JPS6078647A - Continuous moistening rice refiner of rice grains - Google Patents
Continuous moistening rice refiner of rice grainsInfo
- Publication number
- JPS6078647A JPS6078647A JP18652983A JP18652983A JPS6078647A JP S6078647 A JPS6078647 A JP S6078647A JP 18652983 A JP18652983 A JP 18652983A JP 18652983 A JP18652983 A JP 18652983A JP S6078647 A JPS6078647 A JP S6078647A
- Authority
- JP
- Japan
- Prior art keywords
- rice
- grains
- milling
- grain
- humidifying
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Adjustment And Processing Of Grains (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】 本発明は米粒の連続加湿精米装置の改良に関する。[Detailed description of the invention] TECHNICAL FIELD The present invention relates to an improvement in a rice milling device that continuously moisturizes rice grains.
従来の摩擦式連続精米装置では、玄米に対して歩留91
%程度まで精白が進行すると米粒面が硬質化して精白作
用の進行が目立って緩慢になるか停止してしまい、特に
米粒縦溝内に固着した糊粉層の除去は至難とされていた
。また、米粒は1時間以内に1%以上の水分か乾燥する
と亀裂を発生し、この乾減率において1%以下の水分で
も短時間内に水分が乾燥すると米粒に亀裂を発生する。Conventional friction-type continuous rice milling equipment has a yield of 91% for brown rice.
When the whitening progresses to about 10%, the surface of the rice grain becomes hard and the progress of the whitening process becomes noticeably slow or stops, and it has been considered extremely difficult to remove the aleurone layer stuck in the longitudinal grooves of the rice grain. Moreover, if rice grains become dry within one hour with a moisture content of 1% or more, cracks will occur, and even if the moisture content is 1% or less at this drying rate, cracks will occur in rice grains if the moisture dries within a short period of time.
一般に15%の標準水分率の白米は水中に浸漬しても亀
裂にならないので炊飯したご飯の食味が良好である。ご
飯の悪法原因は水中亀裂した割目に吸水するから、炊飯
時に糊精が湧出し飯粒が崩れ噛みごたえのない悪法のご
飯に炊上がり、食味を着しく悪化するものである。In general, white rice with a standard moisture content of 15% does not crack even when soaked in water, so the taste of the cooked rice is good. The reason for the bad cooking of rice is that water is absorbed by the cracks in the water, so when the rice is cooked, paste essence gushes out and the grains of rice crumble, resulting in cooked rice that is not chewy and has a bad taste.
本発明は、上記の諸問題に対処し、米粒に適量の水分を
粒全面均一に添加してその薄層を軟質化し、該白米を摩
擦搗精して軟質化した前記薄層を剥離し除糠しながら琢
磨する一貫的な加湿精米行程を形成し、合理的な加湿作
用と高率的な精白作用をr!A運的に、かつ連続的に実
施し、強力な超光沢面で、しかも、適量水分の米粒亀裂
のない良質精白米に加工して量産する連続加湿精米装置
を提供することを目的とするものである。The present invention addresses the above-mentioned problems by uniformly adding an appropriate amount of water to the entire surface of the rice grain to soften the thin layer, and then polishing the polished rice by friction to peel off the softened thin layer and remove the rice bran. By forming a consistent humidification and polishing process that refines rice while polishing it, R! A. The purpose of the present invention is to provide a continuous humidifying rice milling device that can efficiently and continuously process and mass-produce high-quality polished rice with a strong, ultra-shiny surface, an appropriate amount of moisture, and no cracks. It is.
この目的を達成するために、本発明の米粒の連続加湿精
米装置は、複数個の精米機を直列状に配設した精米装置
において、前記各精米機の前または後および連絡行程に
湿風を米粒に接触させて加湿する米粒加湿装置を設けて
一貫的な加湿精米行程を形成したことを特徴とする。In order to achieve this objective, the continuous humidification rice milling device for rice grains of the present invention is a rice milling device in which a plurality of rice milling machines are arranged in series, and humid air is applied before or after each of the rice milling machines and in a communication process. The present invention is characterized in that a rice grain humidifying device is provided to humidify the rice grains by bringing them into contact with each other to form a consistent humidifying rice polishing process.
本発明を実施例図について説明する。第1図には、米粒
の連続加湿精米装置が符号1で全体的に示されている。The present invention will be explained with reference to embodiment figures. In FIG. 1, a rice milling apparatus for continuously humidifying rice grains is indicated generally by the reference numeral 1.
