to the water odor.

  It is preferable that the rice supply unit has a rice storage tank for storing the rice to be stored in the rice cooking pan, and a rice supply unit for supplying the rice in the rice storage tank to the rice cooking pan. In this way, a product size that can be accommodated in a household storage shelf can be realized, so that usability (miniaturization) for general household use can be ensured. Moreover, the workability regarding installation can be improved, and the restriction of the installation location can be eliminated.

  A water tank detecting means for detecting a mounting state of the water storage tank is provided, and the rice cooking control means measures a mounting time in which the water storage tank is mounted on the rice cooker, and this mounting time exceeds a determination time. It is preferable to execute the notification process. If it does in this way, it can prevent reliably that the cooked rice in which taste is inferior with water rises.

  In the rice cooker of this invention, since rice rice and water are automatically supplied to the rice cooking pot by the rice supply means and the water supply means, the burden on the user regarding the weighing can be reduced and the convenience can be improved. And since rice and water can be supplied quantitatively, the cooked rice according to a user preference can be cooked stably. Moreover, since the sterilization process which heat-sterilizes water before performing a rice cooking process is performed, it can prevent reliably that the odor of water adheres and the cooked rice inferior in taste is cooked.

The rice cooker of embodiment which concerns on this invention is shown, (A) is sectional drawing, (B) is a top view of the state which removed the cover body. (A), (B) is sectional drawing of another part. The block diagram which shows the structure of a rice cooker. The flowchart which shows the reception process of the automatic rice cooking switch by a microcomputer. The flowchart which shows the reception process of the rice cooking switch by a microcomputer.

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

  1 (A), (B) and FIGS. 2 (A), (B) show a rice cooker equipped with a fully automatic rice cooking mode (function) according to an embodiment of the present invention. This rice cooker includes a rice cooker 10 in which rice and water are accommodated, a rice cooker body 11 that detachably accommodates the rice cooker 10, and a lid 16 that is attached to the rice cooker body 11 so as to be openable and closable. In this invention, the rice storage tank 25 and the water storage tank 38 are arrange | positioned, the rice rice and water of these inside are automatically supplied (set), and it is made possible to perform rice cooking subsequently. In addition, by heating and sterilizing water before cooking rice, it is possible to prevent cooked rice having poor taste due to deterioration of stored water.

  The rice cooker body 11 includes an accommodating portion 12 having an upper end opening that accommodates the rice cooking pot 10. An induction heating coil 13, which is a first heating means for induction heating the rice cooking pot 10, is disposed below the outer peripheral surface of the housing portion 12. Moreover, the upper part of the outer peripheral surface of the accommodating part 12 is provided with a body heater 14 that is a second heating means for heating the upper portion of the rice cooker 10. Furthermore, the storage unit 12 is provided with a pan temperature sensor 15 which is a first temperature detecting means for detecting the internal temperature via the rice cooking pot 10.

  The lid 16 is rotatably attached to the rice cooker body 11 and closes the upper end opening of the rice cooker 10 so as to be openable. A heat radiating plate 17 is disposed on the inner side of the lid 16 facing the rice cooking pot 10, and a lid heater 18 as third heating means is disposed on the upper surface of the heat radiating plate 17. Moreover, the inner lid 19 which seals the upper end opening of the rice cooking pot 10 is detachably disposed on the lower surface of the heat radiating plate 17. An exhaust passage 20 that communicates the inside and the outside of the rice cooker 10 is provided inside the lid body 16. Moreover, the temperature sensor 21 for lid | covers which is the 2nd temperature detection means which detects the temperature in the rice cooking pot 10 via the heat sink 17 is arrange | positioned. The inner lid 19 is provided with an exhaust hole communicating with the exhaust passage 20 and an insertion hole portion 22 through which a supply portion 55 of a connection member 51 described later is inserted.

  The rice cooker according to the present embodiment includes rice rice supply means having a rice rice storage tank 25 for storing rice (washed rice) and a rice rice supply mechanism for supplying rice rice to the rice cooking pot 10. Moreover, the water supply means which has the water storage tank 38 which stores water, and the water supply mechanism for supplying water to the rice cooking pot 10 is provided.

  Specifically, the rice cooker body 11 is formed with a tank housing portion 23 having an upper end opening for housing the storage tanks 25 and 38 at the front portion. In FIG. 1B, the rice storage tank 25 is detachably accommodated on the upper side, and the water storage tank 38 is detachably accommodated on the lower side. As for the tank accommodating part 23, the partition 24 located in the side of the accommodating part 12 is formed in the circular arc shape along the shape of the accommodating part 12. FIG.

