JP3937972B2 - Automatic rice cooker - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an automatic rice cooker that automatically performs rice cooking mainly when rice is prepared.
[0002]
[Prior art]
  As a rice cooker that automatically cuts rice and cooks rice, there is an automatic rice cooker 1 as shown in FIG. 16 as disclosed in Japanese Patent No. 1576510 and Japanese Patent Laid-Open No. 5-337046. Here, the configuration of the automatic rice cooker 1 shown in FIG. 16 will be described.
[0003]
  As shown in FIG. 16, the automatic rice cooker 1 includes a rice storage unit 2 where a user inputs rice, a rice measuring unit 3 that measures rice, a rice cutting unit 4 that cuts rice, and a rice cutting unit 4. The rice receiving part 5 from which the rice was discharged | emitted, the rice discharge | emission means 6 which discharges rice to the rice receiving part 5 from the rice tong part 4, and the rice cooking part 7 which cooks soy rice are provided. A water supply unit 8 supplies a predetermined amount of water to the rice cooking unit 7 and includes a water supply valve 9 and a water supply path 10.
[0004]
  11 is a rice supplying means for generating an air flow to supply rice to the rice cooking unit 7 by air, 12 is an air flow generated by the rice supplying means 11 by connecting the rice supplying means 11, the rice receiving unit 5 and the rice cooking unit 7. The rice feed path through which the rice passes toward the rice cooking unit 7, 13 is a rice feed port connecting the rice feed path 12 to the rice cooking unit 7, and 14 is a rice input valve that opens and closes the rice feed port 13 by the valve drive unit 15. is there. When the valve drive unit 15 is operated, the rice insertion valve 14 opens the rice supply port 13, so that the rice discharged by the rice discharging means 6 to the rice receiving portion 5 is passed through the rice supply path 12. Can be supplied to the rice cooking unit 7.
[0005]
  The rice storage unit 2, the rice metering unit 3, the rice cutting unit 4, the rice receiving unit 5, the rice discharge unit 6, the rice supply unit 11, the rice supply path 12, the rice supply port 13, and the rice introduction valve 14 are provided in the rice supply unit. Call it.
[0006]
  16 is a pan that is detachably stored in the rice cooker 7, 17 is a steam cylinder, and the steam cylinder 17 discharges steam generated when the rice cooker 7 cooks or keeps the rice out of the automatic rice cooker 1. Or the air supplied to the rice cooking unit 7 via the rice supply path 12 by the rice supplying means 11 is discharged outside the automatic rice cooker 1.
[0007]
  Reference numeral 18 denotes a control unit that controls the water supply unit 8, the rice cooking unit 7, the rice supply unit, and the like.
[0008]
  Reference numeral 19 denotes a lid that covers the top of the pan 16, and the lid 19 rotates around the hinge 20 to open or close substantially above the pan 16 of the rice cooking unit 7. The lid 19 has an inner lid 21 that seals the pan 16.
[0009]
  Reference numeral 22 denotes a heating unit. When the heating unit 22 is configured by an IH (electromagnetic induction) coil, the pot 16 is heated by induction heating to heat rice and water in the pot 16. In the case of a heater such as a sheathed heater, nichrome heater, mica heater, halogen heater, or surface heater, the heating unit 22 heats the pan 16 so that the rice or water in the pan 16 is heated.
[0010]
  To explain the operation in the above configuration, when the user inputs rice into the rice storage unit 2, inputs the amount of rice to be cooked, and presses an operation start button (not shown), the operation of the automatic rice cooker 1 starts. To do.
[0011]
  When the operation of the automatic rice cooker 1 is started, the control unit 18 operates the rice weighing unit 3 to measure the rice weighing process for weighing a predetermined amount input by the user from the rice stored in the rice storage unit 2. Do. Then, a predetermined amount of rice is supplied to the rice binding unit 4.
[0012]
  When a predetermined amount of rice is supplied to the rice binding unit 4, the control unit 18 operates the rice binding unit 4 to perform the rice binding process of removing the paste powder layer (a part of the rice cake) from the rice.
[0013]
  When the rice cutting process is completed, the rice peeled off at the rice cutting section 4 is discharged to the rice receiving section 5 by the rice discharging means 6. And the control part 18 performs the rice-feeding process which drives the valve drive unit 15 and operates the rice insertion valve 14. In this step, the rice feed opening 13 that connects the rice feed path 12 and the rice cooking unit 7 opens, so that the rice that has been removed from the paste layer and discharged to the rice receiving unit 5 passes through the rice feed path 12. 7 to the pan 16.
[0014]
  When a predetermined amount of rice is supplied to the pan 16 of the rice cooking unit 7, the control unit 18 operates the water supply unit 8 to supply the optimal amount of water to the pan 16 for cooking rice supplied to the pan 16. Supply water supply process.
[0015]
  When a predetermined amount of rice and water is supplied to the pan 16, a dipping process is performed in which the rice is soaked in water and absorbed by the rice. And the immersion process of predetermined time is performed, and after the rice absorbs a predetermined amount of water, the rice cooking process which cooks rice is performed.
[0016]
  After cooking for a predetermined time, a heat-retaining step is performed to keep the cooked rice warm, and the user can take out the rice from the pan 16 at any time.
[0017]
  In the soaking process, the rice cooking process, and the heat retaining process, the heating unit 22 is energized so that the rice and water in the pot 16 are heated to the predetermined temperatures of the respective processes via the pot 16.
[0018]
  In this way, just by inputting the amount of rice to be cooked and pressing the operation start button, the rice is stored, stored in the rice storage unit 2, and rice weighing, rice cutting, rice feeding, water supply, rice cooking, and heat insulation are automatically performed. .