原料玄米は揚米機2によって第1精米機4の前部に設け
た米粒加湿装置3に揚穀して供給され、加湿して米粒表
面を軟質化すると共に、その米粒は第1精米機4に流入
し摩擦搗精して精米歩留率97%程度に精白される。続
いて、該米粒は揚米機5によって第2精米!fi7の前
部に設けた米粒加湿装置6に揚穀して供給され、米粒表
面を軟質化すると共に、その米粒は第2精米機7に流入
し摩擦搗精して精米歩苗率92%程度に精白される。続
いて、該米粒は揚米機8によって第3精米機10の前部
に設けた米粒加湿部@9に揚穀して供給され、米粒表面
を軟質化すると共に、その米粒は第3精米機10に流入
して摩擦搗精されながら研磨され所定の精白度に精白さ
れると共に、その白米は揚米義11によって次行程の大
型の米粒加湿装置12に供給され所定の標準水分率に加
湿して調質され矢髭な良質精白米に加工されて機外に取
出すように形成しである。The raw brown rice is fried and supplied to the rice grain humidifying device 3 installed at the front of the first rice mill 4 by the rice lifting machine 2, which humidifies and softens the surface of the rice grains. The rice flows into the mill and is polished by friction to a milling yield of about 97%. Subsequently, the rice grains are subjected to second polishing by the rice lifting machine 5! The rice grains are fried and supplied to the rice grain humidifying device 6 installed at the front of the fi7, and the surface of the rice grains is softened, and the rice grains flow into the second rice milling machine 7 where they are polished by friction to achieve a milled rice seedling rate of about 92%. Be refined. Next, the rice grains are fried and supplied by the rice lifting machine 8 to the rice grain humidifying section @ 9 provided at the front part of the third rice milling machine 10, and the surface of the rice grains is softened, and the rice grains are fed to the third rice milling machine. 10, the polished rice is polished to a predetermined degree of polishing while being rubbed and refined, and the polished rice is supplied to a large rice grain humidifying device 12 in the next stage by a rice grain lifting device 11, where it is humidified to a predetermined standard moisture content. The rice is tempered and processed into high-quality polished rice, which is then shaped to be taken out of the machine.
前記米粒加湿装置3.6.9は下端を開放して開放部1
3を設けると共に、上端を接合して接合部14とした板
体より成る通風路15を複数列・複数段に亘って加湿用
穀槽16の内部に交互に上下にIQして配設し、一段お
きの各通風路15・・・の一端側を槽壁に設けた排風室
16に連絡して加湿調質室17内の排風を集めて機外に
排除するようにし、また、残りの各通風路15・・・の
他端側を槽壁に設けた給風室18に連絡して湿風発生装
置19で発生した湿風を風管20を介して吸入して加湿
調質室17に供給するようにし、21は穀槽16上部の
供給口、22は穀槽16下部の排出口、また前記加湿調
質室17はその上下部を通風路のない調質部に、またそ
の中間部を通風路のある加湿部にそれぞれ形成し、23
は湿風送風装置、24は空気冷却装置、25は風管に設
けた空気加熱装置、なお、米粒加湿装置12は、前記加
湿部@3を大型化すると共に、精米行程の後部に設置し
である。The rice grain humidifying device 3.6.9 has its lower end opened to form an open part 1.
3, and ventilation passages 15 made of plates whose upper ends are joined to form a joint part 14 are arranged in multiple rows and stages inside the humidifying grain tank 16 in alternating vertical positions, One end side of each ventilation passage 15 at every other stage is connected to the ventilation chamber 16 provided in the tank wall to collect the exhaust air in the humidification conditioning chamber 17 and exhaust it to the outside of the machine. The other end of each ventilation passage 15... is connected to the air supply chamber 18 provided in the tank wall, and the humid air generated by the humid air generator 19 is sucked in through the wind pipe 20 to create a humidification conditioning chamber. 17, 21 is a supply port in the upper part of the grain tank 16, 22 is a discharge port in the lower part of the grain tank 16, and the humidification conditioning chamber 17 is connected to a conditioning section with no ventilation passages in its upper and lower parts; The middle part is formed in a humidifying part with a ventilation passage, and 23
24 is a humid air blowing device, 24 is an air cooling device, and 25 is an air heating device installed in a wind pipe.The rice grain humidifying device 12 is constructed by enlarging the humidifying section @3 and installing it at the rear of the rice milling process. be.