  As shown in FIGS. 1 (B) and 2 (A), the cooked rice storage tank 25 includes a cylindrical cooked rice supply pipe section 26 at the upper corner located on the rice cooker 10 side. At the bottom of the cooked rice supply pipe portion 26, a cooked rice inflow portion 27 into which the cooked rice flows is formed. The rice rice tank bottom surface 28 is inclined downward so that the rice rice inflow portion 27 is located at the lowest position. The upper end opening of the cooked rice storage tank 25 is closed by a cooked rice tank cover 29. The cooked rice tank cover 29 has an insertion hole portion 30 through which the cooked rice supply pipe portion 26 is inserted and protrudes upward.

  The cooked rice supply mechanism (means) includes an extrusion member 31 disposed inside the cooked rice supply pipe portion 26 and a cooked rice supply motor 34 that rotates the extrusion member 31. The extruding member 31 is a screw provided with a spiral conveying blade 33 projecting from the shaft portion 32, and is rotatably mounted in the rice supply pipe portion 26. The lower end of the shaft portion 32 protrudes outward from the cooked rice supply pipe portion 26 and is detachably coupled to a coupling gear member 36 connected to the cooked rice supply motor 34 by mounting the cooked rice storage tank 25. The rice supply motor 34 is disposed outside the tank housing portion 23 and is disposed so that the gear member 35 disposed on the output shaft meshes with the connecting gear member 36. The connecting portion 37 of the connecting gear member 36 is disposed through the tank housing portion 23. In addition, the cooked rice supply mechanism is not limited to the configuration having the extrusion member 31 and the cooked rice supply motor 34, and any mechanism that can supply cooked rice (granular material) in the cooked rice storage tank 25 is applicable.

  As shown in FIGS. 1 (B) and 2 (B), the water storage tank 38 has a water supply member disposition portion 39 at the lower corner (on the opposite side of the rice storage tank 25) located on the rice cooker 10 side. Is formed. A cylindrical water supply pipe 40 is connected to the upper portion of the water supply member disposing portion 39. The water supply pipe 40 extends to the upper part of the water storage tank 38, and a watertight packing 41 is disposed at the upper end thereof. The connection member 51 is pressed against the watertight packing 41 in a watertight manner. A water inflow portion 42 through which water flows is formed in the lower portion of the water supply member disposing portion 39. It has a water tank bottom surface 43 inclined downward so that the water inflow portion 42 is located at the lowest position. The upper end opening of the water storage tank 38 is closed by a water tank cover 44. The water tank cover 44 has an insertion hole 45 through which the watertight packing 41 is inserted and protrudes upward.

  The water supply mechanism (means) includes a water supply member 46 disposed in the water supply member disposition portion 39 and a water supply motor 49 that rotates the water supply member 46. The water supply member 46 includes a water supply blade portion 47 having a + -shape when viewed from the axial direction of the rotation shaft. The water supply blade part 47 supplies the water flowing in from the water inflow part 42 radially outward. In addition, the water supply member 46 includes a magnetic connection portion 48 in which a magnet is built. Similar to the rice supply motor 34, the water supply motor 49 is disposed outside the tank housing portion 23. The output shaft of the water supply motor 49 is provided with a magnetic connection member 50 that can connect the water supply member 46 in a non-contact state. The magnetic connection member 50 is rotatably disposed at a position facing the magnetic connection portion 48 of the water supply member 46 in a state where the water storage tank 38 is disposed in the tank housing portion 23. The water supply mechanism is not limited to the configuration having the water supply member 46 and the water supply motor 49, and any mechanism that can supply water in the water storage tank 38 is applicable.

  Here, if each storage tank 25,38 increases the capacity which can be stored, since replenishment work will reduce, a user's convenience will improve. However, in order to ensure usability for general household use, it is necessary to realize a product size that fits in a household storage shelf. Moreover, since a user's preparation work is significantly reduced by adding fully automatic rice cooking mode, it thinks that the usage method which cooks a large amount of rice collectively and heat-retains for a long time reduces. Therefore, the cooked rice storage tank 25 has a capacity capable of accommodating, for example, 1500 g (3 cups 3 times) of cooked rice, and the cooked rice storage tank 25 has a capacity capable of accommodating, for example, 1000 cc (3 cups 645 cc) of water.

