JP4327793B2 - Grain suction transfer device - Google Patents

Grain suction transfer device Download PDF

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JP4327793B2
JP4327793B2 JP2005360351A JP2005360351A JP4327793B2 JP 4327793 B2 JP4327793 B2 JP 4327793B2 JP 2005360351 A JP2005360351 A JP 2005360351A JP 2005360351 A JP2005360351 A JP 2005360351A JP 4327793 B2 JP4327793 B2 JP 4327793B2
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grain
air
conveyance path
suction
pipe
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JP2007160228A (en
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浩 白水
松二郎 磯部
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福岡精米機器株式会社
有限会社 クルソン
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Description

本発明は、穀物吸引搬送装置に関するものである。   The present invention relates to a grain suction conveyance device.

従来、米などの穀物を搬送物としてエア搬送する場合、穀物を気流と共に通過させるエア搬送路と、同エア搬送路の始端部の天壁部に当該エア搬送路へ穀物を供給する穀物供給口を設けて、同穀物供給口の直下方にエア搬送路へ空気を噴出するエア噴出管を配設し、このエア噴出管からエア搬送路の搬送先に向けて、ファンやコンプレッサからなる送気装置よりエアを強制的に噴き込み、この噴き込みエアによって穀物を吹き飛ばすようにして搬送するエア搬送装置があった。   Conventionally, when grains such as rice are transported by air as a transported object, an air transport path through which the grain passes along with an air current, and a grain supply port that supplies the grain to the air transport path at the top wall of the start end of the air transport path An air jet pipe that jets air to the air conveyance path is arranged directly below the grain supply port, and an air feed consisting of a fan and a compressor is directed from the air jet pipe toward the conveyance destination of the air conveyance path. There has been an air conveying device that forcibly injects air from the device and conveys the grain by blowing it away.

また、かかるエア搬送装置においては、エアにより吹き飛ばした穀物を、前記エア搬送路の終端に配置した穀物回収装置の内部にそのまま流入させていた(例えば、特許文献1、特許文献2を参照。)。
特開平8−215589号公報 特開平2003−001122号公報
Further, in such an air conveyance device, the grains blown off by air are directly flowed into the grain collection device arranged at the end of the air conveyance path (see, for example, Patent Document 1 and Patent Document 2). .
JP-A-8-215589 Japanese Patent Laid-Open No. 2003-001122

しかし、上記した従来のエア搬送装置では、穀物を吹き飛ばすだけの圧送力を確保したファンやコンプレッサを備える強力な送気装置が設けられており、エアにより吹き飛ばした穀物を、前記エア搬送路の終端に配置した穀物回収装置の内部にそのまま流入させると、穀物が回収装置の壁などに勢いよく衝突して損傷するおそれがあった。   However, the above-described conventional air conveyance device is provided with a powerful air supply device including a fan and a compressor that secures a pressure-feeding force sufficient to blow away the grain, and the grain blown off by the air is sent to the end of the air conveyance path. If the product is directly allowed to flow into the grain collecting device disposed in the container, the grain may collide with the wall of the collecting device and damage it.

また、強力な送気装置を用いた場合、エアの温度上昇により穀物の劣化や水分減少が生じることからにエア冷却装置が必要となり、エア搬送装置全体も大型化するおそれがあった。   In addition, when a powerful air supply device is used, the air cooling device is required because the grain temperature is deteriorated and the moisture is reduced due to the temperature rise of the air, and there is a possibility that the entire air conveyance device is enlarged.

本発明は、上記問題点を解決して、コンパクトで搬送する穀物を損傷させることのない穀物吸引搬送装置を提供することを目的としている。   An object of the present invention is to solve the above-mentioned problems and to provide a grain suction and conveyance device that is compact and does not damage the grain to be conveyed.