また、前記各精米機4,7.10は、その機枠26内に
多孔壁除糠精白筒27を横架すると共に、該精白筒27
の内部に軸方向に突条28と長溝29を有する摩擦精白
転子30を嵌挿してその間を精白室31となし、前記精
白転子30は、中空精白転子軸32に軸着して回転する
ようにし、前記精白筒27の外周に設けた除糠室33を
排l11134に連結し、35は前記精白転子軸30に
設けた通孔、36は米粒供給口、37は米粒排出口であ
る。In addition, each of the rice polishing machines 4, 7, and 10 has a porous-walled rice polishing cylinder 27 horizontally mounted in the machine frame 26, and the rice polishing cylinder 27
A friction polishing trochanter 30 having a protrusion 28 and a long groove 29 in the axial direction is inserted into the inside of the polishing chamber 31 to form a polishing chamber 31, and the polishing trochanter 30 is rotatably attached to a hollow polishing trochanter shaft 32. The bran removal chamber 33 provided on the outer periphery of the polishing tube 27 is connected to the discharge port 11134, 35 is a through hole provided in the polishing trochanter shaft 30, 36 is a rice grain supply port, and 37 is a rice grain discharge port. be.
上述の溝成であるから、原料玄米を揚米機2によって米
粒加湿装置3に供給すると共に、該装置を起動する。一
般に精米工場に入荷する玄米の水分は14.5%以下で
あり、また、搗精作用による発熱によって0.5〜0.
8%程度の水分が蒸発することになる。前記玄米は米粒
加湿装置3の穀粒流路を流下する間に、下部の湿風発生
装置19で発生した湿風が風管20を介して給風室18
に流入すると共に、該給I!1xisから加湿調質室1
7内に流出し、前記玄米は全粒面均一に湿風を浴びて加
湿すると共に、粒表面を軟質化して下部の第1精米機4
に流下して供給される。該精米機4に流入した玄米は摩
擦精白転子30の回転によって摩擦搗精されて軟質化し
た米粒表面を剥離すると共に、その糠粉は排風機34の
吸引力によって機外に排除され、精米歩留率92%程度
に精白された白米は第1精米機4の米粒排出口37から
排出されて揚米機5を介して次行程の米粒加湿装@6に
供給される。Since the above-mentioned method is used, raw brown rice is supplied to the rice grain humidifying device 3 by the rice lifter 2, and the device is started. Generally, the moisture content of brown rice arriving at rice milling factories is 14.5% or less, and the moisture content of brown rice is 0.5-0.0% due to the heat generated by the milling process.
Approximately 8% of the water will evaporate. While the brown rice flows down the grain channel of the rice grain humidifier 3, the moist air generated by the lower humid air generator 19 passes through the wind pipe 20 to the air supply chamber 18.
With the inflow into the country, the salary I! Humidification conditioning chamber 1 from 1xis
7, the brown rice is uniformly exposed to moist air on all grains, humidified, and softened to soften the surface of the grains.
It flows down and is supplied. The brown rice that has flowed into the rice mill 4 is friction polished by the rotation of the friction polishing trochanter 30 to peel off the softened surface of the rice grains, and the bran powder is removed outside the machine by the suction force of the exhaust fan 34, and the rice grain is removed from the rice milling process. The polished rice polished to a distillation rate of about 92% is discharged from the rice grain discharge port 37 of the first rice miller 4, and is supplied to the rice grain humidifier @6 for the next process via the rice lifter 5.