[0019]
  The rice-together section 4 includes a rice storage container 23 for storing the rice weighed by the rice measuring section 3, and a rotary blade 25 that is rotatably disposed in the rice storage container 23 and driven by the driving means 24. ing. And when the rotary blade 25 rotates, the rice cake covering the surface of the rice is removed.
[0020]
  Since the rice storage container 23 is provided with a hole 26 through which at least rice does not pass, the rice cake removed from the rice passes through the hole 26 of the rice storage container 23 and is discharged out of the rice storage container 23. Separated from.
[0021]
[Problems to be solved by the invention]
  The automatic rice cooker 1 having such a conventional configuration has the following problems.
[0022]
  In the automatic rice cooker 1 configured as shown in FIG. 16, when the rice cutting process is finished, the rice discharging means 6 discharges the rice to the rice receiving unit 5 as shown in FIG. 17. And the rice supply process which supplies the rice discharged | emitted to the rice receiving part 5 to the rice cooking part 7 is performed. In this step, the control unit 18 operates the rice supply means 11 so that the air flow generated by the rice supply means 11 is supplied to the rice supply path 12. However, as shown in FIG. Since there is a lot of rice in the connection part 5a between the receiving part 5 and the rice supply path 12, the air flow generated by the rice supply means 11 is the rice existing in the rice supply path 12 as shown in FIG. Is not only supplied to the rice cooking unit 7, but also enters the rice receiving unit 5 (arrow in FIG. 18).
[0023]
  Therefore, during the rice supplying process, as shown in FIG. 18, a part of the rice to be supplied to the pan 16 of the rice cooking unit 7 turns in the rice receiving unit 5 and does not move to the rice supply path 12. Or rice that is difficult to move to the rice supply path 12 may exist.
[0024]
  As a result, during the rice feeding process, there is always rice that keeps turning in the rice receiving unit 5, and all the rice in the rice receiving unit 5 cannot be supplied to the pan 16 of the rice cooking unit 7, The problem is that rice is cooked in a state less than the fixed amount and rice with a large amount of water is cooked up, or it takes a lot of time to supply all the rice in the rice receiver 5 to the rice cooker 7. There is a problem that it ends up.
[0025]
  In addition, the rice that does not move to the rice supply path 12 and is swirling in the rice receiving unit 5 is always in contact with the air flow generated by the rice supply means 11, so that the rice can be broken by the air flow. There is a risk of cracks. As a result, when rice that has been cracked or cracked is supplied to the pan 16 of the rice cooking unit 7 and cooked, there is also a problem that the rice cooking performance deteriorates.
[0026]
  This invention solves the said conventional problem, and aims at reducing that rice cooking performance falls, or shortening the operation time of an automatic rice cooker.
[0027]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention achieves the above-described purpose by using a rice cooking unit for cooking rice, a rice storage unit for storing rice to be supplied to the rice cooking unit, and a rice receiving unit for discharging rice supplied from the rice storage unit to the rice cooking unit. And a rice feeding path for connecting the rice receiving section and the rice cooking section, and a rice feeding means for blowing air to the rice feeding path to supply the rice of the rice receiving section to the rice cooking section,Less rice than a preset amountAfter discharging to the rice receptionThe rice supply means started operating,Work to perform the operation that rice supply means operates for a predetermined time and stops at least twiceRepeat until the rice supply means supplies a predetermined amount of rice to the rice cookerIt is a configuration.
[0028]
  Thereby, by operating and stopping the rice supply means, the rice turning in the rice receiving portion can be moved to the rice supply path by natural fall while the rice supply means is operating.
[0029]
  Therefore, it can be reduced that the rice keeps turning in the rice receiving part without leaving the rice receiving part, so that the rice in the rice receiving part can be supplied to the rice cooking part and the rice feeding process time And the time during which the rice present in the rice receiving unit continues to contact the air flow generated by the rice supplying means can be shortened.
[0030]
  Furthermore, since all the rice can be supplied to the rice cooking part in each rice discharge and rice supply process, the amount of rice that the user wants to cook can be supplied to the rice cooking part. Since the amount of rice is less than that of water, it is possible to reduce the amount of rice having a higher moisture content than the predetermined rice.
[0031]
  In addition, since the amount of rice supplied to the rice receiving unit at one time can be reduced as compared with the case where the amount of rice that the user wants to cook is supplied at a time, the rice receiving unit has a compact configuration. can do.
[0032]
Therefore, it can reduce that the rice cooking performance of an automatic rice cooker falls, and an automatic rice cooker can be made into a compact structure.
[0033]
The present invention also includes a rice cooking unit for cooking rice, a rice storage unit for storing rice to be supplied to the rice cooking unit, a rice receiving unit for discharging rice supplied from the rice storage unit to the rice cooking unit, and a rice receiving unit. And a rice supply path for connecting the rice cooking unit and a rice supply means for blowing air to the rice supply path in order to supply the rice of the rice receiving unit to the rice cooking unit, and a predetermined amount set in advance from the rice storage unit After a smaller amount of rice is discharged to the rice receiving unit and the rice feeding means supplies a predetermined amount of rice to the rice cooking unit, after a predetermined number of rice discharging and rice feeding processes are performed, the rice feeding means is at least It is configured to operate once.
[0034]
  Therefore, since rice can be discharged little by little to the rice receiving part and supplied to the rice cooking part, it can be reduced that the rice turns in the rice receiving part, and the rice is transferred from the rice receiving part to the rice cooking part. It can reduce the time it takes to supply, and it can shorten the time that rice keeps in contact with the air flow generated by the rice-feeding means. Moreover, it can reduce more that rice cooking performance falls.
[0035]
  Furthermore, after the predetermined number of times of rice discharge and rice supply processes, all the rice remaining in the rice supply route and the like can be supplied to the rice cooking unit.
