JPH0356288A - Multi-stage cereals storage tank - Google Patents
Multi-stage cereals storage tankInfo
- Publication number
- JPH0356288A JPH0356288A JP1181902A JP18190289A JPH0356288A JP H0356288 A JPH0356288 A JP H0356288A JP 1181902 A JP1181902 A JP 1181902A JP 18190289 A JP18190289 A JP 18190289A JP H0356288 A JPH0356288 A JP H0356288A
- Authority
- JP
- Japan
- Prior art keywords
- tank
- discharge
- trough
- feed
- rice
- 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.)
- Granted
Links
- 238000003860 storage Methods 0.000 title claims abstract description 36
- 235000013339 cereals Nutrition 0.000 title abstract description 52
- 241000209094 Oryza Species 0.000 abstract description 11
- 235000007164 Oryza sativa Nutrition 0.000 abstract description 11
- 235000009566 rice Nutrition 0.000 abstract description 11
- 238000009434 installation Methods 0.000 abstract description 3
- 235000021329 brown rice Nutrition 0.000 description 21
- 238000005303 weighing Methods 0.000 description 12
- 238000000034 method Methods 0.000 description 9
- 239000004575 stone Substances 0.000 description 4
- 238000002360 preparation method Methods 0.000 description 3
- 238000009958 sewing Methods 0.000 description 3
- 238000010276 construction Methods 0.000 description 2
- 238000007599 discharging Methods 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- YBYIRNPNPLQARY-UHFFFAOYSA-N 1H-indene Chemical compound C1=CC=C2CC=CC2=C1 YBYIRNPNPLQARY-UHFFFAOYSA-N 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 210000005069 ears Anatomy 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000003306 harvesting Methods 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 239000011800 void material Substances 0.000 description 1
Abstract
Description
【発明の詳細な説明】
〔産業上の利用分野〕
本発明は、立設した複数個のタンクに穀物を貯留する多
段式穀物貯留タンクに関する。DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a multistage grain storage tank that stores grain in a plurality of upright tanks.
従来の穀物貯留タンクを第5図,第6図を参照して説明
する。上部を開口した穀物貯留タンク43を複数個並設
して多連式穀物貯留タンクとし、タンク群の中央上方位
置に水平送りスクリューコンベア44を設ける。スクリ
ューコンベア44には貯留タンク43ごとに開閉する開
1
閉樋45を取付け、開閉樋45は貯留タンク43の境界
に設けた仕切板46の開閉と連動して開閉する。A conventional grain storage tank will be explained with reference to FIGS. 5 and 6. A plurality of grain storage tanks 43 with open tops are arranged side by side to form a multiple grain storage tank, and a horizontal feeding screw conveyor 44 is provided at a position above the center of the tank group. An opening/closing gutter 45 that opens and closes for each storage tank 43 is attached to the screw conveyor 44, and the opening/closing gutter 45 opens and closes in conjunction with the opening and closing of a partition plate 46 provided at the boundary of the storage tank 43.
上記の従来の穀物貯留タンクにおいては、lri“留タ
ンク43が並設してあるため、設置場所をとり広い面積
を必要とし、また穀物の供給するためにスクリューコン
ベアを設置しなければならず、建設費が高価になるとい
う問題点があった。また、穀物供給時において、穀物は
タンク内に山形状に堆積し、その山腹47とタンク43
の内壁48との間に大きな空隙部49が生じて貯蔵容量
が減少するという問題点があった。In the above-mentioned conventional grain storage tank, since the lri" storage tanks 43 are arranged side by side, it requires a large installation space and a large area, and a screw conveyor must be installed to supply the grain. There was a problem that the construction cost was high.Also, when grain is supplied, the grain is piled up in a mountain shape in the tank, and the mountainside 47 and the tank 43
There is a problem in that a large gap 49 is formed between the inner wall 48 of the container and the storage capacity is reduced.