(1)請求項1記載の本発明は、搬送物となる穀物を収容する穀物供給部と、同穀物供給部から供給された穀物をエア搬送するエア搬送路と、同エア搬送路からエア搬送された穀物を受けて回収する穀物回収部と、前記エア搬送路の終端部を連通した前記穀物回収部に連通連結し、吸気により前記エア搬送路内に気流を生じさせる吸引機構と、前記エア搬送路の中途から分岐して前記穀物回収部に終端を連通連結した分岐吸気管と、を備え、前記分岐吸気管を、前記エア搬送路に対し、一旦、穀物の搬送方向とは逆向きで、かつ前記エア搬送路から上方に向けて分岐させた穀物吸引搬送装置とした。 (1) The present invention according to claim 1 is a grain supply unit for storing grains to be conveyed, an air conveyance path for air conveying the grains supplied from the grain supply unit, and an air conveyance from the air conveyance path A cereal collection unit that receives and collects the produced cereal, a suction mechanism that communicates with the cereal collection unit that communicates a terminal portion of the air conveyance path, and generates an air flow in the air conveyance path by intake air; and the air A branch intake pipe branched from the middle of the conveyance path and having a terminal end connected to the grain recovery unit, and the branch intake pipe is once opposite to the grain conveyance direction with respect to the air conveyance path. In addition, the grain suction transfer device was branched upward from the air transfer path .

)請求項記載の本発明は、請求項に記載の穀物吸引搬送装置において、前記エア搬送路の始端部を上向きに湾曲状に折曲形成し、上方に向けて開口した始端開口を外気連通口となすとともに、当該外気連通口に前記穀物供給部の穀物供給口が臨むように穀物供給部を配設したことを特徴とする。 ( 2 ) The present invention described in claim 2 is the grain suction transfer device according to claim 1 , wherein the start end of the air transfer path is bent upward in a curved shape and opened upward. The grain supply section is arranged such that the grain supply port of the grain supply section faces the outside air communication opening.

)請求項記載の本発明は、請求項記載の穀物吸引搬送装置において、前記外気連通口を前記穀物供給口よりも大口径とし、前記穀物供給口と前記外気連通口との間を所定距離だけ離隔させたことを特徴とする。 (3) The present invention of claim 3, wherein, during the grain suction conveying apparatus according to claim 2, and the outside air communication opening than the grain supply port have a larger diameter, the grain feed port and the outside air communication opening Are separated by a predetermined distance.

)請求項記載の本発明は、請求項に記載の穀物吸引搬送装置において、前記エア搬送路の始端部を、横向きに伸延させた外気導入部と、上方に湾曲状に伸延させた穀物導入部とに分岐形成し、前記外気導入部の始端開口を外気連通口となす一方、前記穀物導入部の始端開口に前記穀物供給部の穀物供給口を連通連結したことを特徴とする。 ( 4 ) The present invention described in claim 4 is the grain suction transfer device according to claim 1 , wherein the start end portion of the air transfer path is extended in a curved shape upward and the outside air introduction portion extended in the horizontal direction. Branching to the grain introduction part, and the start opening of the outside air introduction part is used as an outside air communication port, and the grain supply port of the grain supply part is connected to the start end opening of the grain introduction part. .

)請求項記載の本発明は、請求項1〜のいずれか1項に記載の穀物吸引搬送装置において、前記エア搬送路は、前記穀物供給部に始端を臨ませた単一の上流管と、複数の穀物回収部にそれぞれ終端を連通連結し、かつ前記分岐吸気管をそれぞれ設けた複数の下流管と、前記上流管と前記複数の下流管の中の一とを択一的に連通連結する搬送路切換部と、を備え、前記搬送路切換部は、多段に配設した連結管群と、この連結管群の中の一の連結管が始端を前記上流管に、終端を前記複数の下流管の一に連通するように、前記連結管群の位置を平行移動させるアクチュエータと、を備えることを特徴とする。 ( 5 ) The present invention according to claim 5 is the grain suction conveyance device according to any one of claims 1 to 4 , wherein the air conveyance path is a single unit with a leading end facing the grain supply unit. An upstream pipe, a plurality of downstream pipes each having a terminal end connected to a plurality of grain recovery sections and provided with the branch intake pipes, and one of the upstream pipe and the plurality of downstream pipes are alternatively selected. A transfer path switching unit that communicates with the transfer path switching unit. The transfer path switching unit includes a multi-stage connection pipe group, and one connection pipe in the connection pipe group is terminated at the upstream end. the so as to communicate with one of said plurality of downstream pipe, and wherein the Rukoto and an actuator for translating the position of the connecting tube group.