[0036]
Therefore, since all the predetermined amount of rice can be surely supplied to the rice cooking section, the amount of rice is less than the predetermined amount of water, so that the rice having a higher water content than the predetermined rice is cooked. Can be reduced, and the reduction in rice cooking performance can be reduced.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
  Invention of Claim 1 is a rice cooking part which cooks rice, a rice storage part which stores the rice supplied to a rice cooking part, a rice receiving part from which rice supplied from a rice storage part to a rice cooking part is discharged, A rice feeding path for connecting the rice receiving part and the rice cooking part, and a rice feeding means for blowing air to the rice feeding path in order to supply the rice of the rice receiving part to the rice cooking part,After the rice quantity less than a predetermined amount set in advance is discharged to the rice receiving unit, the rice feeding means starts operating.The rice supply means operates at a predetermined time and stops at least twice.Repeat the process until the rice supply means supplies a predetermined amount of rice to the rice cookerIt is configured, and the rice that is turning in the rice receiving part is moved to the rice supply path by natural fall while the rice supply means is operating by stopping it after operating the rice supply means. Can do.
[0038]
  Therefore, it can be reduced that the rice keeps turning in the rice receiving part without going out from the rice receiving part, so that the rice in the rice receiving part can be supplied to the rice cooking part and cooked as set. It can be carried out.
[0039]
  Moreover, since the rice supply process time can be shortened, the operation time of the automatic rice cooker can be shortened, and the time during which the rice that has been broken at the paddle portion can be kept in contact with the air can be shortened. Therefore, it can reduce that a rice cracks or cracks, and can reduce that rice cooking performance falls.
[0040]
  further,All rice can be supplied to the rice cooker in the rice discharge and rice feed process each time, so the user can supply all the amount of rice that the user wants to cook to the rice cooker. On the other hand, since the amount of rice is small, it is possible to reduce the cooking of rice having a higher moisture content than the predetermined rice.
[0041]
  In addition, since the amount of rice supplied to the rice receiving unit at one time can be reduced as compared with the case where the amount of rice that the user wants to cook is supplied at a time, the rice receiving unit has a compact configuration. can do.
[0042]
  Therefore, it can reduce that the rice cooking performance of an automatic rice cooker falls, and an automatic rice cooker can be made into a compact structure.
[0043]
  Claim2The invention described in 1 includes a rice cooking unit for cooking rice, a rice storage unit for storing rice to be supplied to the rice cooking unit, a rice receiving unit for discharging rice supplied from the rice storage unit to the rice cooking unit, A rice feed route that connects the rice cooker and the rice cooker, and a rice feed means that blows air to the rice feed route to supply the rice in the rice receiver to the rice cooker, and is set in advance from the rice storage department Until a certain amount of rice is discharged to the rice receiving unit and the rice supply means supplies a predetermined amount of rice to the rice cooking unitRepeatedly, after the predetermined number of times of rice discharge / rice feeding process, the rice feeding means is operated at least once.Because it is configured, rice can be discharged little by little to the rice receiving part and supplied to the rice cooking part, so that it is possible to reduce the turning of rice in the rice receiving part, from the rice receiving part It is possible to reduce the time it takes to supply rice to the rice cooker, and it is possible to further reduce the time during which the rice keeps in contact with the air flow generated by the rice supply means, and the rice cracks. It can be further reduced that rice cooking performance deteriorates due to cracking.
[0044]
  further,After a predetermined number of rice discharging / feeding steps, all of the rice remaining in the rice feed route and the like can be supplied to the rice cooking unit.
[0045]
  Therefore, since all the predetermined amount of rice can be surely supplied to the rice cooking section, the amount of rice is less than the predetermined amount of water, so that the rice having a higher water content than the predetermined rice is cooked. Can be reduced, and the reduction in rice cooking performance can be reduced.
[0046]
【Example】
  Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
[0047]
  Example 1
  An automatic rice cooker 50 shown in FIG. 1 includes a rice storage unit 51 that can store at least the amount of rice to be cooked, a rice weighing unit 52 that measures rice, and a rice paddle that breaks the rice supplied from the rice weighing unit 52. Part 53, a rice receiving part 54 from which the rice that has been cut off at rice cutting part 53 is discharged, rice discharging means 55 that discharges rice from rice cutting part 53 to rice receiving part 54, and rice cooking part 56 that cooks rice ing.
[0048]
  57 is a rice supplying means for generating an air flow for supplying rice to the rice cooking unit 56 by air, 58 is an air flow generated by the rice supplying means 57 by connecting the rice supplying means 57, the rice receiving unit 54 and the rice cooking unit 56. , The rice feed path through which the rice passes toward the rice cooking section 56, 59 is the rice feed opening connecting the rice feed path 58 to the rice cooking section 56, and 60 is the rice feed opening 59 provided at the rice feed opening 59 by the valve drive unit 61. This is a rice injection valve that opens and closes.
[0049]
  The rice storage unit 51, the rice measuring unit 52, the rice cutting unit 53, the rice receiving unit 54, the rice discharging unit 55, the rice supply unit 57, the rice supply path 58, the rice supply port 59, and the rice introduction valve 60 are provided. Call it.
[0050]
  62 is a water supply means for supplying a predetermined amount of water to the rice cooking unit 56 and includes a water supply valve 63, a water supply path 64, and a water input valve 65.
[0051]
  A steam cylinder 66 discharges steam generated when the rice cooker 56 cooks or keeps the rice out of the automatic rice cooker 50, or the rice cooker 56 through the rice feed path 58 by the rice feeder 57. The air which supplied rice to the automatic rice cooker 50 is discharged.