該加湿装置6に流入した白米は、その米粒表面を前記同
様に加湿されて軟質化すると共に、米粒胚芽部が加湿さ
れて脱芽性を促進して下部の第2N米機7に流下して供
給される。該精米機7に流入した白米は、摩擦精白転子
30の回転によって摩擦搗精され軟質化した米粒面を剥
離すると共に、その糠粉を排除し、また脱芽して蹟米歩
留率97%程度に精白された白米は、第2精米機7の米
粒排出口37から排出されて揚米敢8を介して次行程の
米粒加湿装M9に供給される。該加湿装置9に流入した
白米は、その米粒表面を再び加湿されて下部の第3精米
機1゜に流下して供給される。該精米機1oに流入した
白米は、搗精度が進行して普通の状態では硬質化する米
粒表面が前記加湿により軟質化するので、摩擦精白転子
30の回転によって軟質化した米粒面のWJ層を簡単に
剥離し除糠しながら琢磨し所定精白度で米粒亀裂のない
光沢面の精白米に加工して第3精米1a10の米粒排出
口37から排出すると共に、揚米機11を介して次行程
の大型米粒加湿装@12に供給され、該加湿装置12に
おいて加湿調質および粒々研磨を実施して所定水分率の
美麗な完全精白米に加工して機外に取出されることにな
る。The polished rice that has flowed into the humidifying device 6 is humidified on the surface of the rice grain in the same manner as described above to become soft, and the germ part of the rice grain is humidified to promote degerminating properties, and then flows down to the second N rice machine 7 located at the lower part. Supplied. The polished rice flowing into the rice milling machine 7 is friction polished by the rotation of the friction polishing trochanter 30, and the softened rice grain surface is peeled off, the bran powder is removed, and the rice is debudded, resulting in a rice yield rate of 97%. The polished rice is discharged from the rice grain discharge port 37 of the second rice mill 7 and is supplied to the rice grain humidifier M9 in the next step via the rice lifter 8. The polished rice flowing into the humidifying device 9 is humidified again on the surface of the rice grains, and then flows down and is supplied to the third rice milling machine 1° located at the lower part. The polished rice that has flowed into the rice milling machine 1o is milled with improved milling precision, and the surface of the rice grain, which would normally be hard, becomes soft due to the humidification. The grains are easily peeled off and polished while removing the bran, processed to a predetermined polishing degree, and processed into polished rice with a glossy surface without grain cracks. The large rice grains are supplied to the large rice grain humidifier @12 in the process, where they are subjected to humidification conditioning and particle polishing to be processed into beautiful, fully polished rice with a predetermined moisture content, and then taken out of the machine.
特許請求の範囲第(9項のものは、前記米粒加湿装置に
湿風温度を調節する空気加熱装置25とその米粒流動行
程に米温検出センサー38をそれぞれ設け、前記空気加
熱装置25と前記米温検出センサー38とを関連的に連
結して湿風温度を自動制御するようにしたので、米粒加
湿装置の米粒流動行程における米温を測定して適度の温
湿用を自動的に制御して供給するから、その温湿風によ
って脱芽性の悪い硬質米等の温度と湿度を急増して搗精
における脱芽作用を容易にし、また原料玄米の温度と湿
度を急増してその硬質粒面の搗精を容易にして搗精能率
を向上できる効果がある。Claim No. 9 provides that the rice grain humidifying device is provided with an air heating device 25 that adjusts the temperature of the moist air, and a rice temperature detection sensor 38 is provided in the flow path of the rice grains, and the air heating device 25 and the rice Since the temperature detection sensor 38 is connected in a related manner to automatically control the temperature of the moist air, the rice temperature during the rice grain flow process of the rice grain humidifier is measured and the appropriate temperature and humidity can be automatically controlled. Since the hot and humid air is supplied, the temperature and humidity of hard rice, which has poor germination properties, is rapidly increased to facilitate the germination effect during milling, and the temperature and humidity of the raw brown rice is rapidly increased to improve the hard grain surface. It has the effect of making pounding easier and improving the pounding efficiency.
特許請求の範囲第(4)項のものは、前記精米機が、湿
式摩擦精米機であるので、(第2図参照)各摩擦精米8
4.7.10において、その中空精白転子@12に接合
した噴射ノズル39がら湿風発生装置40で発生した霧
状の湿風が流入し、精白室31内の米粒に噴射し摩IM
搗精・除湿・除糠・琢磨の順に極めて短時間に連続的に
実施するから、搗精作用中において、穀温上昇によって
生ずる砕米を確実に防止できると共に、穀粒水分の蒸発
を完全に防止でき、米粒の硬ad面が露呈して琢磨作用
を活発にし前述した米粒m溝の糊粉層も除去され、゛超
光沢面の無8」白米に加工できる等の効果がある。In claim (4), since the rice polishing machine is a wet friction rice polishing machine (see Fig. 2), each friction rice polishing 8
At 4.7.10, the atomized wet air generated by the wet air generator 40 flows into the injection nozzle 39 connected to the hollow milling trochanter @12, and is sprayed onto the rice grains in the milling chamber 31, causing IM.
