JP4019864B2 - Rice sharpener - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a white rice cutter for mainly cooking rice.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, various types of rice cutters that automatically cut rice are known. An example is shown in FIG.
[0003]
The figure shows a part of a rice sharpener incorporated in an automatic rice cooker, a rice storage part 1 for storing rice, a rice weighing means 2 for weighing rice, a rice sharpening part 3 having a rice polishing means for breaking rice, A rice cake collecting unit 5 and a suction means 6 for collecting rice cake 4 generated when rice is collected are provided.
[0004]
The rice binding portion 3 includes an outer container 7 having a substantially cylindrical side wall and connected to the cocoon collecting portion 5, and a rice having a substantially cylindrical side wall and a hole through which rice does not pass. The storage container 8 is provided with a rotary blade 9 that is rotatably disposed therein and has a brush on its outer surface, and a driving means 10 that drives the rotary blade 9. The bag collecting unit 5 is provided with a filter bag 11 made of a paper pack or the like that can be freely removed by the user.
[0005]
The operation will be described in the above configuration. When the user inputs rice into the rice storage unit 1 and inputs the amount of rice to be cut, the operation is started when an operation start button (not shown) is pressed.
[0006]
When the operation is started, the control means operates the rice weighing means 2 to perform a rice weighing step of weighing only a predetermined amount of rice input by the user from the rice stored in the rice storage unit 1, The rice is supplied to the rice fork 3.
[0007]
When a predetermined amount of rice is supplied to the rice binding unit 3, the rice cutting unit 4 operates the polishing means to rotate the rotary blade 9. The rice circulates between the brush surface of the rotary blade 9 and the inner surface of the rice storage container 8 to perform a rice cutting process in which the rice bran on the surface of the rice is removed from the rice mainly by frictional force. The rice bran 4 discharged from the storage container 8 is conveyed to the straw collecting unit 5 and collected in the filter bag 11.
[0008]
After completion of the rice-slicing process, the rice from which the rice bran has been removed is taken out as it is, or in the case of an automatic rice cooker, it is automatically conveyed to a rice cooker (not shown), and after supplying a predetermined amount of water, Cooking rice is automatically started.
[0009]
[Problems to be solved by the invention]
However, in the above-described conventional rice sharpener configuration, since the filter bag 11 for collecting the rice bran 4 is mounted in a groping state, the filter bag 11 may not be completely mounted. If the mounting was incomplete, the rice bran 4 could not all be collected in the filter bag 11 and scattered by the suction means 6 to the outside of the casing, which was inconvenient. In addition, there is a problem that the suction performance deteriorates due to the accumulation of rice bran on the suction means 6, and as a result, the rice bran collection ability may be deteriorated.
[0010]
SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and is a rice scissor that can easily and surely set the soot collection container and soot collection filter of the soot collecting unit at predetermined positions, and can ensure the ability to collect rice bran and automatic The purpose is to provide rice cookers.
[0011]
[Means for Solving the Problems]
In order to achieve the above-described object, the rice- shearing device of the present invention is a rice- shearing device in which the rice-pull collecting unit collects and stores the rice- powder collected and stored in the rice-punching portion, possess a bran collecting container detachably attached to the US sharpener unit, connected to the bran collecting container air exhaust path for discharging the bran collecting air, it is provided with a detection means for the detection of the presence or absence of the rice bran.
[0012]
As a result, the soot collection filter is contained in the soot collection container so that it can be set securely, and when the soot collection part is mounted, the soot collection filter is contained in the soot collection container, so that the soot collection filter is It is only necessary to visually check the presence or absence of the waste and to set only the soot collection container at a predetermined position. For this reason, set mistakes can be reduced, and rice bran collection performance can be ensured. Furthermore, it is possible to detect the leakage of rice bran due to breakage of the rice bran collection filter, etc., thereby improving the usability of the rice sharpener and ensuring the rice bran collection performance.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 includes a rice-shear portion provided in a rice-shearing device housing, and a rice-bowl collecting unit that collects rice bran generated in the rice-shear portion, possess a bran collecting filter accommodating recovered bran generated, and a bran collecting container detachably attached to the housing or rice sharpening section sharpening the rice encloses the bran collecting filter, bran connected to bran collecting container By using a rice scissor with a detection means for detecting the presence or absence of rice bran in the air discharge path for discharging the collected air , the straw collection filter can be reliably set because it is contained in the straw collection container. When installing the soot collection unit, since the soot collection filter is contained in the soot collection container, the presence or absence of the soot collection filter can be visually confirmed, and only the soot collection container needs to be set at a predetermined position. For this reason, set mistakes can be reduced, and rice bran collection performance can be ensured.