[0052]
  67 is a pan that is detachably stored in the rice cooking unit 56, 68 is a lid that covers the top of the pan 67, and the lid 68 rotates when the user presses the hook 69 to open or close the rice cooking unit 56. To do. The lid 68 has an inner lid 70 that seals the pan 67.
[0053]
  The inner lid 70 is connected to the steam cylinder 66, and an inner lid hole 71 is provided so that steam and air in the pan 67 are discharged from the steam cylinder 66.
[0054]
  72 is a heating unit, and when the heating unit 72 is configured by an IH (electromagnetic induction) coil, the pot 67 is heated by induction heating to heat rice and water in the pot 67. When configured with a heater such as a sheathed heater, nichrome heater, mica heater, halogen heater, or surface heater, the heating unit 72 heats the pan 67 so that the rice or water in the pan 67 is heated.
[0055]
  73 is a control part which controls a rice supply part, the water supply means 62, the rice cooking part 56 grade | etc.,.
[0056]
  The rice binding portion 53 includes a rice storage container 74 that stores the rice weighed by the rice weighing unit 52, and a rotary blade 76 that is rotatably disposed in the rice storage container 74 and driven by the driving means 75. Then, when the rotary blade 76 rotates, the ridge 77 covering the surface of the rice is removed.
[0057]
  Reference numeral 78 denotes a straw collection unit that collects the straw 77 separated from the rice in the rice cutting process, and includes a straw filter 79.
[0058]
  Reference numeral 80 denotes a rice input door that opens a part of the rice storage unit 51 in order to input rice into the rice storage unit 51.
[0059]
  The operation of the above configuration will be described. When the user puts rice into the rice storage unit 51 and inputs the amount of rice to be cooked and then presses an operation start button (not shown), the operation of the automatic rice cooker 50 starts.
[0060]
  When the operation is started, the control unit 73 operates the rice weighing unit 52, so that the rice weighing unit 52 measures a predetermined amount of rice from the rice stored in the rice storage unit 51, and supplies it to the rice storage container 74. Conduct the rice weighing process.
[0061]
  When a predetermined amount of rice is supplied to the rice container 74, the controller 73 operates the driving means 75 in accordance with the rice cutting process program. When the driving means 75 is operated, the rotary blade 76 is rotated, and a rice cutting process for cutting the rice stored in the rice storage container 74 is performed.
[0062]
  When the rice cutting process is completed, the control unit 73 operates the rice discharging unit 55 so that the rice discharging unit 55 opens the rice discharge port 74a of the rice storage container 74. The rice discharge process discharged to the rice receiver 54 is performed.
[0063]
  When the rice is discharged to the rice receiving unit 54, the control unit 73 operates the rice insertion valve 60 via the valve drive unit 61 according to the rice supply process program, so that the rice insertion valve 60 opens the rice supply port 59. . And the control part 73 operates the rice supply means 57, and the rice supply means 57 produces an air flow. Since the air flow generated by the rice supply means 57 is supplied to the rice supply path 58, the rice discharged from the rice cutting portion 53 to the rice supply path 58 is supplied to the pan 67 by this air flow.
[0064]
  As shown in FIG. 2 (a), this rice supply process is performed at least twice, and when the rice supply process K1 is completed, the rice supply process K2 is subsequently performed a predetermined number of times. is there.
[0065]
  When a predetermined amount of rice is supplied to the pan 67 of the rice cooking unit 56, the control unit 73 operates the water supply valve 63 and the water supply valve 65 to supply water in an amount optimal for the rice cooking amount set by the user. A water supply process of supplying the pot 67 through the path 64 is performed.
[0066]
  When a predetermined amount of water and rice are supplied to the pan 67, the control unit 73 operates the rice cooking unit 56 in accordance with an immersion process program and a rice cooking process program that cause the rice to absorb water. When the rice cooking unit 56 operates, the amount of rice that the user wants to cook is cooked.
[0067]
  When a predetermined amount of rice is cooked, the control unit 73 enters a heat insulation process for keeping the rice warm.
[0068]
  In the immersion process, the rice cooking process, and the heat-retaining process, when the heating unit 72 is energized, when the heating unit 72 is configured with an IH coil, the pot 67 generates heat by electromagnetic induction, and the water and rice in the pot 67 are respectively When the heating unit 72 is composed of a heater such as a sheathed heater, a nichrome heater, a mica heater, a halogen heater, or a surface heater, the pot 67 is heated and water or rice in the pot 67 is heated. Are heated to a predetermined temperature in each step.
[0069]
  In this way, the user automatically inputs the amount of rice he wants to cook and presses the operation start button. From the rice stored in the rice storage unit 51, rice weighing, rice cutting, rice supply, water supply, rice cooking, and heat insulation are automatically performed. The rice is cooked.
[0070]
  Note that steam generated during the rice cooking process or the heat retaining process is discharged out of the automatic rice cooker 50 through the steam cylinder 66.
[0071]
  Thus, according to the present embodiment, when the rice cutting process is completed and the rice in the rice cutting part 53 is discharged to the rice receiving part 54 by the rice discharging means 55 in the rice discharging process, as shown in FIG. In addition, a large amount of rice is present in the rice receiver 54. In this state, the control unit 73 operates the rice supply means 57 according to the rice supply process program, so that the air flow generated by the rice supply means 57 is supplied to the rice supply path 58. At this time, as shown in FIG. 3, since the rice is also present in the connecting portion 54a between the rice receiving portion 54 and the rice supply path 58, the air flow generated by the rice supply path 57 is supplied as shown in FIG. It flows to the rice path | route 58, and not only supplies the rice which exists in the rice supply path | route 58 to the rice cooking part 56, but also penetrate | invades in the rice receiving part 54 (arrow of FIG. 4).
