JPH0474055B2 - - Google Patents
Info
- Publication number
- JPH0474055B2 JPH0474055B2 JP2960086A JP2960086A JPH0474055B2 JP H0474055 B2 JPH0474055 B2 JP H0474055B2 JP 2960086 A JP2960086 A JP 2960086A JP 2960086 A JP2960086 A JP 2960086A JP H0474055 B2 JPH0474055 B2 JP H0474055B2
- Authority
- JP
- Japan
- Prior art keywords
- rice
- polishing machine
- supply tank
- supply
- elevator
- 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.)
- Expired
Links
- 241000209094 Oryza Species 0.000 claims description 99
- 235000007164 Oryza sativa Nutrition 0.000 claims description 99
- 235000009566 rice Nutrition 0.000 claims description 99
- 238000005498 polishing Methods 0.000 claims description 40
- 235000021329 brown rice Nutrition 0.000 claims description 35
- 238000003801 milling Methods 0.000 claims description 35
- 238000000034 method Methods 0.000 claims description 7
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims 1
- TUBQDCKAWGHZPF-UHFFFAOYSA-N 1,3-benzothiazol-2-ylsulfanylmethyl thiocyanate Chemical compound C1=CC=C2SC(SCSC#N)=NC2=C1 TUBQDCKAWGHZPF-UHFFFAOYSA-N 0.000 description 3
- 235000013339 cereals Nutrition 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
Landscapes
- Adjustment And Processing Of Grains (AREA)
Description
【発明の詳細な説明】
(産業上の利用分野)
本発明は連座式精米装置における運転制御方法
およびその装置に係るものである。DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an operation control method and apparatus for a co-located rice milling apparatus.
(従来技術)
従来、玄米供給コンベアAの排出樋Cを昇降機
Dの張込口Eに連絡させ、昇降機Dの排出樋Fの
下方に一番精米機Gを設け、一番精米機Gの供給
タンクHには満量センサーIを取付け、満量セン
サーIは前記玄米供給コンベアAのモーターBに
連結して玄米供給コンベアAを「入」「切」させ、
一番精米機Gの排出樋Jを二番昇降機Kの張込ホ
ツパーLに連絡させ、二番昇降機Kの排出樋Mの
下方には二番精米機Nを設け、二番精米機Nの供
給タンクOに満量センサーPを設け、満量センサ
ーPは二番精米機Nの排出部Qに連結したものは
公知である。(Prior art) Conventionally, the discharge gutter C of the brown rice supply conveyor A is connected to the loading port E of the elevator D, and the first rice polishing machine G is installed below the discharge gutter F of the elevator D, and the first rice polishing machine G is supplied. A full level sensor I is attached to the tank H, and the full level sensor I is connected to the motor B of the brown rice supply conveyor A to turn the brown rice supply conveyor A on and off.
The discharge gutter J of the first rice polishing machine G is connected to the tensioning hopper L of the second elevator K, and the second rice polishing machine N is installed below the discharge gutter M of the second elevator K, and the second rice polishing machine N is supplied. It is known that the tank O is provided with a full level sensor P, and the full level sensor P is connected to the discharge part Q of the second rice mill N.
(発明が解決しようとする問題点)
前記公知のものは、満量センサーPで排出樋Q
の流出量を調節するから、二番精米機Nの精白度
にばら付きが生じた。(Problems to be Solved by the Invention) In the above-mentioned known device, the discharge gutter Q is connected to the full amount sensor P.
Because the outflow amount was adjusted, the polishing level of No. 2 rice miller N varied.
また、二番精米機Nが故障して停止したとき
は、一番精米機Gから供給タンクOに供給される
と、オーバーフローするので、一番精米機Gも停
止させていた。すると、一番精米機Gは内部に米
が詰つた状態で停止するので、再起動は重くて回
転せず、そのため、手動で少しずつ掻出して、再
起動させていたので、非常に手間がかかつた。 Further, when the second rice milling machine N broke down and stopped, the first rice milling machine G was also stopped because the supply from the first rice milling machine G to the supply tank O would overflow. Then, Ichiban rice mill G stopped with rice stuck inside, so restarting it was heavy and wouldn't rotate, so I had to manually scrape it out little by little and restart it, which was very time consuming. It took a while.