[0014]
In particular, it is possible to detect rice bran leakage due to breakage of the rice bran collection filter, improve the usability of the rice sharpener, and ensure rice bran collection performance.
[0015]
The invention according to claim 2 is a rice scissor that is provided with a detecting means for detecting pressure in the path in the air discharge path that is connected to the paddle recovery container and discharges the paddy recovery air. By detecting the difference in pressure loss in the path due to the presence or absence of a filter, the presence or absence of a soot collection filter can be determined. In addition, the amount of air passing through the air discharge path is reduced by the accumulation of rice bran in the soot collection filter, and therefore the pressure loss difference is further generated, so that the full time of rice straw accumulation can be reported, etc. The rice bran collection performance can be secured.
[0016]
According to a third aspect of the present invention, in the state where the upper edge portion of the side wall of the cocoon recovery container is in contact with the rice edge case or the rice edge portion through the side wall edge portion of the heel recovery filter, Or , by using a rice-shearing device that is locked and held in the rice-shearing part, there is a large amount of looseness of the soot-collecting container without the soot-collecting filter. Therefore, the presence / absence of the rice bran collection filter can be determined, the usability of the rice scissors can be improved with a very inexpensive and simple configuration, and the rice bran collection performance can be secured.
[0017]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0018]
Example 1
FIG. 1 shows a rice cutter in Example 1 of the present invention.
[0019]
As shown in the figure, a rice storage unit 21 for storing rice, a rice weighing means 22 provided at the bottom of the rice storage unit 21, and a rice binding unit for holding the measured rice 23, a rice bran collecting unit 25 for collecting the rice bran 24 generated when the rice is picked up, and a recovery drive means 26 for the rice bran 24. At the same time, a control means 27 for controlling the weighing of rice, rice shears, recovery of the rice bran 24, etc., a drive means 28 for the rice shearing portion 23, and a rice container 29 for receiving the rice that has been severed are also provided.
[0020]
The rice storage unit 21 supplies and stores rice appropriately from the outside, and the rice weighing means 22 measures a predetermined amount of rice by opening and closing the rice supply hole 30 with an opening / closing member that rotates. Is something that can be done.
[0021]
Moreover, the rice-together part 23 has a substantially cylindrical side wall, and has an outer container 31 connected to the straw collection part 25 at the bottom, a substantially cylindrical side wall inside thereof, and a size that does not allow rice to pass through. A rice storage container 33 provided with a large number of holes 32 and a rotary blade 35 rotatably disposed therein and having a brush 34 on the outer surface thereof. The rotary blade 35 is coupled by a drive means 28 coupled to each other. It is rotationally driven. When the rice cutting is completed, the discharging means 36 operates to supply rice to the rice container 29.
[0022]
The rice bran collecting unit 25 includes a rice cake collecting filter 37 that collects and stores the rice bran 24 generated in the rice cutting unit 23, and a rice cake collecting filter 37 that is detachably attached to the rice cutting case 20 or the rice cutting unit 23. It has the soot collection container 38 attached.
[0023]
The soot collection filter 37 has a ring-shaped cylindrical shape, the top surface is open, and the bottom has a mesh structure made of paper or a resin material such as nylon, PP, polyester, ABS, etc. Similar to the recovery filter 37, the upper surface is open with a ring-shaped cylindrical shape. The soot collection filter 37 is positioned at the open portion of the soot collection container 38 and is detachably mounted. In this embodiment, the soot collection container 38 is held by the locking means 39 in a state of containing the soot collection filter 37. It is attached in a detachable manner in close contact with the bottom of the rice-together 23. This shortens the soot collection path to improve the efficiency of soot collection. As the locking means 39, various methods such as screw connection or hook fastening other than the patch-on lock shown in the figure can be considered.