また、貯留タンク43から穀物を排出する場合、貯留タ
ンク43の底板11の傾斜が緩やかなため、安息角にな
ると穀物の流出が弱まり、ブリッジ現象が発生して排出
量が大きく変動したり、排出不良等を招くという問題点
があった。In addition, when discharging grains from the storage tank 43, since the bottom plate 11 of the storage tank 43 has a gentle slope, the outflow of grains weakens when the angle of repose is reached, and a bridging phenomenon occurs, resulting in large fluctuations in the discharge amount or There was a problem in that it led to defects.
この発明は上記にような問題点を解消し、スクリューコ
ンベアを不用とし、設置面積を減少9
すると共に貯留タンクの空間を有効活用することのでき
る多段式穀物貯留タンクを提供することを目的とする。The purpose of this invention is to solve the above-mentioned problems and provide a multi-stage grain storage tank that eliminates the need for a screw conveyor, reduces the installation area, and makes effective use of the storage tank space. .
この目的を達或するために、この発明は次のような構威
とする。In order to achieve this object, the present invention has the following structure.
立設した四側壁を筐体に組み、側壁内に一方向に傾斜し
た斜板を上下方向に複数個設けて複数個の穀物貯留タン
クを形成し、各タンクのそれぞれに供給部と1′J1山
部とを設け最f段のタンクの下方に単袋用袋詰装置を設
ける。The four upright side walls are assembled into a casing, and a plurality of swash plates inclined in one direction are installed in the vertical direction within the side walls to form a plurality of grain storage tanks, and each tank has a supply section and a 1'J1 A single-bag bagging device is provided below the f-most tank.
前行程で処理された穀粒は、多段に設けた穀物貯留タン
クの各供給部から供給されてタンク内に貯留され、各排
出部から排出されトラック等に積載されバラ出荷される
。また、単袋出荷する場合には、穀粒は各貯留タンクに
供給されず、最下段のタンクの下方に設けた単袋用袋詰
装置へ送られて一袋ごとに袋詰めされる。The grains processed in the previous step are supplied from each supply section of a grain storage tank provided in multiple stages, stored in the tank, discharged from each discharge section, loaded onto a truck, etc., and shipped in bulk. Furthermore, in the case of single-bag shipment, the grains are not supplied to each storage tank, but are sent to a single-bag bagging device provided below the lowest tank and packed into individual bags.
3
本発明の実施例を図面を参照し2ながら説明する。第1
図は本発明を実施した多段式穀物貯留タンクの側面図、
第2図,第3図はその斜視図、第41笥はカン1・リー
エレベーターのフロ−チ1・トてある。カントリーエレ
ヘ− タ−を第4図により説明ずると、符号1は搬入ず
る原ネ}籾の荷受行程であり、荷受された原料籾を投入
する荷受ホッパ−2と粗選機3とを揚穀機4を介して連
絡ずる。荷受計凪機5は揚穀機6を介しで荷受タンク7
に連絡し、タンク7は揚穀機8乾燥機9,揚穀機10,
搬入川ベルトコンベア12を介してザイロ13へ連絡ず
る。3 Examples of the present invention will be described with reference to the drawings. 1st
The figure is a side view of a multi-stage grain storage tank implementing the present invention.
Figures 2 and 3 are perspective views, and the 41st page shows the reach of the elevator. To explain the country equipment with reference to Fig. 4, reference numeral 1 is the receiving process for raw paddy that is brought in, and the receiving hopper 2 into which the received raw paddy is input and the coarse sorter 3 are lifted up. Communication is made via grain machine 4. The receiving tank 7 is transferred to the receiving tank 7 via the grain lifting machine 6.
The tank 7 is equipped with a grain lifting machine 8, a drying machine 9, a grain lifting machine 10,
It is connected to Zyro 13 via the incoming river belt conveyor 12.
ザイロ13は、貯蔵ザイ口14とI佇蔵サイロ14の間
隙に立設した−同り小さい間隙゜リ−イロ15とからな
り、ザイロ13は搬出用ベルI・コンベア16を介して
、乾燥機9、精選工程17及び調製工程18、出荷工程
19へ連絡している。The silo 13 consists of a silo 15 with an equally small gap installed between the storage silo 14 and the storage silo 14. 9. Contacts the selection process 17, preparation process 18, and shipping process 19.