[0072]
  As a result, not only the rice that passes through the rice supply path 58 according to the air flow of the rice supplying means 57 but is supplied to the pan 67 of the rice cooking unit 56, there is rice that turns in the rice receiving unit 54. At this time, as shown in FIG. 2 (a), the rice supplying means 57 is operated to perform the rice supplying process K1 for supplying the rice in the rice receiving portion 54 to the pan 67 of the rice cooking portion 56, and then the rice supplying means. 57, and then the control unit 73 supplies the rice so as to perform the rice supplying process K2 in which the rice supplying means 57 is operated again and the rice remaining in the rice receiving unit 54 is supplied to the pan 67 of the rice cooking unit 56. The means 57 is controlled.
[0073]
  As shown in FIG. 2A, the control unit 73 controls the rice supplying means 57 so that the rice supplying process is performed at least twice, so that the rice receiving unit 54 in the rice supplying process K1 as shown in FIG. The rice swirling inside is stopped after the rice-feeding process K1 so that the air flow generated by the rice-feeding means 57 is not supplied to the rice receiving unit 54, as shown in FIG. Then, the rice that has been turning in the rice receiving portion 54 naturally falls and moves to the rice feed path 58.
[0074]
  In the state shown in FIG. 5, when the control unit 73 operates the rice supplying means 57 to perform the rice supplying process K2, the rice present in the rice supply path 58 is cooked by the air flow generated by the rice supplying means 57. It can be supplied to the unit 56.
[0075]
  Therefore, as shown in FIG. 2A, all the rice present in the rice receiving unit 54 can be supplied to the rice cooking unit 56 by performing the rice feeding process at least twice.
[0076]
  Further, by performing the rice supply process at least twice as shown in FIG. 2 (a), the rice is contained in the rice receiving portion 54 as compared with the case where the rice supply process is performed only once as shown in FIG. 2 (b). Since it is possible to reduce the turning in the rice receiving unit 54 without leaving, the rice feeding process time can be shortened by T1, and the rice present in the rice receiving unit 54 can be fed. The time of contact with the air flow produced by the means 57 can be shortened.
[0077]
  As mentioned above, since all the rice in the rice receiving part 54 can be supplied to the rice cooking part 56, a predetermined amount of rice and water can be supplied to the pan 67 of the rice cooking part 56, and rice cooking is performed as set. Can do.
[0078]
  Moreover, since the rice-feeding process time can be shortened, the operation time of the automatic rice cooker 50 can be shortened, and the time during which the rice that has been broken at the rice breaker 53 remains in contact with air can be shortened. Therefore, it can reduce that a rice is cracked or cracked, and can reduce that rice cooking performance falls.
[0079]
  In FIG. 2A, the rice feeding process is illustrated to be performed twice, but it is performed three or more times so that all the rice present in the rice receiving unit 54 is reliably supplied to the rice cooking unit 56. Good.
[0080]
  Moreover, in description of operation | movement of the automatic rice cooker 50, although it supplied water after supplying rice to the rice cooking part 55, you may supply rice after supplying water, or water and rice. You may supply simultaneously or alternately.
[0081]
  Moreover, the structure directly connected to a water tap may be sufficient as the water supply means 62, and the structure provided with a water tank and supplying water from the water tank to the rice cooking part 55 may be sufficient. In the case where a water tank is provided, the automatic rice cooker 50 can be installed at an arbitrary location if the user supplies water to the water tank.
[0082]
  Moreover, the automatic rice cooker 50 of the structure which does not have the water supply means 62 may be sufficient.
[0083]
  Moreover, although the rice-together part 53 shown in FIG. 1 is the structure which uses the water and does not use water, the structure which uses the water to cut rice may be sufficient, Any configuration may be used.
[0084]
  In addition, when using non-washed rice that can be cooked by adding only water without severing the rice, the rice is fed into the rice supply path 58 without rinsing the non-washed rice at the rice-together portion 53 in the rice cutting process. The control unit 73 may control the rice supply unit so as to perform an operation of simply discharging the rice. If it does so, it can supply to the pan 67 of the rice cooking part 56 from the rice storage part 51, without removing unwashed rice.
[0085]
  Moreover, the rice supply part of the automatic rice cooker 50 does not have the rice-together part 53, but the rice storage part 51, the rice measurement part 52, the rice receiving part 54, the rice discharge | emission means 55, the rice supply means 57, the rice supply path | route 58, A configuration that includes only the rice feed port 59 and the rice input valve 60 and that supports only non-washed rice may be used.
[0086]
  Further, the rice supply unit does not have the rice measuring unit 52, but the rice storage unit 51, the rice cutting unit 53, the rice receiving unit 54, the rice discharge unit 55, the rice supply unit 57, the rice supply route 58, the rice supply port 59, and In the configuration provided with only the rice introduction valve 60, the weight of the rice is measured by providing a weight sensor (not shown) or the like at the bottom of the pan 67 of the rice cooking unit 56 to measure the amount of rice supplied to the pan 67. Alternatively, the rice weighing unit 52 may be provided in the upper part of the rice cooking unit 56 or in the lid 68 of the rice cooking unit 56 to measure the amount of rice supplied from the rice receiving unit 54 to the rice cooking unit 56. Good.
[0087]
  Further, the rice supply unit may not have the rice storage unit 51 and the rice weighing unit 52, and may be configured to measure the amount of rice that the user wants to cook before putting it into the rice binding unit 53. In the case of the automatic rice cooker 50 corresponding only to non-washed rice, it is set as the automatic rice cooker 50 which does not have the rice-together part 53, and a user measures the quantity of non-washed rice which wants to cook rice, and throws rice into the rice receiving part 54 It may be a configuration.