  The lid 16 is provided with a connecting member 51 serving as a common supply path for each supply mechanism in a state where the upper portion of the rice cooker body 11 is closed. The connecting member 51 is a hollow member extending from the rice supply pipe portion 26 to the water supply pipe 40 as shown in FIG. As shown in FIG. 2 (A), on the side of the cooked rice supply pipe section 26, a cooked rice inlet section 52 that fits the upper end of the cooked rice supply pipe section 26 and houses the upper end of the push member 31 is provided. . As shown in FIG. 2 (B), on the water supply pipe 40 side, a water inlet portion 53 to which the watertight packing 41 is pressed in a watertight manner is provided on the outer peripheral portion. As shown in FIGS. 1A and 1B, at the center between the inlet portions 52 and 53, the supplied rice is prevented from being mixed into the water storage tank 38 from the water inlet portion 53. A partition wall 54 is provided for preventing the supplied water from entering the cooked rice storage tank 25 from the cooked rice inlet 52. At the tip of the partition wall portion 54 (right side in FIG. 1), a supply portion 55 that bulges on the rice cooker 10 and opens so as to face the inside of the rice cooker 10 is provided. The supply unit 55 is provided with a check valve 56 that permits passage of cooked rice and water to be supplied into the rice cooker 10 and blocks reverse passage of steam or the like in the rice cooker 10.

  The rice cooker according to the present embodiment includes a rice remaining amount sensor 57 that detects the remaining amount of rice in the rice storage tank 25 and a remaining water sensor 58 that detects the remaining amount of water in the water storage tank 38. As these remaining amount sensors 57 and 58, a photosensor using a light emitting element and a plurality of light receiving elements can be applied. Each of the storage tanks 25 and 38 is manufactured by using a resin having translucency, and a plurality of light receiving elements are arranged at predetermined intervals in the height direction on both side walls of the tank housing portion 23. The remaining amount can be detected. Moreover, the supply amount to the rice cooking pot 10 can be detected by the difference in the remaining amount before and after the drive motors 34 and 49 are driven. The remaining amount sensors 57 and 58 are not limited to a configuration using a light emitting element and a plurality of light receiving elements, but may be a weight sensor and may be configured to detect the remaining amount in the storage tanks 25 and 38. If applicable.

  On the front side upper part of the lid body 16, an operation panel unit 59 for inputting a rice cooking condition and displaying the current operation state and selection state is provided. As shown in FIG. 3, the operation panel unit 59 includes a liquid crystal display panel 60 as display means and a plurality of switches 68 to 75 as input (selection) means.

  In the center of the liquid crystal display panel 60, a numerical segment 61 indicating a reservation time, a remaining time required for cooking rice, and the like is provided. At the top of the numerical value segment 61, a triangular mark segment 62 indicating the setting state of the cooked hardness (five levels) of white rice (rice rice) including non-washed rice is provided. On the left side of the numerical value segment 61, capacity segments 63a to 63c are provided that indicate the rice cooking capacity when the fully automatic rice cooking mode is used. The capacity segment 63a shows a 1-cup rice cooking capacity selection state, the capacity segment 63b shows a 2-cup rice cooking capacity selection state, and the capacity segment 63c shows a 3-cup rice cooking capacity selection state. On the lower side of the numerical value segment 61, an automatic rice cooking segment 64 indicating the on / off state of the fully automatic rice cooking mode is provided. The state where the automatic rice cooking segment 64 is turned on indicates an on state, and the state where the automatic rice cooking segment 64 is turned off indicates an off state. When the fully automatic rice cooking mode is turned off, the capacity segments 63a to 63c are also turned off. On the right side of the numerical value segment 61, reservation segments 65a and 65b indicating the selection state of reserved rice cooking are provided.

  Around the liquid crystal display panel 60, there are provided character displays 66 that indicate the state of the cooked and hardened white rice, such as “shakki”, “normal”, and “mochimochi”, so as to be positioned above the mark segment 62. In the lower part of the liquid crystal display panel 60, a heat retention display 67 composed of characters “lower” and “higher” and LEDs is provided in order to display a selection state of two kinds of heat retention temperatures.