籾の精選工程17は風選機20,インデン1・シリンダ
ーからなる籾・玄米選別機2 1 、訓’−FttI
機22から形或され、調製工程千8は籾摺機23、揺動
式の籾玄米選別機24、四転式の粒選別機25、石抜機
26から形成される。The paddy sorting process 17 is formed by a wind sorter 20, a paddy/brown rice sorter 21 consisting of an inden 1 cylinder, and a kun'-FttI machine 22, and the preparation process 18 is carried out by a huller 23, a swing type It is composed of a paddy/brown rice sorter 24, a four-wheel type grain sorter 25, and a stone remover 26.
出荷工程49の計量機27は揚穀機28を介して多段式
穀物貯留タンク29の投入樋30に連絡し、多段式穀物
貯留タンク29は、傾斜板31によりタンク32A〜■
〕に分割されている。The weighing machine 27 of the shipping process 49 is connected to the input gutter 30 of the multi-stage grain storage tank 29 via the grain lifting machine 28, and the multi-stage grain storage tank 29 is connected to the tanks 32A to 32A through the tilt plate 31.
] is divided into.
傾斜板31は穀粒が途中て1トまらずに流れる角度、ず
なわち安息角より大きい角度に傾斜しており、その安息
角は白米・籾は45°、玄米は350である。各タンク
32A.−Dの供給[:1 3 3に供給板34を、排
出口35に排出板36をそれぞれ設け、供給板34及び
排山板35は正逆回転モーター(図示せず)により開閉
作動を行なう。符号36は供給樋、符号37は排出樋で
あり、排出樋37は揚穀機38を介してトラック39等
の運搬手段に連絡している。The inclined plate 31 is inclined at an angle at which the grains flow without stopping, that is, at an angle greater than the angle of repose.The angle of repose is 45° for polished rice and paddy, and 350° for brown rice. Each tank 32A. A supply plate 34 and a discharge plate 36 are provided at the supply port 35 and the discharge port 35, respectively, and the supply plate 34 and the discharge plate 35 are opened and closed by a forward and reverse rotation motor (not shown). The reference numeral 36 is a supply gutter, and the reference numeral 37 is a discharge gutter, and the discharge gutter 37 is connected to a transport means such as a truck 39 via a grain lifting machine 38.
また、多段式穀物貯留タンク29の最下段タンク32D
の下部に、計量機40を備えた計景タンク41を取付け
、計量機40の下方に袋一縫いミシン42を設りる。In addition, the lowest tank 32D of the multi-stage grain storage tank 29
A counting tank 41 equipped with a weighing machine 40 is attached to the lower part of the machine, and a bag one-stitch sewing machine 42 is installed below the weighing machine 40.
次に」二記構或における作用を説明する。荷受ホッパ−
2に投入された籾は、粗選機3において夾雑物や切れ穂
等が選別分離され、整粒籾は計量機5て計量されて荷受
タンク7へ送られる。Next, the operation in the second structure will be explained. Receiving hopper
The paddy put into the container 2 is sorted and separated from impurities, cut ears, etc. by a rough sorter 3, and the sized paddy is weighed by a weighing machine 5 and sent to a receiving tank 7.
荷受タンク7においてプール処理できるように一時It
?留され、荷受タンク7に充分なinが貯留されると乾
燥機9へ送られる。I吃燥機9内を流下する籾に対して
熱風により乾燥が行なわれ、乾燥された籾は搬入用ベル
I・コンベア12から任意の間隙サイロ15へ没入され
る。乾燥直後の籾は含有水分か不均一な分布となってお
り、間隙ザイロ15において適ぎ1な時間1ri’留さ
れることにより、調質され、含有水分は均一な分布とな
る。調質された籾は再び乾燥機9て乾燥された後間隙ザ
イロ15で調質され、以後所定の水分の籾に乾燥される
まで繰り返される。It is temporarily stored in the cargo receiving tank 7 so that it can be pooled.