[0088]
  Moreover, the rice storage part 51 may be able to store a large amount of rice (for example, 10 kg), or may be capable of storing only the amount to be cooked each time (for example, 3 minutes).
[0089]
  In FIG. 1, the rice cooking unit 56 is disposed substantially at the upper portion of the rice storage unit 51, but the rice cooking unit 56 may be provided at a substantially horizontal portion of the rice storage unit 51 or the rice binding unit 53.
[0090]
  In FIG. 2A, while the rice supplying means 57 is energized, the rice supplying process K1 and the rice supplying process K2 are used. Even if the means 57 is energized and then de-energized, the rice feeding means 57 rotates by inertia, so that air can be blown to the rice feeding path 58. Therefore, the period from when the rice supplying means 57 is energized until it is completely de-energized and completely stopped may be referred to as the rice supplying process K1 and the rice supplying process K2.
[0091]
  Then, the rice weighing unit 52 is configured to weigh less rice than the amount that the user wants to cook (for example, the amount that the user wants to cook rice is 3 in increments of 3). As shown in FIG. 6, the rice is weighed by the rice weighing unit 52, the rice is cut by the rice cutting unit 53, and the rice in the rice cutting unit 53 is discharged to the rice receiving unit 54 by the rice discharging means 55. The rice metering unit 52, the rice cutting unit 53, the rice discharging unit 55, and the rice supply unit so that the rice supplying process of supplying the rice in the rice receiving unit 54 to the pan 67 of the rice cooking unit 56 by the rice unit 57 is performed at least twice. 57 is controlled by the control unit 73 so that the rice remaining in the rice feed path 58 that cannot be supplied to the pan 67 of the rice cooking unit 56 in the first rice feeding process K1 is cooked in the second rice feeding process K2. It can be supplied to the pan 67 of the part 56.
[0092]
  Therefore, since every rice can be supplied to the pan 67 of the rice cooking unit 56 in each rice weighing process, rice cutting process, rice discharging process, rice supply process K1, and rice supply process K2, the user Can supply all the amount of rice that they want to cook to the pan 67 of the rice cooking unit 56, and the amount of rice is less than the predetermined amount of water, so that rice with a higher water content than the predetermined rice is cooked. Can be reduced.
[0093]
  In addition, the amount of rice supplied to the rice-together portion 53 and the rice receiving portion 54 at a time can be reduced as compared with the case where the amount of rice that the user wants to cook is supplied at one time. The part 52, the rice edge part 53, and the rice receiving part 54 can be made into a compact structure.
[0094]
  Therefore, it can reduce that the rice cooking performance of the automatic rice cooker 50 falls, and the automatic rice cooker 50 can be made into a compact structure.
[0095]
  (Example 2)
  While the rice discharging means 55 is energized, the rice discharging means 55 opens the rice discharge port 74a of the rice storage container 74, so that the rice in the rice binding portion 53 is discharged to the rice receiving portion 54 and the rice discharge When the means 55 is de-energized, the rice discharge means 55 closes the rice discharge port 74a, so that the rice is not discharged to the rice receiving portion 54. Therefore, as shown in FIG. After the rice discharging means 55 is energized for a predetermined time Ta so that a smaller amount of rice than the amount to be cooked is discharged from the rice discharge port 74a of the rice storage container 74 to the rice receiving portion 54, the rice discharging means 55 is turned off. After the energization, the rice discharging / rice feeding process of energizing the rice supplying means 57 for a predetermined time Tb is controlled to be performed at least twice. Since other configurations are the same as those of the first embodiment, the description thereof is omitted.
[0096]
  As shown in FIG. 7, the control unit 73 controls the rice discharging means 55 and the rice supplying means 57 so as to perform the rice discharging / feeding process at least twice, thereby discharging rice to the rice receiving portion 54 little by little. And since it can supply to the pan 67 of the rice cooking part 56, it can reduce that a rice turns in the rice receiving part 54. FIG.
[0097]
  Therefore, it can be reduced that the rice swirls in the rice receiver 54 and it takes time to supply rice from the rice receiver 54 to the pan 67 of the rice cooker 56. The time for contacting the air flow generated by the rice supplying means 57 can be further shortened. Therefore, it can reduce more that rice cooking cracks or cracks and rice cooking performance falls.
[0098]
  In addition, if the time Ta which discharge | releases rice to the rice receiving part 54 is shortened, since the quantity of the rice discharged | emitted to the rice receiving part 54 can be decreased, the rice which exists in the rice receiving part 54 in the rice supply process Can be reduced, and the amount of rice swirling in the rice receiving portion 54 in the rice supplying process can be further reduced.
[0099]
  In FIG. 7, the rice supplying means 57 is operated after the rice discharging means 55 is de-energized. However, the air flow generated by the rice supplying means 57 is the rice in the rice discharging means 55 and the rice storage container 74. If the rice breaker 53 does not enter through the discharge port 74a, the rice discharging means 55 and the rice feeding means 57 are simultaneously operated, that is, the rice is supplied to the pot 67 of the rice cooking portion 56 while being discharged to the rice receiving portion 54. May be.
[0100]
  For example, even if the rice supply means 57 is operated when a large amount of rice is discharged from the rice discharge port 74a of the rice storage container 74 to the rice receiving unit 54 by energizing the rice discharge unit 55, the rice discharge port Since the rice stream discharged from 74 a makes it difficult for the air flow generated by the rice supply means 57 to enter the rice storage container 74, the rice can be discharged from the rice edge portion 53 to the rice receiving portion 54. Therefore, the rice discharging means 55 and the rice supplying means 57 may be energized simultaneously while a large amount of rice is being discharged from the rice discharge port 74a.