[0024]
The lower part of the soot collection container 38 (below the soot collection filter 37) is separable from the air discharge path 40 of the collection drive means 26, and the air discharge path 40 is set by setting the soot collection container 38 at a predetermined position. To be connected. Various connection configurations of the soot collection container 38 and the air discharge path 40 are conceivable. For example, when the end of the air discharge path 40 is formed of an elastic body and the soot collection container 38 is set at a predetermined position, An appropriate configuration such as a configuration in which the cylindrical portion provided on the side surface of the soot collection container 38 fits into the elastic body at the end of the air discharge path 40 can be employed.
[0025]
The operation in the above configuration will be described. When a certain amount of rice weighed by the rice weighing means 22 is introduced from the rice storage unit 21 into the rice storage container 33 in the rice binding part 23, the control means 27 operates the driving means 28 according to the rice cutting process program. Let When the driving means 28 is operated, the rotary blade 35 is rotated, and a rice cutting process for cutting the rice stored in the rice storage container 33 is performed.
[0026]
In the rice torsion, rice circulates between the brush 34 surface of the rotary blade 35 and the inner surface of the rice container 33, thereby removing the rice bran 24 on the surface of the rice mainly by friction. The removed rice bran 24 is discharged between the outside of the side wall of the rice storage container 26 and the inside of the side wall of the outer container 31 through the hole 32 of the rice storage container 33. At the same time, the rice bran 24 is collected from the bottom hole of the outer container 31 into the straw collection filter 37 in the straw collection unit 25 by the suction force generated by the operation of the collection driving means 26. The air from which the rice bran has been removed is discharged out of the rice paddle casing 20 through the air discharge path 40. The rice from which the rice bran 24 has been removed is supplied to the rice container 35 by the operation of the discharging means 36 after the end of the rice cutting process.
[0027]
The rice in the rice container 35 is taken out as it is, or in the case of an automatic rice cooker, it is automatically conveyed to a rice cooker (not shown), and after a predetermined amount of water is supplied, rice cooking is automatically started. It is.
[0028]
Note that the rice bran 24 collected in the rice bran collection filter 37 can be removed from the rice binding portion 23 in this embodiment by removing the locking means 39, so that the rice bran together with the rice bran collection filter 37 can be removed. It can be taken out of the case 20 (the takeout configuration of the rice case 20 is not shown) and the rice bran 24 can be discharged.
[0029]
Further, since the rice binding portion 23 side and the drive means 28 can be separated by coupling, the rice binding portion 23 and the rice cake recovery portion 25 are held together by the locking means 39 and are put together outside the rice binding case 20. The rice bran 24 can be processed and each part can be cleaned.
[0030]
As described above, according to the present embodiment, the soot collection filter 37 can be reliably set only by being included in the soot collection container 38, and when the soot collection unit 25 is mounted, the presence or absence of the soot collection filter 37 can be visually confirmed. In addition, it is only necessary to set only the rice bran collection container 38 at a predetermined position, and it is possible to reduce set mistakes with a simple configuration, to improve the usability of the rice sharpener, and to ensure the rice bran collection performance. it can.
[0031]
Moreover, if the rice cake collection | recovery part 25 is directly attached to the rice cutting part 23, a rice cake collection | recovery path will become unnecessary and cost reduction can be aimed at. Note that, as described above, the same effect can be obtained by attaching the paddle collecting unit 25 to the rice stirrer casing 21 instead of attaching it to the rice binding unit 23.
[0032]
( Reference Example 1 )
FIG. 2 shows a rice cutter in Reference Example 1 of the present invention. Since the basic configuration is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0033]
As shown in the figure, the present reference example is provided with detecting means 41 or 42 for detecting the presence or absence of at least one of the soot collection container 38 or the soot collection filter 37.
[0034]
In the present reference example, the detection means 41 is configured to include a magnet 43 at the bottom of the paddle recovery filter 37 and a reed SW 44 that operates with the magnet 43 at the opposite position on the bottom surface of the rice sharpener housing 20. Further, the detection means 42 includes a protrusion 45 on the bottom of the paddle collecting container 38 and a micro SW 46 that operates upon contact with the protrusion 45 on the bottom of the rice sharpener housing 20.