(問題点を解決するための手段)
よつて発明は、一番精米機と二番精米機を連座
に連結し、一番精米機に対する玄米供給部は一番
精米機および二番精米機の供給タンクのセンサー
で入り切りし、二番精米機の供給タンクは一番精
米機の供給タンクよりも略2倍大きくしておき、
二番精米機が故障したときは一番精米機のそれが
空になるまで継続して運転する連座式精米装置に
おける運転制御方法および、
玄米供給コンベア1の排出側3を昇降機4の張
込口5に連絡させ、昇降機4の排出樋6の下方に
一番精米機7を設け、一番精米機7の供給タンク
8には満量センサー9を取付け、満量センサー9
は前記玄米供給コンベア1のモーター2に連結し
て玄米供給コンベア1を「入」「切」させ、一番
精米機7の排出樋10を二番昇降機11の張込ホ
ツパー12に連絡させ、二番昇降機11の排出樋
13の下方には二番精米機14を設け、二番精米
機14の供給タンク15は前記一番精米機7の供
給タンク8の容量に対し二倍の大きさに形成し、
供給タンク15の上下中間位置で満量センサー9
と同一位置に満量センサー16を設け、満量セン
サー16は前記玄米供給コンベア1のモーター2
に連結して玄米供給コンベア1を「入」「切」さ
せる連座式精米装置における運転制御装置とした
ものである。(Means for solving the problem) Therefore, the invention connects the first rice polishing machine and the second rice polishing machine in series, and the brown rice supply section for the first rice polishing machine is connected to the first rice polishing machine and the second rice polishing machine. It is turned on and off by a sensor in the tank, and the supply tank of the second rice mill is made approximately twice as large as the supply tank of the first rice mill.
An operation control method in a continuous rice milling device in which when the second rice milling machine is out of order, the first rice milling machine continues to operate until it is empty, and the discharge side 3 of the brown rice supply conveyor 1 is connected to the loading port of the elevator 4. 5, the first rice polishing machine 7 is installed below the discharge gutter 6 of the elevator 4, and the full level sensor 9 is attached to the supply tank 8 of the first rice polishing machine 7.
is connected to the motor 2 of the brown rice supply conveyor 1 to turn the brown rice supply conveyor 1 on and off, connects the discharge gutter 10 of the first rice polishing machine 7 to the tensioning hopper 12 of the second elevator 11, and A second rice polishing machine 14 is provided below the discharge gutter 13 of the first rice polishing machine 11, and the supply tank 15 of the second rice polishing machine 14 is formed to have twice the capacity of the supply tank 8 of the first rice polishing machine 7. death,
The full level sensor 9 is located at the middle position between the upper and lower sides of the supply tank 15.
A full sensor 16 is provided at the same position as the motor 2 of the brown rice supply conveyor 1.
This is an operation control device for a continuous rice milling device that connects to the brown rice supply conveyor 1 and turns the brown rice supply conveyor 1 on and off.