? When enough in is stored in the receiving tank 7, it is sent to the dryer 9. The paddy flowing down in the I dryer 9 is dried by hot air, and the dried paddy is immersed into an arbitrary gap silo 15 from the carry-in bell I/conveyor 12. Immediately after drying, the moisture content of the rice grains is unevenly distributed, and by being kept in the gap gyroscope 15 for an appropriate time period of 1 ri', the rice grains are tempered and the moisture content becomes uniformly distributed. The tempered rice is dried again in the dryer 9 and then tempered in the gap zyro 15, and the process is repeated until the rice is dried to a predetermined moisture content.
収穫期間中籾は18%程度まて乾燥されて貯蔵ザイロ1
4に貯蔵され、荷受期間が終了すると什上り水分たとえ
ば15%まで乾燥され、仕上がりた籾は政府に売り渡し
て再度貯蔵される。売り渡しおいては、風選機20で風
選されてから複数段に設けたインドシリンダーからなる
籾・玄米選別機21へ送られ、籾中に混在する脱稈粒、
すなわち玄米が分離排除された後、籾は計量機22でP
l量されてから貯蔵サイロ13へ送られて貯蔵される。During the harvest period, the paddy is dried to about 18% and stored in a gyroscope.
At the end of the receiving period, the paddy is dried to a moisture content of, for example, 15%, and the finished paddy is sold to the government and stored again. At the time of sale, the grains are sorted by the wind sorter 20 and then sent to the paddy/brown rice sorter 21 which consists of Indian cylinders installed in multiple stages.
In other words, after the brown rice is separated and removed, the paddy is weighed by the weighing machine 22.
1 amount, and then sent to the storage silo 13 and stored.
一方、籾摺・出荷時において、貯蔵サイロ14内の籾は
籾摺機23へ送られて籾摺され、次に籾・玄米選別機機
24で揺動選別され、さらに玄米粒は粒選別機25で粒
大選別される。そして、石抜機26で石等の異物が除去
された玄米は、計量機27で計量されてから揚穀機28
により、多段式穀物貯留タンク29の投入樋30を経て
供給樋36へ投入される。On the other hand, at the time of hulling and shipping, the paddy in the storage silo 14 is sent to the huller 23 to be hulled, then it is shake sorted by the paddy/brown rice sorter 24, and the brown rice grains are further sorted by the grain sorter. Grain size is sorted at 25. The brown rice from which foreign substances such as stones have been removed by the stone removal machine 26 is then weighed by a weighing machine 27 and then transferred to a grain frying machine 28.
As a result, the grains are fed into the supply gutter 36 via the feed gutter 30 of the multi-stage grain storage tank 29.
そして、任意のタンク、例えば32Aへ張込む場合には
供給板34を回動させて開け、供給樋36内を流下した
玄米は供給板34に突当り、供給口33からタンク32
A内へ落下してタンク32Aに堆積される。そのとき、
傾斜板31が玄米の安息角より大きい角度で傾斜されて
いるため、玄米は無駄な空隙を作ることなく貯留タンク
32A全体に貯留することができる。タンク32Aが満
量になると供給板34を閉じて玄米の供給を終了させ、
次にタンク32B−Dの任意のタンクの供給板34を開
けて同様に玄米を供給する。タンク32A〜D内の玄米
を排出する場合には、排出板36を回動させて開けるこ
とにより、玄米は排出樋37内を落下し、揚穀機38を
介してトラック39に推積されてバラ出荷される。その
とき、傾斜板31が安息角より大きい角度で傾斜されて
いるため、玄米の流出作用が大きくブリッジ現象を発生
することなく、全量を確実に排出することができる。When filling an arbitrary tank, for example 32A, the supply plate 34 is rotated and opened, and the brown rice flowing down in the supply gutter 36 hits the supply plate 34 and flows from the supply port 33 into the tank 32.
It falls into A and is deposited in tank 32A. then,
Since the inclined plate 31 is inclined at an angle larger than the angle of repose of the brown rice, the brown rice can be stored in the entire storage tank 32A without creating unnecessary voids. When the tank 32A becomes full, the supply plate 34 is closed to end the supply of brown rice.