  On the right side of the liquid crystal display panel 60, a rice cooking switch 68 that is an execution switch for rice cooking control, an up switch 69 and a down switch 70 for changing the current time, rice cooking time, and the like, and a reservation switch that is a selection switch for reserved rice cooking 71 is provided. On the left side of the liquid crystal display panel 60, there is provided a barge switch 72 for stopping the rice cooking control and the heat retaining control and releasing the selected state. Moreover, it is the hardness switch 73 for selecting the cooking hardness, the automatic rice cooking switch 74 (capacity selection means) for selecting the on / off selection of the fully automatic rice cooking mode and the rice cooking capacity, and the execution switch for the heat retention control. In addition, a heat retention selection switch 75 for selecting a heat retention control mode is provided.

  In the rice cooker, a control board (not shown) is disposed in the rice cooker body 11 or the lid body 16, and a microcomputer 76 as a control means is mounted on the control board. The microcomputer 76 has a built-in ROM 77 as storage means, and the ROM 77 stores a program for executing rice cooking control and heat retention control. Among them, the rice cooking control includes a semi-automatic rice cooking control in which the user sets (manually) rice and water in the rice cooking pot 10 and a supply process in which the rice and water in the storage tanks 25 and 38 are automatically set in the rice cooking pot 10. It has fully automatic rice cooking control.

(Semi-automatic rice cooking control)
Semi-automatic rice cooking control has a heating process including a preheating process, a capacity determination process, a boiling maintenance process, and an unevenness process, and includes a first rice cooking process in which these steps are sequentially executed by the microcomputer 76. In the preheating step, the induction heating coil 13 and the lid heater 18 are operated so that the value detected by the pan temperature sensor 15 is maintained at about 40 ° C., and the rice rice absorbs water. In the temperature raising step, the induction heating coil 13 is operated at full power, and the inside of the rice cooker 10 is heated to a temperature just before boiling. The rice cooking capacity in the rice cooking pot 10 is determined based on the temperature increase gradient when the detection value of the lid temperature sensor 21 is raised from the first set temperature to the second set temperature during the temperature raising process. In the boiling maintenance step, the induction heating coil 13, the body heater 14 and the lid heater 18 are on / off controlled at a lower energization rate than the temperature raising step, and the rice cooking pot 10 is maintained at the boiling temperature to cook rice. In the unevenness process, the induction heating coil 13, the body heater 14 and the lid heater 18 are operated at a lower energization rate than the boiling maintenance process, and steam the cooked rice in the cooked rice cooker 10.

(Fully automatic rice cooking control)
In fully automatic rice cooking control, before performing the 2nd rice cooking process substantially the same as the 1st rice cooking process of semi-automatic rice cooking control, a rice cooking capacity setting process and a rice rice and water supply process are performed. In this fully automatic rice cooking control, the microcomputer 76 supplies water and cooked rice to the rice cooking pot 10 based on the rice cooking capacity Cc set in the rice cooking capacity setting process, and the rice cooking pot 10 is fed with the induction heating coil 13, the body heater 14 and the lid. It also serves as a rice cooking control means for performing the second rice cooking process by heating with the heater 18. In addition, the 2nd rice cooking process is different from the 1st rice cooking process of semi-automatic rice cooking control by the point which does not process a capacity | capacitance discrimination | determination process in a temperature rising process in parallel.

  The rice cooking capacity setting process is executed during the selection mode in which neither the rice cooking control nor the heat retention control is executed while the fully automatic rice cooking mode is on. In this rice cooking capacity setting process, the microcomputer 76 corrects the rice cooking desired capacity Ch by the rice cooking capacity Cp based on the detection values of the remaining amount sensors 57, 58, and serves as a rice cooking capacity setting means for setting the rice cooking capacity Cc. I also serve. Specifically, when the storage tanks 25 and 38 have a remaining amount of 3 cups or more (Cp ≧ 3 cups), when the automatic rice cooking switch 74 is operated, the capacity segments 63a to 63c are 1 cup, 2 cups, Lights in the order of 3 cups, 1 cup..., And sets the rice cooking capacity Cc (= rice cooking desired capacity Ch). When there is only a remaining amount of less than 3 cups in the storage tanks 25 and 38 (Cp <3 cup), the smaller capacity of the remaining rice rice amount and the remaining water amount by the remaining amount sensors 57 and 58 is defined as a rice cooking capacity Cp. And the capacity | capacitance segments 63a-63c (= rice cooking desired capacity | capacitance Ch) exceeding the rice cooking capacity Cp cannot be selected, and the rice cooking capacity Cc is corrected and set. In addition, when the rice cooking capacity Cp is less than 1 cup (minimum rice cooking capacity), a notification process is executed to notify the user that cooking is impossible. The notification process is one or both of the output of the notification sound by the piezoelectric buzzer mounted on the control board and the blinking of the capacity segments 63a to 63c. Moreover, the state below the minimum rice cooking capacity includes an unmounted state of the water storage tank 38.