(実施例)
本発明の連座式精米装置における運転制御方法
を実施できる装置の一実施例を図面により説明す
ると、1は玄米供給コンベア、2は該玄米供給コ
ンベア1を回転させるモーター、3は玄米供給コ
ンベア1の排出側、4は玄米供給コンベア1の排
出側3の近傍に設けた昇降機、5は昇降機4の張
込口で、排出側3の下部に位置する。6は昇降機
4の排出樋、7は排出樋6の下方に設けた一番精
米機、8は一番精米機7に取付けた供給タンク
で、供給タンク8には満量センサー9が取付けら
れ、満量センサー9は前記モーター2に連結させ
て玄米供給コンベア1を「入」「切」する。10
は一番精米機7の排出樋であり、その近傍に二番
昇降機11を設け、二番昇降機11の張込ホツパ
ー12を排出樋10に臨ませる。(Embodiment) An embodiment of the apparatus capable of carrying out the operation control method in a continuous rice milling apparatus of the present invention will be described with reference to the drawings. 1 is a brown rice supply conveyor, 2 is a motor that rotates the brown rice supply conveyor 1, and 3 is brown rice. On the discharge side of the supply conveyor 1, 4 is an elevator provided near the discharge side 3 of the brown rice supply conveyor 1, and 5 is a loading port of the elevator 4, which is located at the lower part of the discharge side 3. 6 is the discharge gutter of the elevator 4, 7 is the first rice mill installed below the discharge gutter 6, 8 is the supply tank attached to the first rice mill 7, and the supply tank 8 is equipped with a full level sensor 9. The full amount sensor 9 is connected to the motor 2 and turns the brown rice supply conveyor 1 on and off. 10
is the discharge gutter of the first rice milling machine 7, and the second elevator 11 is provided in the vicinity thereof, so that the holding hopper 12 of the second elevator 11 faces the discharge gutter 10.
二番昇降機11の排出樋13の下方には二番精
米機14を設ける。二番精米機14の頭部には供
給タンク15を取付けるが、供給タンク15は前
記供給タンク8の容量に対し二倍の大きさに形成
する。供給タンク15の上下中間位置には満量セ
ンサー16を設ける。満量センサー16の位置は
満量センサー9の位置と同じであり、前記モータ
ー2に連結される。17は二番精米機14の排出
樋、18は次工程に至る昇降機である。 A second rice mill 14 is provided below the discharge gutter 13 of the second elevator 11. A supply tank 15 is attached to the head of the second rice mill 14, and the supply tank 15 is formed to have a size twice the capacity of the supply tank 8. A full level sensor 16 is provided at an intermediate position between the upper and lower sides of the supply tank 15. The position of the full amount sensor 16 is the same as that of the full amount sensor 9, and is connected to the motor 2. 17 is a discharge gutter of the second rice mill 14, and 18 is an elevator leading to the next process.
(作用) 次に作用を述べる。(effect) Next, we will discuss the effect.
モーター2で回転する玄米供給コンベア1に玄
米を供給すると、その排出側3から張込口5に落
下し、昇降機4内を上昇して排出樋6より供給タ
ンク8に供給され、供給タンク8から一番精米機
7に供給されて精米され、排出樋10より張込ホ
ツパー12に落下し、二番昇降機11内を上昇し
て排出樋13より供給タンク15に供給され、供
給タンク15より二番精米機14に供給され、連
座搗精が行なわれる。 When brown rice is supplied to the brown rice supply conveyor 1 which is rotated by a motor 2, it falls from the discharge side 3 to the loading port 5, rises in the elevator 4, is supplied from the discharge gutter 6 to the supply tank 8, and from the supply tank 8 The rice is supplied to the first rice milling machine 7, where it is polished, falls from the discharge gutter 10 into the rice hopper 12, rises in the second elevator 11, is supplied from the discharge gutter 13 to the supply tank 15, and from the supply tank 15 the second rice is milled. The rice is supplied to the rice milling machine 14 and subjected to continuous milling.
二番精米機14で搗精された精白米は、排出樋
17から張込口19に落下し昇降機18内を上昇
して排出樋20より取出される。前記作業中排出
樋6より供給タンク8に流入する量が、排出樋1
0より張込ホツパー12に排出される量よりも多
くなると、供給タンク8内は次第に量を増し、満
量センサー9に達したときはモーター2に信号を
送つて玄米供給コンベア1の回転を止め、供給を
停止する。 The polished rice milled in the second rice mill 14 falls from the discharge gutter 17 to the loading port 19, ascends in the elevator 18, and is taken out from the discharge gutter 20. The amount flowing into the supply tank 8 from the discharge gutter 6 during work is equal to
When the amount exceeds the amount discharged from 0 to the hopper 12, the amount in the supply tank 8 gradually increases, and when the full amount sensor 9 is reached, a signal is sent to the motor 2 to stop the rotation of the brown rice supply conveyor 1. , stop supply.