Next, the supply plate 34 of any of the tanks 32B-D is opened and brown rice is supplied in the same manner. When discharging the brown rice in the tanks 32A to 32D, the discharge plate 36 is rotated and opened, and the brown rice falls through the discharge gutter 37 and is loaded onto the truck 39 via the grain lifting machine 38. Shipped separately. At this time, since the inclined plate 31 is inclined at an angle larger than the angle of repose, the outflow effect of the brown rice is large and the entire amount can be reliably discharged without causing a bridging phenomenon.
次にバラ出荷ではなく袋体による出荷の場合には、玄米
は供給樋36から計量タンク41に供給され、計量機4
0により所定量計量されて袋体(図示せず)に投入され
、袋口縫いミシン42により縫合されて袋体として出荷
される。Next, in the case of shipping in bags instead of bulk shipments, the brown rice is supplied from the supply gutter 36 to the weighing tank 41, and the brown rice is fed to the weighing machine 4.
0, a predetermined amount is weighed out, put into a bag (not shown), sewn by a bag opening sewing machine 42, and shipped as a bag.
本発明における多段式穀物貯留タンクによれば、一方向
に傾斜した傾斜板により複数個の穀物貯留タンクを多段
に形成し、その最下段のタンクの下方に単袋用袋詰装置
を設ける構成により、タンク内の穀粒は、傾斜板の作用
で無駄な空隙を作ることなくタンク全体に貯留すること
ができると共に、排出時において傾斜板により玄米の流
出作用が大きく、ブリッジ現象を発生することなく、全
量を確実に排出することができる。According to the multi-stage grain storage tank of the present invention, a plurality of grain storage tanks are formed in multiple stages using inclined plates inclined in one direction, and a single-bag bagging device is provided below the tank at the lowest stage. The grains in the tank can be stored in the entire tank without creating unnecessary voids due to the action of the inclined plate, and at the time of discharge, the inclined plate allows the brown rice to flow out more effectively, without causing the bridging phenomenon. , the entire amount can be reliably discharged.
また、最下段のタンクの下方に単袋川袋貼装置を設けた
ため、バラ出荷と共に袋体による出荷にも対応すること
ができ、さらにタンク下方の空間を利用するため、余分
な設備面積を必要とせず建設費の低減がはかれる。In addition, a single-bag river bag pasting device is installed below the bottom tank, making it possible to ship in bags as well as bulk shipments.Furthermore, since the space below the tank is used, there is no need for extra equipment space. Therefore, construction costs can be reduced.
第1図は本発明を実施した多段式穀物貯留タンクの側面
図、第2図、第3図はその傾斜図、第4図はカントリー
エレベーターのフローチャト、第5図は従来例の側断面
図、第6図はその正断面図である。
1・・・荷受工程、2・・・荷受ホッパー、3・・・粗
選機、4・・・揚穀機、5・・・荷受計量機、6・・・
揚穀機、7・・・荷受タンク、8・・・揚穀機、9・・
・乾燥機、10・・・揚穀機、11・・・底板、12・
・・搬入用ベルトコンベア、13・・・サイロ、14・
・・貯蔵サイロ、工5・・・間隙サイロ、16・・・搬
出用ベルトコンベア、17・・・精選工程、18・・・
調製工程、19・・・出荷工程、20・・・風選機、2
1・・・籾・玄米精選機、22・・・計量機、23・・
・籾摺機、24・・・籾・玄米選別機、25・・・粒選
別機、2G・・・石抜機、27・・・計量機、28・・
・揚穀機、29・・・多段式穀物貯留タンク、30・・
・投入樋、31・・・傾斜板、32A〜D・・・タンク
、33・・・供給口、34・・・供給板、35・・・排
出口、36・・・排出板、37・・・排出樋、38・・
・揚穀機、39・・・トラック、4o・・計量機、41
・・・計量タンク、42・・・袋1」縫いミシン、43
・・・貯留タンク、44・・・山腹、48・・・内壁、
49・・・空隙部。Fig. 1 is a side view of a multi-stage grain storage tank embodying the present invention, Figs. 2 and 3 are inclined views thereof, Fig. 4 is a flow chart of a country elevator, and Fig. 5 is a side sectional view of a conventional example. FIG. 6 is a front sectional view thereof. 1... Receiving process, 2... Receiving hopper, 3... Rough sorting machine, 4... Grain lifting machine, 5... Receiving weighing machine, 6...