  A supply process has a water supply process, a sterilization process, and a rice supply process, and is performed immediately before performing a 2nd rice cooking process. That is, if it is not reserved rice cooking, supply processing is executed as soon as the rice cooking switch 68 is operated. Moreover, in the case of reservation rice cooking, it waits until the rice cooking start time, and a supply process is performed when it comes to rice cooking start time. This prevents excessive water absorption into the rice. Specifically, in the water supply process, the water supply motor 49 is driven, and the amount of water corresponding to the set rice cooking capacity Cc is supplied to the rice cooking pot 10. In the sterilization process, the induction heating coil 13 and the lid heater 18 are operated to heat the water supplied to the rice cooker 10 to a set sterilization temperature Ts (for example, 40 to 60 ° C.), and this sterilization temperature Ts is set for a set time te (for example, 10-15 minutes). In the rice supplying process, the rice rice supply motor 34 is driven to supply the rice cooking pot 10 with the amount of rice rice according to the set rice cooking capacity Cc.

  Moreover, in fully automatic rice cooking control, the aptitude determination process which determines permission of use of the water in the water storage tank 38 is performed before performing rice cooking capacity | capacitance setting processing. Specifically, even if the sterilization process is executed in the supply process, if a certain time (for example, 13 hours) has passed, it may be difficult to sterilize the propagated general bacteria. Therefore, when the mounted state is detected from the removed state of the water storage tank 38 based on the detection value of the remaining water sensor 58 (water tank detection means), the tank mounting time ts is measured by a built-in timer. And when mounting | wearing time ts exceeds determination time tj (for example, 12 hours) set, the rice cooking by the water in the water storage tank 38 is not permitted. And an alerting | reporting process is performed and it notifies a user that it is a state which cannot cook rice. This notification processing includes both output of notification sound by the piezoelectric buzzer mounted on the control board and display by the liquid crystal display panel 60. In the display by the liquid crystal display panel 60, an error command may be displayed by the numerical segment 61, or a dedicated display unit may be provided.

  Next, the control by the microcomputer 76 will be specifically described.

  First, the microcomputer 76 will perform the reception process corresponding to the detected switches 68-75, if operation of the switches 68-75 is detected in the selection mode which is not performing rice cooking control and heat retention control including reservation. The operation of the tear switch 72 is also accepted during rice cooking control including reservation or during heat insulation control.

(Automatic rice cooking switch reception processing)
As shown in FIG. 4, when detecting the operation of the automatic rice cooking switch 74, the microcomputer 76 resets and starts the 3-second counter in step S1. In step S2, it is detected whether or not the operation is stopped. If the operation is not stopped, the process proceeds to step S3. If the operation is stopped, the process proceeds to step S5.

  In step S3, it is detected whether or not the 3-second counter has been counted up. And when it is counting up, it progresses to step S4, and switches fully automatic rice cooking mode and semi-automatic rice cooking mode alternately, and returns. If the 3-second counter has not counted up, the process returns to step S2. That is, when the automatic rice cooking switch 74 is pressed for a long time, the on / off state of the fully automatic rice cooking mode is alternately switched, while when the automatic rice cooking switch 74 is pressed for a short time, the process proceeds to step S5.

  In step S5, it is detected whether the fully automatic rice cooking mode is on or off. If it is on, the process proceeds to step S6, and if it is off, the process returns.

  In step S6, it is determined whether or not the mounting time ts of the water storage tank 38 is equal to or shorter than the determination time tj (ts ≦ tj). If the mounting time ts exceeds the determination time tj (ts> tj), the process proceeds to step S7, performs a notification process, and returns. If the mounting time ts is equal to or shorter than the determination time tj, the process proceeds to step S8.

  In step S8, after the rice remaining amount and water remaining amount are detected by the remaining amount sensors 57, 58, the rice cooking capacity Cp is set in step S9. Next, in step S10, it is determined whether the rice cooking capacity Cp is less than 1 cup. And when rice cooking capacity Cp is less than 1 cup, it progresses to Step S7, performs information processing, and returns. Moreover, when rice cooking capacity Cp is 1 cup or more, it progresses to step S11.