同様に排出樋13より供給タンク15に供給さ
れる量が排出樋17から張込口19に流出する量
より多くなると供給タンク15は次第に量を増
し、満量センサー16に達したときモーター2を
停止させて供給を停止させる。 Similarly, when the amount supplied to the supply tank 15 from the discharge gutter 13 exceeds the amount flowing out from the discharge gutter 17 to the filling port 19, the amount of the supply tank 15 gradually increases, and when it reaches the full level sensor 16, the motor 2 is activated. Stop and stop supply.
二番精米機14が故障して停止したときは、供
給タンク15内は瞬時に量を増し、満量センサー
16に達すると同様にモーター2の回転を止めて
昇降機4より供給タンク8に対する供給も停止す
る。 When the second rice mill 14 breaks down and stops, the amount in the supply tank 15 increases instantaneously, and when it reaches the full level sensor 16, the rotation of the motor 2 is similarly stopped and the supply from the elevator 4 to the supply tank 8 is resumed. Stop.
しかし、一番精米機7は運転を継続させる。 However, the first rice mill 7 continues to operate.
したがつて、供給タンク8内の穀物は全べて一
番精米機7で処理され排出樋10より張込ホツパ
ー12、排出樋13、二番昇降機11を経て供給
タンク15に供給されるが、供給タンク15はそ
の分だけ容量を大に形成してあるので、オーバー
フローすることがない。 Therefore, all of the grains in the supply tank 8 are processed by the first miller 7 and supplied to the supply tank 15 from the discharge gutter 10 via the loading hopper 12, the discharge gutter 13, and the second elevator 11. Since the supply tank 15 has a correspondingly large capacity, there is no possibility of overflow.
したがつて、一番精米機7は空の状態になるま
で運転を継続することができる。 Therefore, the first rice milling machine 7 can continue to operate until it becomes empty.
(効果)
従来、玄米供給コンベアAの排出側Cを昇降機
Dの張込口Eに連絡させ、昇降機Dの排出樋Fの
下方に一番精米機Gを設け、一番精米機Gの供給
タンクHには満量センサーIを取付け、満量セン
サーIは前記玄米供給コンベアAのモーターBに
連結して玄米供給コンベアAを「入」「切」させ、
一番精米機Gの排出樋Jを二番昇降機Kの張込ホ
ツパーLに連絡させ、二番昇降機Kの排出樋Mの
下方には二番精米機Nを設け、二番精米機Nの供
給タンクOに満量センサーPを設け、満量センサ
ーPは二番精米機Nの排出部Qに連結したものは
公知である。しかし、前記公知のものは、満量セ
ンサーPで排出樋Qの流出量を調節するから、二
番精米機Nの精白度にばら付きが生じた。(Effect) Conventionally, the discharge side C of the brown rice supply conveyor A was connected to the loading port E of the elevator D, and the first rice milling machine G was installed below the discharge gutter F of the elevator D, and the supply tank of the first rice milling machine G was connected to the discharge side C of the brown rice supply conveyor A. A full amount sensor I is attached to H, and the full amount sensor I is connected to the motor B of the brown rice supply conveyor A to turn the brown rice supply conveyor A on and off.
The discharge gutter J of the first rice polishing machine G is connected to the tensioning hopper L of the second elevator K, and the second rice polishing machine N is installed below the discharge gutter M of the second elevator K, and the second rice polishing machine N is supplied. It is known that the tank O is provided with a full level sensor P, and the full level sensor P is connected to the discharge part Q of the second rice mill N. However, in the known method, the amount of outflow from the discharge gutter Q is adjusted by the full amount sensor P, so that the polishing degree of the second rice mill N varies.
また、二番精米機Nが故障して停止したとき
は、一番精米機Gから供給タンクOに供給される
と、オーバーフローするので、一番精米機Gも停
止させていた。すると、一番精米機Gは内部に米
が詰つた状態で停止するので、再起動は重くて回
転せず、そのため、手動で少しずつ掻出して、再
起動させていたので、非常に手間がかかつた。 Further, when the second rice milling machine N broke down and stopped, the first rice milling machine G was also stopped because the supply from the first rice milling machine G to the supply tank O would overflow. Then, Ichiban rice mill G stopped with rice stuck inside, so restarting it was heavy and wouldn't rotate, so I had to manually scrape it out little by little and restart it, which was very time consuming. It took a while.