[0101]
  Then, as shown in FIG. 8, the rice weighing unit 52 measures the amount of rice smaller than the amount that the user wants to cook, then cuts the rice with the rice cutting unit 53, and then uses the rice discharging means 55 to cut the rice The rice measuring unit 52, the rice-together unit 53, and the rice discharge so that the rice in the rice receiving unit 54 is discharged to the rice receiving unit 54 and the rice in the rice receiving unit 54 is supplied to the pan 67 of the rice cooking unit 56 by the rice supply means 57 When the control unit 73 controls the means 55 and the rice supply means 57, the rice in the rice binding portion 53 is discharged when the rice discharging means 55 is energized and discharged to the rice receiving portion 54. The rice discharging means 55 can be de-energized after all the rice has been discharged to the rice receiving portion 54.
[0102]
  Therefore, since the rice discharge port 74a of the rice storage container 74 shown in FIG. 1 can be closed by the rice discharge means 55 in the state where the rice is not in the rice binding portion 53, the rice is discharged from the rice discharge port 74a and the rice discharge. It is possible to reduce the possibility of being caught between the means 55 and being cracked when caught.
[0103]
  Therefore, it can further reduce that rice cooking performance falls by rice cracking.
[0104]
  Even in a configuration in which the rice supply unit does not have the rice splint portion 53, the rice weighing unit 52 can always measure a certain amount of rice, so that a constant amount of rice can always be supplied to the rice receiving unit 54. it can. If a constant amount of rice is always supplied to the rice receiving unit 54, the energization time Tα of the rice supplying means 57 in the rice supplying process may be made constant as shown in FIG.
[0105]
  Further, in a configuration in which rice is discharged little by little from the rice storage unit 51 directly to the rice receiving unit 54 without having the rice weighing unit 52, an opening / closing means (not shown) for opening and closing the discharge port (not shown) of the rice storage unit 51. The rice can be discharged from the rice storage unit 51 to the rice receiving unit 54, but at this time, since a small amount of rice existing in the rice storage unit 51 needs to be supplied to the rice receiving unit 54, it is opened and closed. The means needs to forcibly close the discharge port of the rice storage unit while the rice is being discharged from the rice storage unit 51, and when the opening / closing means forcibly closes the discharge port of the rice storage unit 51, Is put between the outlet of the rice storage unit 51 and the opening / closing means, or cracked when it is pinched, it is desired to discharge to the rice receiving unit 54 by using the configuration having the rice measuring unit 52 Because rice can be temporarily stored in the rice weighing unit 52, rice is caught , It is possible to reduce that or cracked caught the US.
[0106]
  Then, as shown in FIG. 9, after repeating the rice discharge / feeding process a predetermined number of times (twice in FIG. 9), the rice supply process KA is performed at least once, so that a predetermined number of times of rice discharge / supply After the rice process is performed, all the rice remaining in the vicinity of the rice supply path 58 and the rice introduction valve 60 can be supplied to the pan 67 of the rice cooking unit 56.
[0107]
  Therefore, since all the predetermined amount of rice can be reliably supplied to the pan 67 of the rice cooking unit 56, the amount of rice is less than the predetermined amount of water, so that the amount of water is higher than the predetermined amount of rice. Can be reduced, and rice cooking performance can be reduced.
[0108]
  In addition, as shown in FIG. 10, you may perform the rice supply process KA, after repeating the rice measurement process, the rice cutting process, the rice discharge | release process, and the rice supply process predetermined times.
[0109]
  Then, as shown in FIG. 11 (a), the control unit 73 operates so that the rice metering unit 52, the rice metering unit 52 starts when the rice feeding unit 57 operates, that is, when the rice feeding process starts. By controlling the cutting section 53, the rice discharging means 55, and the rice feeding means 57, the next rice can be weighed while the rice is being supplied from the rice receiving section 54 to the pan 67 of the rice cooking section 56. Therefore, as shown in FIG. 11B, rather than measuring the next rice after the rice-feeding process is finished, the amount of rice that the user wants to cook is transferred from the rice storage unit 51 to the pan 67 of the rice cooking unit 56. The time to supply to can be shortened by T2.
[0110]
  Therefore, the operation time of the automatic rice cooker 50 can be shortened.
[0111]
  Even if the rice weighing unit 52 and the rice binding unit 53 are operated while the rice supply unit 57 is operating, the rice discharge unit 55 closes the rice discharge port 74a of the rice storage container 74. The air flow generated by the rice means 57 does not enter the rice edge 53.
[0112]
  Further, when the rice supplying means 57 is operating, not only the rice weighing unit 52 but also the rice cutting unit 53 may be operated.
[0113]
  In addition, as shown in FIG. 12, the rice metering process, the rice cutting process, the rice discharging process, the rice feeding process, and the rice feeding process are repeated, that is, the rice feeding process is repeated from each rice weighing process to the rice feeding process. It may be performed at least twice.
[0114]
  Then, as shown in FIG. 13, the rice bran collecting unit 78 and the rice feed port 57a of the rice supplying means 57 are connected by the rice cake suction path 81, and as shown in FIG. 14, the rice supplying means 57 is operated even during the rice cutting process. By doing so, the rice bran 77 generated during the rice cutting process can be moved to the rice bran collection unit 78 by the suction force of the rice supplying means 57.
[0115]
  Therefore, it is possible to improve the performance of removing the rice bran 77 from the rice in the rice cutting process, and it is not necessary to separately provide the rice bran suction means, and the automatic rice cooker 50 is configured with a low-cost and compact configuration. be able to.
[0116]
  Also in this configuration, as shown in FIG. 15, during the rice feeding process, the rice weighing unit 52 may be operated to measure the next rice.