  In step S11, it is determined whether or not the setting state before the operation of the automatic rice cooking switch 74 is 1 cup. If it is 1 cup, the process proceeds to step S12. If it is not 1 cup, the process proceeds to step S15.

  In step S12, it is determined whether the rice cooking capacity Cp is 2 cups or more. And when rice cooking capacity Cp is 2 cups or more, it progresses to Step S13, sets rice cooking capacity Cc (= rice cooking desired capacity Ch) to 2 cup, and returns. If the rice cooking capacity is less than 2 cups, the process proceeds to step S14, the rice cooking capacity Cc is corrected to 1 cup, and the process returns.

  In step S15, it is determined whether or not the setting state before the operation of the automatic rice cooking switch 74 is 2 cups. If it is not 2 cups, that is, if it is 3 cups, the process proceeds to step S14, the rice cooking capacity Cc (= rice cooking desired capacity Ch) is set to 1 cup, and the process returns. If it is 2 cups, the process proceeds to step S16, and it is determined whether or not the rice cooking capacity Cp is 3 cups or more. And when rice cooking capacity Cp is 3 cups or more, it progresses to Step S17, sets rice cooking capacity Cc (= rice cooking desired capacity Ch) to 3 cup, and returns. Moreover, when rice cooking capacity is less than 3 cups, it progresses to step S12.

  Thus, when the automatic rice cooking switch 74 is operated, the on / off state of the fully automatic rice cooking mode is switched. Or the rice cooking capacity | capacitance Cp is set based on the detection value of the residual amount sensors 57 and 58, the rice cooking capacity Cch by a user is correct | amended based on this rice cooking capacity Cp, and the rice cooking capacity Cc can be set.

(Cooking switch acceptance process)
When the microcomputer 76 detects the operation of the rice cooking switch 68, the microcomputer 76 performs full automatic rice cooking control or semi-automatic rice cooking control according to the on / off state of the fully automatic rice cooking mode. Specifically, as shown in FIG. 5, first, in step S20, it is determined whether or not the reserved rice cooking mode is selected. And when reservation rice cooking mode is selected, it progresses to step S21, and when reservation rice cooking mode is not selected, it progresses to step S25.

  In step S21, it is detected whether or not the fully automatic rice cooking mode is selected. And when fully automatic rice cooking mode is not selected, the start time of a 1st rice cooking process (semi-automatic rice cooking control) is set by step S22, and it progresses to step S24. Moreover, when fully automatic rice cooking mode is selected, it progresses to step S23, the start time of a supply process (fully automatic rice cooking control) is set, and it progresses to step S24. In step S24, the process waits until the start time is reached, and proceeds to step S25 when the rice cooking start time is reached.

  In step S25, it is determined whether or not the fully automatic rice cooking mode is selected. If the fully automatic rice cooking mode is not selected, the process proceeds to step S26, and after executing the first rice cooking process (semi-automatic rice cooking control), In step S32, heat retention control is executed. Moreover, when fully automatic rice cooking mode is selected, it progresses to step S27.

  In step S27, the set rice cooking capacity Cc is read, and in step S28, the water supply motor 49 is driven to execute the water supply process. Next, in step S29, the induction heating coil 13 and the lid heater 18 are operated to execute the sterilization process. Next, in step S30, the rice supply motor 34 is driven to execute the rice supply process. Then, after performing a 2nd rice cooking process by step S31, heat retention control is performed by step S32.

  As described above, in the rice cooker of the present invention, the fully-automated rice cooking mode in which the rice and water stored in the respective storage tanks 25 and 38 are automatically supplied to cook rice, and the semi-automatic to perform rice cooking by setting the rice and water by the user. Since the rice cooking mode can be selected, user convenience can be improved. And in fully automatic rice cooking mode, since the burden of the user regarding the measurement of rice and water can be reduced, the convenience can be improved. Moreover, since rice and water can be supplied in a fixed amount without excess or deficiency, cooked rice according to the user's preference can be cooked stably.

  Moreover, in fully automatic rice cooking mode, in order to perform the sterilization process which supplies water in the rice cooking pot 10 based on the rice cooking desired capacity | capacity Ch before performing rice cooking processing, and heats the water, it is common bacteria to water, for example. Can sterilize germs that cause odors. Therefore, it is possible to reliably prevent cooked rice having a poor taste due to the water odor.