[0035]
In addition, it is the same even if it uses a non-contact type means, for example, a photo sensor, instead of the lead SW 44, and it is the same if a non-contact type means such as a magnetic sensor or a photo sensor is used instead of the micro SW 46. . Further, only one of the detection means of the soot collection container 38 or the soot collection filter 37 may be used.
[0036]
As described above, according to the present reference example, since the presence or absence of the koji collection container 38 or the koji collection filter 37 is directly detected, the determination can be made more reliably and the usability of the rice scissors can be improved and the rice koji collection performance can be ensured. be able to.
[0037]
(Example 2 )
FIG. 3 shows a rice cutter in Example 2 of the present invention. Since the basic configuration is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0038]
As shown in the figure, in this embodiment, a detection means 47 for detecting the presence or absence of rice bran is provided in the air discharge path 40 that is connected to the straw collection container 38 and discharges the straw collection air. The detecting means 47 uses an optical sensor in this embodiment.
[0039]
Here, it is natural to forget to attach the soot collection filter 37. However, even if the soot collection filter 37 is damaged and the rice bran 24 passes through the soot collection filter 37, the detection means 47 does not emit light. Since the rice bran 24 passing between the sensors is detected, an abnormality is determined.
[0040]
As described above, according to the present embodiment, not only the presence / absence of the rice cake recovery filter 37 but also the rice cake leakage caused by the damage of the rice cake collection filter 37 can be determined, and the usability of the rice cutter is improved. Can be secured.
[0041]
(Example 3 )
FIG. 4 shows a rice cutter in Example 3 of the present invention. Since the basic configuration is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0042]
As shown in the figure, in the present embodiment, a detection means 48 for detecting pressure in the path is provided in an air discharge path 40 that is connected to the soot recovery container 38 and exhausts soot recovery air. The detection means 48 is a pressure sensor.
[0043]
Further, if a check valve 49 is provided in the air discharge path 40 between the recovery drive means 26 and the rice sharpener housing 20 that opens when air is discharged and closes otherwise, the internal pressure of the air discharge path 40 is stably maintained. Therefore, the pressure detection performance can be improved and the detection can be made even when the recovery drive means 26 is not operating, which is further effective.
[0044]
Thus, according to the present embodiment, when the recovery drive means 26 is operating, the pressure in the air discharge path 40 becomes negative due to the pressure loss of the mesh portion of the soot recovery filter 37, so the pressure loss difference inside the path is reduced. By detecting, the presence or absence of the soot collection filter 37 can be determined.
[0045]
In addition, the accumulation of rice bran 24 in the soot collection filter 37 reduces the amount of air passing through the air discharge path 40. Accordingly, a further pressure loss difference can be generated to notify the full timing of rice straw accumulation. The usability of the vessel can be improved and the rice bran recovery performance can be secured.
[0046]
( Reference Example 2 )
FIG. 5 shows a rice cutter in Reference Example 2 of the present invention. Since the basic configuration is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0047]
As shown in the figure, in this reference example, the inside of the soot collection container 50 is made visible from the outside. That is, the soot collection container 50 is made of a transparent or translucent material, and the presence or absence of the soot collection filter 37 can be confirmed from the outside.
[0048]
As described above, according to this reference example, the user can visually check the presence or absence of the soot collection filter 37 from the outside of the soot collection container 50 even after the soot collection unit 25 is attached. The usability of rice bran can be improved and the rice bran recovery performance can be secured.
[0049]
(Example 4 )
FIG. 6 shows a rice cutter in Example 4 of the present invention. Since the basic configuration is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0050]
As shown in the figure, in this embodiment, the rice bran collection container 38 has the upper side edge 52 of the side wall sandwiched between the side wall edge 53 of the rice hull collection filter 51 (the sandwiched case) 20 or the rice edge portion 23. In the state of being brought into contact with the rice, it is held and held by the locking means 39 on the rice case 20 or the rice binding portion 23. The height of the side wall edge part 53 should just be 0.5 mm or more. The soot collection filter 51 is the same as the soot collection filter 37 of Example 1 except that it has a side wall edge 53.