Grain lifting machine, 7... Receiving tank, 8... Grain lifting machine, 9...
・Dryer, 10... Grain frying machine, 11... Bottom plate, 12.
... Belt conveyor for delivery, 13... Silo, 14.
...Storage silo, work 5... Gap silo, 16... Export belt conveyor, 17... Selection process, 18...
Preparation process, 19... Shipping process, 20... Wind sorter, 2
1... Paddy/brown rice sorting machine, 22... Weighing machine, 23...
- Hulling machine, 24... Paddy/brown rice sorting machine, 25... Grain sorting machine, 2G... Stone removing machine, 27... Weighing machine, 28...
・Grain lifting machine, 29...Multi-stage grain storage tank, 30...
- Input gutter, 31... Inclined plate, 32A-D... Tank, 33... Supply port, 34... Supply plate, 35... Discharge port, 36... Discharge plate, 37...・Discharge gutter, 38...
・Grain lifting machine, 39...Truck, 4o...Weighing machine, 41
... Measuring tank, 42 ... Bag 1" sewing machine, 43
...Storage tank, 44...Mountainside, 48...Inner wall,
49...Void part.
Claims (1)
斜した斜板を上下方向に複数個設けて複数個の穀物貯留
タンクを形成し、各タンクのそれぞれに供給部と排出部
とを設け最下段のタンクの下方に単袋用袋詰装置を設け
たことを特徴とする多段式穀物貯留タンク。The four upright side walls are assembled into a housing, and a plurality of swash plates inclined in one direction are provided in the vertical direction within the side walls to form a plurality of grain storage tanks, and each tank has a supply section and a discharge section. A multi-stage grain storage tank characterized in that a single-bag bagging device is provided below the lowest tank.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1181902A JP2762118B2 (en) | 1989-07-13 | 1989-07-13 | Multi-stage grain storage tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1181902A JP2762118B2 (en) | 1989-07-13 | 1989-07-13 | Multi-stage grain storage tank |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0356288A true JPH0356288A (en) | 1991-03-11 |
JP2762118B2 JP2762118B2 (en) | 1998-06-04 |
Family
ID=16108887
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1181902A Expired - Fee Related JP2762118B2 (en) | 1989-07-13 | 1989-07-13 | Multi-stage grain storage tank |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2762118B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0582892U (en) * | 1992-04-13 | 1993-11-09 | 株式会社佐竹製作所 | Multi-stage grain storage tank |
JP2008124855A (en) * | 2006-11-14 | 2008-05-29 | Funai Electric Co Ltd | Speaker device |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS52151410A (en) * | 1976-06-11 | 1977-12-15 | Honda Motor Co Ltd | Exhaust passag system of multi-cylinder engine |
JPS62134326A (en) * | 1985-12-05 | 1987-06-17 | Mazda Motor Corp | Door structure for automobile |
-
1989
- 1989-07-13 JP JP1181902A patent/JP2762118B2/en not_active Expired - Fee Related
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS52151410A (en) * | 1976-06-11 | 1977-12-15 | Honda Motor Co Ltd | Exhaust passag system of multi-cylinder engine |
JPS62134326A (en) * | 1985-12-05 | 1987-06-17 | Mazda Motor Corp | Door structure for automobile |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0582892U (en) * | 1992-04-13 | 1993-11-09 | 株式会社佐竹製作所 | Multi-stage grain storage tank |
JP2008124855A (en) * | 2006-11-14 | 2008-05-29 | Funai Electric Co Ltd | Speaker device |
Also Published As
Publication number | Publication date |
---|---|
JP2762118B2 (en) | 1998-06-04 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
LAPS | Cancellation because of no payment of annual fees |