Since the steps of milling, dehumidification, bran removal, and polishing are carried out continuously in an extremely short period of time, it is possible to reliably prevent rice from breaking due to a rise in grain temperature during the milling process, and to completely prevent the evaporation of grain moisture. The hard ad surface of the rice grain is exposed, the polishing action is activated, and the aleurone layer in the m-groove of the rice grain mentioned above is also removed, resulting in effects such as being able to be processed into polished rice with a super glossy surface.
なお、図面では加湿精米行程に3台の精米機が直列状に
配駈しであるが、精米機の台数はこれに限定されるもの
でないことは勿論である。In the drawing, three rice polishing machines are arranged in series in the humidifying rice polishing process, but the number of rice polishing machines is of course not limited to this.
また、湿式摩擦精米機とは、摩擦式精米機に湿風発生装
置を連結して精白室内の搗精中の米粒に加湿して搗精し
ながら除糠するように形成 ′した装置を意味するもの
である。In addition, a wet friction rice milling machine is a device that is configured by connecting a humid air generator to a friction rice milling machine to humidify the rice grains being milled in the milling room and remove bran while milling them. be.
このように本発明の米粒の連続加湿精米装置は、米粒に
適量の水分を粒全面均−に添加してその薄層を軟質化し
、該白米を摩擦搗精して前記′a層を剥離し除糠しなが
ら琢磨する一貫的な加湿精米行程を形成したので、合理
的な加湿作用と高率的な精白作用を関連的に、かつ連続
的に実施し、−強力な超光沢面で、しかも適量水分の米
粒亀裂のない良質精白米に確実に加工して量産できる等
の顕著な効果を奏するものである。As described above, the continuous humidifying rice milling device for rice grains of the present invention adds an appropriate amount of water to the rice grains evenly over the entire surface of the grains to soften the thin layer, and then friction polishes the polished rice to peel off and remove the 'a layer. By forming a consistent humidification and polishing process that polishes rice while brazing it, rational humidification and high-efficiency polishing are performed in a related and continuous manner. This method has remarkable effects such as being able to reliably process and mass-produce high-quality polished rice without moisture cracks.
図面は本発明の実施例図である。第1図は連続加湿精米
装置の側面図、第2図は別実絶倒の連続加湿!青米装置
の側面図である。
1・・・加湿精米行程 2・・・揚米機3・・・米粒加
湿装置 4・・・M1精米機5・・・揚米機 6・・・
米粒加湿装置7・・・第2N米機 8・・・揚米機
9・・・米粒加湿装置 10・・・第3精米機1・・・
揚米1! 12・・・米粒加湿装置13・・・開放部
14・・・接合部
15・・・通風路 16・・・加湿用穀槽17・・・加
湿調質室 18・・・給風室19・・・湿風発生装置
20・・・風管21・・・供給口 22・・・排出口
23・・・湿風送風装置 24・・・冷却装置25・・
・空気加熱装置 26・・・載枠27・・・多孔壁除糖
精白F) 28・・・突条29・・・長講 30・・・
摩擦精白転子31・・・精白v 32・・・中空精白転
子軸33・・・除糠苗 34・・・排風機
35・・・通孔 36・・・米粒供給口37・・・米粒
排出口 38・・・米温検出センサー39・・・噴射ノ
ズル 40・・・湿風発生装置特許出願人The drawings are illustrations of embodiments of the present invention. Figure 1 is a side view of the continuous humidification rice milling device, and Figure 2 is a different type of continuous humidification! It is a side view of a green rice device. 1... Humidification rice polishing process 2... Rice lifting machine 3... Rice grain humidifying device 4... M1 rice milling machine 5... Rice lifting machine 6...
Rice grain humidifying device 7...2nd N rice machine 8...Rice lifting machine 9...Rice grain humidifying device 10...3rd rice polishing machine 1...
Fried rice 1! 12...Rice grain humidifier 13...Open part
14... Joint portion 15... Ventilation path 16... Humidification grain tank 17... Humidification conditioning chamber 18... Air supply chamber 19... Humid air generator
20... Wind pipe 21... Supply port 22... Discharge port 23... Moist air blower 24... Cooling device 25...
・Air heating device 26...Mounting frame 27...Porous wall sugar removal whitening F) 28...Protrusion 29...Long lecture 30...