  Furthermore, since the rice cooker of this embodiment is the structure which can divide and set both rice rice and water in each storage tank 25,38, it is not necessary to connect to water supply. Therefore, workability relating to installation can be improved, and restrictions on the installation location can be eliminated. Moreover, since the product size that can be accommodated in a storage shelf for home use can be realized, usability (miniaturization) for general home use can be ensured. Moreover, when the mounting time ts of the water storage tank 38 exceeds the determination time tj, the fully automatic rice cooking control is not accepted and the notification process is executed, so that it is possible to reliably prevent cooked rice with poor taste due to water. .

  And in fully automatic rice cooking mode of this embodiment, in order to perform rice cooking processing by correcting a user's rice cooking desired capacity | capacity with the rice cooking capacity Cp based on the residual amount in the storage tanks 25 and 38, rice rice or water It is possible to prevent uncooked cooked rice from being cooked due to the lack of rice. Furthermore, in order to cook the maximum capacity | capacitance which can be cooked based on the rice cookable capacity | capacitance Cp, the user does not need to confirm the residual amount in the storage tanks 25 and 38, and does not need to select a capacity | capacitance again. And although the rice cooking capacity | capacitance Cc reduces the desired capacity | capacitance Ch, since the maximum cooked rice can be ensured in the desired cooking state, the convenience can be improved.

  The rice cooker of this invention is not limited to the structure of the said embodiment, A various change is possible.

  For example, in the said embodiment, although it comprised so that the rice cooking desired capacity | capacity Ch exceeding the rice cooking capacity | capacitance Cp could not be selected at the time of operation of the automatic rice cooking switch 74, after selection of the rice cooking desired capacity | capacity Ch by the automatic rice cooking switch 74, the rice cooking switch 68 is set. If operated, it is good also as composition which changes rice cooking desired capacity Ch selected by rice cooking capacity Cp.

10 ... Rice cooker 11 ... Rice cooker body 13 ... Induction heating coil (heating means)
14 ... Body heater (heating means)
15 ... Pot temperature sensor (temperature detection means)
16 ... Lid 18 ... Lid heater (heating means)
DESCRIPTION OF SYMBOLS 19 ... Inner lid 20 ... Exhaust passage 21 ... Cover temperature sensor (temperature detection means)
DESCRIPTION OF SYMBOLS 23 ... Tank accommodating part 25 ... Rice rice storage tank 31 ... Extrusion member (rice rice supply means)
34 ... Rice rice supply motor (rice rice supply means)
38 ... Water storage tank 46 ... Water supply member (water supply means)
49 ... Water supply motor (water supply means)
51 ... Connecting member 55 ... Supply unit 57 ... Rice residue sensor (rice residue detection means)
58 ... Water remaining amount sensor (water remaining amount detecting means)
DESCRIPTION OF SYMBOLS 59 ... Operation panel part 60 ... Liquid crystal display board 61 ... Numerical value segment 62 ... Mark segment 63a-63c ... Capacity segment 64 ... Automatic rice cooking segment 67 ... Thermal insulation display 68-75 ... Switch (selection means)
76 ... Microcomputer (rice cooking control means, capacity setting means)

Claims (3)

A rice cooker in which rice and water are stored;
Rice supply means capable of supplying rice to the rice cooker;
A water storage tank for storing water to be stored in the rice cooking pot, and a water supply means having a water supply means for supplying water in the water storage tank to the rice cooking pot;
A water supply process for supplying water into the rice cooker by the water supply means, a sterilization process for heating and sterilizing the water in the rice cooker by heating the rice cooker with heating means, and the capacity selection means after the sterilization process The rice-feeding control means for performing the rice-cooking process by heating the rice-cooking pot by the heating means after performing the rice-feeding process of supplying the rice-rice into the rice-cooking pot by the rice-feeding means based on the desired rice cooking capacity When,
The rice cooker characterized by comprising.   The said rice supply means has the cooked rice storage tank which stores the cooked rice stored in the said rice cooking pot, and the cooked rice supply means which supplies the cooked rice in the said cooked rice storage tank to the said rice cooking pot. The described rice cooker. Providing a water tank detection means for detecting the mounting state of the water storage tank;
The said rice cooking control means measures the mounting | wearing time with which the said water storage tank is mounted | worn with the said rice cooker, and when this mounting | wearing time exceeds determination time, an alerting | reporting process is performed. rice cooker.

Images