しかるに、本発明は、一番精米機と二番精米機
を連座に連結し、一番精米機に対する玄米供給部
は一番精米機および二番精米機の供給タンクのセ
ンサーで入り切りし、二番精米機の供給タンクは
一番精米機の供給タンクよりも略2倍大きくして
おき、二番精米機が故障したときは一番精米機の
それが空になるまで継続して運転する連座式精米
装置における運転制御方法および、
玄米供給コンベア1の排出側3を昇降機4の張
込口5に連絡させ、昇降機4の排出樋6の下方に
一番精米機7を設け、一番精米機7の供給タンク
8には満量センサー9を取付け、満量センサー9
は前記玄米供給コンベア1のモーター2に連結し
て玄米供給コンベア1を「入」「切」させ、一番
精米機7の排出樋10を二番昇降機11の張込ホ
ツパー12に連絡させ、二番昇降機11の排出樋
13の下方には二番精米機14を設け、二番精米
機14の供給タンク15は前記一番精米機7の供
給タンク8の容量に対し二倍の大きさに形成し、
供給タンク15の上下中間位置で満量センサー9
と同一位置に満量センサー16を設け、満量セン
サー16は前記玄米供給コンベア1のモーター2
に連結して玄米供給コンベア1を「入」「切」さ
せる連座式精米装置における運転制御装置とした
ものであるから、前記公知例の欠陥を克服する。 However, in the present invention, the first rice milling machine and the second rice milling machine are connected in series, and the brown rice supply section for the first rice milling machine is turned on and off by the sensor of the supply tank of the first rice milling machine and the second rice milling machine, and the second rice milling machine The supply tank of the rice milling machine is made approximately twice as large as the supply tank of the first rice milling machine, and if the second rice milling machine breaks down, it is a continuous type that continues to operate until the first rice milling machine is empty. An operation control method in a rice milling device, the discharge side 3 of the brown rice supply conveyor 1 is connected to the loading port 5 of the elevator 4, the first rice mill 7 is provided below the discharge gutter 6 of the elevator 4, and the first rice mill 7 is provided below the discharge gutter 6 of the elevator 4. A full level sensor 9 is attached to the supply tank 8, and the full level sensor 9
is connected to the motor 2 of the brown rice supply conveyor 1 to turn the brown rice supply conveyor 1 on and off, connects the discharge gutter 10 of the first rice polishing machine 7 to the tensioning hopper 12 of the second elevator 11, and A second rice polishing machine 14 is provided below the discharge gutter 13 of the first rice polishing machine 11, and the supply tank 15 of the second rice polishing machine 14 is formed to have twice the capacity of the supply tank 8 of the first rice polishing machine 7. death,
The full level sensor 9 is located at the middle position between the upper and lower sides of the supply tank 15.
A full sensor 16 is provided at the same position as the motor 2 of the brown rice supply conveyor 1.
Since this device is an operation control device for a continuous rice milling device that connects the brown rice supply conveyor 1 to “on” and “off”, it overcomes the deficiencies of the above-mentioned known examples.
第1図は公知例図、第2図は本願側面図であ
る。
符号の説明、1…玄米供給コンベア、2…モー
ター、3…排出側、4…昇降機、5…張込口、6
…排出樋、7…一番精米機、8…供給タンク、9
…満量センサー、10…排出樋、11…二番昇降
機、12…張込ホツパー、13…排出樋、14…
二番精米機、15…供給タンク、16…満量セン
サー、17…排出樋、18…昇降機、19…張込
口、20…排出樋。
FIG. 1 is a diagram of a known example, and FIG. 2 is a side view of the present application. Explanation of symbols, 1... Brown rice supply conveyor, 2... Motor, 3... Discharge side, 4... Elevator, 5... Loading port, 6
...Discharge gutter, 7...Ichiban rice mill, 8...Supply tank, 9
...Full sensor, 10...Discharge gutter, 11...Second elevator, 12...Pitching hopper, 13...Discharge gutter, 14...