Friction milling trochanter 31... milling v 32... hollow milling trochanter shaft 33... bran removal seedlings 34... ventilator 35... through hole 36... rice grain supply port 37... rice grain Discharge port 38...Rice temperature detection sensor 39...Injection nozzle 40...Moist air generator patent applicant
Claims (4)
おいて、前記各精米機の前または後および連絡行程に湿
風を米粒に接触させて加湿する米粒加湿装置を設けて一
貫的な加湿精米行程を形成したことを特徴とする米粒の
連続加湿精米装置。(1) In a rice milling device in which multiple rice milling machines are arranged in series, a rice grain humidifying device is installed before or after each of the rice milling machines and in the communication process to bring moist air into contact with the rice grains to humidify the grains. A continuous humidifying rice milling device for rice grains, which is characterized by forming a humidifying rice milling process.
熱装置とその米粒流動行程に米温検出センサーをそれぞ
れ設け、前記空気加熱装置と前記米温検出センサーとを
関連的、に連結して湿風温度を自動制御するようにした
特許請求の範囲第り1)項記載の米粒の連続加湿精米装
置。(2) The rice grain humidifying device is provided with an air heating device for regulating humidity and air filtration, and a rice temperature detection sensor is provided in the flow path of the rice grains, and the air heating device and the rice temperature detection sensor are connected in a related manner. The continuous humidifying rice milling device for rice grains according to claim 1), wherein the rice grains are continuously humidified and the rice grain temperature is automatically controlled.
の範囲第(1)項または第(り項記載の米粒の連続加湿
精米装置。(3) The continuous humidifying rice milling device for rice grains according to claim 1 or 2, wherein the rice milling machine is an RS rubbing rice milling machine.
の範囲 加湿精米装置。(4) A humidified rice polishing apparatus according to claim 1, wherein the rice polishing machine is a wet friction rice polishing machine.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP18652983A JPS6078647A (en) | 1983-10-04 | 1983-10-04 | Continuous moistening rice refiner of rice grains |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP18652983A JPS6078647A (en) | 1983-10-04 | 1983-10-04 | Continuous moistening rice refiner of rice grains |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS6078647A true JPS6078647A (en) | 1985-05-04 |
Family
ID=16190087
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP18652983A Pending JPS6078647A (en) | 1983-10-04 | 1983-10-04 | Continuous moistening rice refiner of rice grains |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6078647A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS63194741A (en) * | 1987-02-09 | 1988-08-11 | 株式会社 サタケ | Friction type continuous rice refining apparatus |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5644047A (en) * | 1979-09-19 | 1981-04-23 | Satake Eng Co Ltd | Method and device for rice cleaning |
-
1983
- 1983-10-04 JP JP18652983A patent/JPS6078647A/en active Pending
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5644047A (en) * | 1979-09-19 | 1981-04-23 | Satake Eng Co Ltd | Method and device for rice cleaning |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS63194741A (en) * | 1987-02-09 | 1988-08-11 | 株式会社 サタケ | Friction type continuous rice refining apparatus |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN105768175B (en) | A kind of processing technology of ramuscule cigarette | |
| CN205358191U (en) | Throwing system of ramuscule cigarette | |
| JPS6078647A (en) | Continuous moistening rice refiner of rice grains | |
| JPS6145490B2 (en) | ||
| JPS60179149A (en) | Continuous rice refining apparatus | |
| JPS5936551A (en) | Rice conditioning and polishing apparatus | |
| JPH0335977B2 (en) | ||
| JPH11216374A (en) | Method for milling parboiled rice | |
| JPS608434B2 (en) | Grain low temperature drying equipment | |
| JPH06327986A (en) | Method for heating and humidifying unpolished rice | |
| JPS6017682A (en) | Automatic controller for cereal grain heat-treating device | |
| JPS6121705B2 (en) | ||
| JPS59192050A (en) | Method and apparatus for processing polished rice | |
| JPS58104640A (en) | Quality conditioning grain refining apparatus | |
| JPH0338898B2 (en) | ||
| JPS63194740A (en) | Continuous rice refining apparatus | |
| JPH03206874A (en) | Method for polishing coffee bean and polisher | |
| JPH0732881B2 (en) | White rice humidifier | |
| KR840002120B1 (en) | Method of producing rice of superhigh gloss | |
| JPS60832A (en) | Humidifying rice polishing apparatus | |
| JPS63190655A (en) | Vertical shaft type humidifying rice refining machine | |
| JPS6010778B2 (en) | Wet rice milling equipment | |
| JPH01288343A (en) | Apparatus for humidification of polished rice | |
| JPS6025548A (en) | Rice refining method and apparatus | |
| JPS6219899B2 (en) |