[0117]
  Further, during the rice cutting process, the rice drive valve 61 may open the rice feed port 59 by operating the valve drive unit 61 in conjunction with the operation of the rice feed means 57, as shown in FIG. In addition, an exhaust path 82 for discharging the air flow generated by the rice supplying means 57 to the outside of the automatic rice cooker 50 may be provided. When the exhaust path 82 is provided and rice is not supplied to the pan 67 of the rice cooking unit 56, that is, when the rice supply means 57 sucks only rice cake, the rice input valve 60 may close the rice supply port 59. .
[0118]
【The invention's effect】
  As described above, according to the present invention, by stopping the rice supply means after operating it, the rice turning in the rice receiving part while the rice supply means is operating is caused to fall by the natural fall. Can be moved to.
[0119]
  Therefore, it can be reduced that the rice keeps turning in the rice receiving part without going out from the rice receiving part, so that the rice in the rice receiving part can be supplied to the rice cooking part and the rice receiving part in the rice receiving part. Reduces the time that existing rice stays in contact with the air flow generated by the rice supply means, reduces cracking and cracking of rice, and reduces rice cooking performance be able to.
[Brief description of the drawings]
FIG. 1 is a sectional view of an automatic rice cooker according to a first embodiment of the present invention.
[Fig. 2] (a) A diagram showing a control method of rice supplying means in the rice supplying process of the automatic rice cooker.
  (B) The figure showing the control method of the rice supply means in the rice supply process of the conventional automatic rice cooker
FIG. 3 is a view showing a state in which rice is discharged to the rice receiving part of the automatic rice cooker.
FIG. 4 is a view showing a state in the vicinity of the rice receiving portion during the first rice feeding process of the automatic rice cooker.
FIG. 5 is a view showing a state in the vicinity of the rice receiving portion when the first rice feeding process of the automatic rice cooker is completed.
FIG. 6 is a diagram illustrating a control method of the rice weighing unit, the rice binding unit, the rice discharging unit, and the rice feeding unit when the rice measuring unit measures an amount smaller than the amount that the user of the automatic rice cooker wants to cook.
FIG. 7 is a diagram showing a method for controlling rice discharging means and rice supplying means of an automatic rice cooker according to a second embodiment of the present invention.
FIG. 8 is a diagram showing a control method of the rice measuring unit, the rice-together unit, the rice discharging unit, and the rice supplying unit when the rice measuring unit measures an amount smaller than the amount that the user of the automatic rice cooker wants to cook.
FIG. 9 is a diagram showing a control method of rice discharge means and rice supply means of the automatic rice cooker and a control method of rice supply means after supplying rice to the rice cooking unit.
FIG. 10 shows a control method of rice measuring section, rice cutting section, rice discharging means and rice feeding means and rice when the rice measuring section measures an amount smaller than the amount that the user of the automatic rice cooker wants to cook. The figure showing the control method of the rice supply means after supplying to a rice cooking part
FIG. 11A is a diagram showing a control method in the case of simultaneously operating the rice feeding means and the rice weighing unit of the automatic rice cooker.
  (B) The figure showing the control method in the case of not operating the rice supply means and rice measuring part of the automatic rice cooker simultaneously.
FIG. 12 is a diagram illustrating another example of the control method when the rice feeder and the rice weighing unit of the automatic rice cooker are operated simultaneously.
FIG. 13 is a cross-sectional view of the automatic rice cooker when the intake port of the rice supplying means is connected to the rice bran collecting unit.
FIG. 14 is a diagram showing a control method of the rice weighing unit, the rice binding unit, the rice discharging unit, and the rice supplying unit when the intake port of the rice supplying unit of the automatic rice cooker is connected to the rice bran collecting unit.
FIG. 15 is a diagram showing another example of the control method of the rice weighing unit, the rice binding unit, the rice discharging unit, and the rice supplying unit when the intake port of the rice supplying unit of the automatic rice cooker is connected to the rice bran collecting unit.
FIG. 16 is a sectional view of a conventional automatic rice cooker
FIG. 17 is a view showing a state in which rice is discharged to the rice receiving part of the automatic rice cooker.
FIG. 18 is a view showing a state in the vicinity of the rice receiving portion during the rice feeding process of the automatic rice cooker.
[Explanation of symbols]
  50 Automatic rice cooker
  51 Savings Department
  52 Rice Measuring Department
  53 Rice Toibu
  54 Rice reception
  55 Rice discharge means
  56 Cooking rice
  57 Rice supply
  57a Inlet
  58 Rice supply
  77 糠
  78 Trap collection part

Claims (2)

A rice cooking unit for cooking rice, a rice storage unit for storing rice to be supplied to the rice cooking unit, a rice receiving unit for discharging rice supplied from the rice storage unit to the rice cooking unit, the rice receiving unit and the rice A rice feed path for connecting the rice cooking unit and a rice feed means for blowing air to the rice feed path for supplying rice from the rice receiving unit to the rice cooking unit, and less than a predetermined amount set in advance. After the amount of rice is discharged to the rice receiving unit, the rice supplying means starts operating, and the rice supplying means operates at least twice to operate and stop for a predetermined time. Automatic rice cooker that repeats until it is supplied to the rice cooker. A rice cooking unit for cooking rice, a rice storage unit for storing rice to be supplied to the rice cooking unit, a rice receiving unit for discharging rice supplied from the rice storage unit to the rice cooking unit, the rice receiving unit and the rice A rice feed path that connects the rice cooking section and a rice feed means that blows air to the rice feed path to supply rice from the rice receiving section to the rice cooking section, and is preset from the rice storage section. The amount of rice less than the predetermined amount is discharged to the rice receiving unit, and the rice supplying means repeats until the predetermined amount of rice is supplied to the rice cooking unit, and a predetermined number of rice discharging / feeding steps are performed. Later, an automatic rice cooker that operates the rice supply means at least once.

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