[0051]
As described above, according to the present embodiment, the backlash (0.5 mm or more) is large without the soot recovery filter 51, and the soot recovery container 38 cannot be attached to the rice case 20 or the rice end portion 23. The presence or absence of the soot collection filter 51 can be easily confirmed. Therefore, it is possible to improve the usability of the rice cutter with a very inexpensive and simple configuration and to secure the rice bran collection performance.
[0052]
( Reference Example 3 )
FIG. 7 shows an automatic rice cooker in Reference Example 3 of the present invention. Since the basic configuration of the rice sharpener is the same as that of the first embodiment, the same portions are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
[0053]
As shown in the figure, in this reference example, a rice cooking unit 54 is provided above the rice scissor housing 20 so that the rice in the rice container 35 can be automatically supplied to the rice cooking unit 54 by the rice conveying means 55. It has become. In addition, rice cooking water is supplied from the water supply means 56 to the rice cooking unit 54 so that rice can be cooked. That is, a series of operations from rice weighing, rice cutting, rice discharge, rice bran recovery, rice conveyance, and rice cooking can be automatically performed.
[0054]
US Sharpener automatic rice cooker in the present reference example, adopts a those shown in Example 1, clear it may be a rice Sharpener shown in Example 2-4 is not limited thereto It is.
[0055]
Thus, according to this reference example, automation from rice measurement to rice cooking can be performed, and an automatic rice cooker with higher added value can be provided.
[0056]
In addition, the rice cutter shown in each Example 1-4 can be comprised combining suitably, and is not restricted to the single structure of each Example.
[0057]
【The invention's effect】
As described above, according to the rice scissors and the automatic rice cooker of the present invention, the straw collection container and the straw collection filter of the straw collection unit can be easily and reliably set at predetermined positions, and the rice bran collection performance can be ensured. Is.
[Brief description of the drawings]
[1] US sharpeners of the cross section of a second embodiment of US Sharpener sectional view sectional view of US sharpeners in Reference Example 1 of the present invention; FIG 3 shows the present invention in the first embodiment of the present invention Figure sectional view of US sharpeners in example 3 of the present invention; FIG 5 shows rice sharpener according to a fourth embodiment of the present cross-sectional view of US sharpeners in reference example 2 of the invention the present invention; FIG Cross-sectional view [FIG. 7] Cross-sectional view of an automatic rice cooker in Reference Example 3 of the present invention [FIG. 8] Partial cross-sectional view of a conventional rice stirrer
20 Rice sharpener case 23 Rice shearing section 25 Reed recovery part 26 Recovery drive means 27 Control means 31 Outer container 33 Rice storage container 37, 51 Reed recovery filter 38, 50 Reed recovery container 40 Air discharge path 41, 42, 47, 48 detection means 52 side wall upper edge 53 side wall edge 54 rice cooking part

Claims (3)

The rice-shearing device is provided with a rice-shearing unit provided in the rice-shearing device casing, and a rice-powder collecting unit that collects the rice-koji generated in the rice-shearing unit. a collecting filter, bran collecting filter encloses a have a said rice sharpening bran collecting container detachably attached to the housing or rice sharpening section, a ventilation path for discharging the bran collecting air connected to bran collecting container A rice cutter equipped with detection means to detect the presence or absence of rice bran . The rice-shearing device is provided with a rice-shearing unit provided in the rice-shearing device casing, and a rice-powder collecting unit that collects the rice-koji generated in the rice-shearing unit. A recovery filter, and a rice cake recovery container containing the rice cake recovery filter and detachably attached to the rice case housing or the rice knife portion, and connected to the rice cake recovery container to discharge the rice cake recovery air. A rice cutter equipped with detection means for detecting pressure in the path. The rice-shearing device is provided with a rice-shearing unit provided in the rice-shearing device casing, and a rice-powder collecting unit that collects the rice-koji generated in the rice-shearing unit. A recovery filter and a trap collection container that includes the trap recovery filter and is detachably attached to the rice case or the paddle portion, and the upper edge of the side wall of the trap recovery container is the side wall edge of the trap recovery filter. A rice-shearing device adapted to be held and held by the rice-shearing casing or the rice-shearing part in a state of being in contact with the rice-shearing casing or the rice-shearing part via the part.

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