No. 2 rice mill, 15...supply tank, 16...full level sensor, 17...discharge gutter, 18...elevator, 19...charging port, 20...discharge gutter.
Claims (1)
番精米機に対する玄米供給部は一番精米機および
二番精米機の供給タンクのセンサーで入り切り
し、二番精米機の供給タンクは一番精米機の供給
タンクよりも略2倍大きくしておき、二番精米機
が故障したときは一番精米機のそれが空になるま
で継続して運転する連座式精米装置における運転
制御方法。 2 玄米供給コンベア1の排出側3を昇降機4の
張込口5に連絡させ、昇降機4の排出樋6の下方
に一番精米機7を設け、一番精米機7の供給タン
ク8には満量センサー9を取付け、満量センサー
9は前記玄米供給コンベア1のモーター2に連結
して玄米供給コンベア1を「入」「切」させ、一
番精米機7の排出樋10を二番昇降機11の張込
ホツパー12に連絡させ、二番昇降機11の排出
樋13の下方には二番精米機14を設け、二番精
米機14の供給タンク15は前記一番精米機7の
供給タンク8の容量に対し二倍の大きさに形成
し、供給タンク15の上下中間位置で満量センサ
ー9と同一位置に満量センサー16を設け、満量
センサー16は前記玄米供給コンベア1のモータ
ー2に連結して玄米供給コンベア1を「入」「切」
させる連座式精米装置における運転制御装置。[Scope of Claims] 1. The first rice polishing machine and the second rice polishing machine are connected in series, and the brown rice supply section for the first rice polishing machine is turned on and off by the sensor of the supply tank of the first rice milling machine and the second rice polishing machine, and The supply tank of the No. 1 rice polishing machine should be approximately twice as large as the supply tank of the No. 1 rice polishing machine, and if the No. 2 rice polishing machine breaks down, it will continue to operate until the No. 1 rice polishing machine is empty. Operation control method for rice milling equipment. 2 The discharge side 3 of the brown rice supply conveyor 1 is connected to the loading port 5 of the elevator 4, and the first rice polishing machine 7 is installed below the discharge gutter 6 of the elevator 4, and the supply tank 8 of the first rice polishing machine 7 is filled with water. A quantity sensor 9 is attached, and the full quantity sensor 9 is connected to the motor 2 of the brown rice supply conveyor 1 to turn the brown rice supply conveyor 1 on and off, and the discharge gutter 10 of the first rice milling machine 7 is connected to the second elevator 11. A second rice polishing machine 14 is installed below the discharge gutter 13 of the second elevator 11, and the supply tank 15 of the second rice polishing machine 14 is connected to the supply tank 8 of the first rice polishing machine 7. It is formed to be twice the size of the capacity, and a full level sensor 16 is provided at the same position as the full level sensor 9 at an intermediate position between the upper and lower sides of the supply tank 15, and the full level sensor 16 is connected to the motor 2 of the brown rice supply conveyor 1. Turn brown rice supply conveyor 1 on and off.
Operation control device for continuous rice milling equipment.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2960086A JPS62186950A (en) | 1986-02-13 | 1986-02-13 | Method and device for controlling operation in implication type rice-cleaning device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2960086A JPS62186950A (en) | 1986-02-13 | 1986-02-13 | Method and device for controlling operation in implication type rice-cleaning device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS62186950A JPS62186950A (en) | 1987-08-15 |
| JPH0474055B2 true JPH0474055B2 (en) | 1992-11-25 |
Family
ID=12280563
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2960086A Granted JPS62186950A (en) | 1986-02-13 | 1986-02-13 | Method and device for controlling operation in implication type rice-cleaning device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS62186950A (en) |
-
1986
- 1986-02-13 JP JP2960086A patent/JPS62186950A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS62186950A (en) | 1987-08-15 |
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