本発明によれば、分岐吸気管によって、エア搬送路内におけるエア搬送速度が低減し、穀物回収部に至った際に、米などの穀物が回収部の壁などに衝突しても、その損傷を可及的に低減することが可能となる。また、エア搬送路から穀物回収部内に勢いよく流入した穀物が舞い上がったりして、吸引機構に吸い込まれたりするおそれもなくなる。   According to the present invention, when the branch intake pipe reduces the air conveyance speed in the air conveyance path and reaches the grain recovery unit, even if a grain such as rice collides with the wall of the recovery unit, the damage is caused. Can be reduced as much as possible. In addition, there is no possibility that the grain that has flowed into the grain collection unit from the air conveyance path will rise and be sucked into the suction mechanism.

本実施形態に係る穀物吸引搬送装置は、搬送物となる穀物を収容する穀物供給部と、同穀物供給部から供給された穀物をエア搬送するエア搬送路と、同エア搬送路からエア搬送された穀物を受けて回収する穀物回収部と、前記エア搬送路の終端部を連通した前記穀物回収部に連通連結し、吸気により前記エア搬送路内に気流を生じさせる吸引機構と、前記エア搬送路の中途から分岐して前記穀物回収部に終端を連通連結した分岐吸気管とを備えた構成としたものである。   The grain suction conveyance device according to the present embodiment is a grain supply unit that stores grains to be conveyed, an air conveyance path that conveys grains supplied from the grain supply unit by air, and an air conveyance from the air conveyance path. A suction part that communicates and connects a grain recovery part that receives and collects the grain, a grain recovery part that communicates a terminal part of the air conveyance path, and generates an air flow in the air conveyance path by intake air; and the air conveyance A branch intake pipe that branches off from the middle of the road and has a terminal end connected to the grain recovery unit is provided.

すなわち、大型化しがちな送気による圧送方式ではなく、吸引によるエア搬送として、コンパクトな構成であってなおかつ搬送対象である米などの穀物を優しく搬送することを可能とし、しかも、エア搬送路の中途に分岐吸気路を設けたことで、搬送スピードを遅くし、穀物に加わる衝撃を軽減して穀物の損傷を可及的に防止することが可能となる。   In other words, it is not a pressure-feeding method that tends to be large, and it is possible to gently convey grains such as rice, which is a compact structure and as a conveyance target, as air conveyance by suction, and the air conveyance path By providing the branch intake passage in the middle, it is possible to reduce the conveying speed, reduce the impact applied to the grain, and prevent damage to the grain as much as possible.

また、穀物回収部には、吸引機構と連通する吸気口が連通されているが、搬送される穀物は穀物回収部への流入速度も遅いために、穀物回収部内において、壁体などに衝突して勢いよく舞い上がったりすることもないことから、前記吸気口から吸引機構まで穀物が混入したりするおそれもなくなる。   In addition, the grain recovery unit has an air inlet communicating with the suction mechanism. However, since the flow rate of the transported grain into the grain recovery unit is slow, the grain recovery unit collides with a wall or the like in the grain recovery unit. Therefore, there is no risk of grain mixing from the intake port to the suction mechanism.

また、エア搬送路内を移動する穀物が分岐吸気管内に流入することを防止するために、前記分岐吸気管は、前記エア搬送路から上方に向けて分岐させることが好ましく、より好ましくは、さらに前記エア搬送路に対し、一旦、穀物の搬送方向とは逆向きに分岐させるとよい。   In order to prevent the grains moving in the air conveyance path from flowing into the branch intake pipe, the branch intake pipe is preferably branched upward from the air conveyance path, more preferably The air conveyance path may be once branched in a direction opposite to the grain conveyance direction.

すなわち、エア搬送路を搬送される穀物を分岐吸気流路に吸引させる力よりも、穀物自体の重力を含め、より大きな抵抗を付与することのできる構成とするものであり、穀物は抵抗なく直進できるエア搬送路を低減された搬送速度でソフトに穀物回収部までは搬送されることになる。   In other words, the grain can be given a greater resistance, including the gravity of the grain itself, than the force that attracts the grain conveyed through the air conveyance path to the branch intake flow path. The air conveyance path that can be carried is softly conveyed to the grain recovery unit at a reduced conveyance speed.

なお、エア搬送路と分岐吸気管との連通部に、搬送対象となる穀物よりも小さい目を有する網状体などを配設し、穀物が分岐吸気管に流入することをより確実に防止することもできる。   In addition, a net or the like having an eye smaller than the grain to be transported is disposed at the communication portion between the air conveyance path and the branch intake pipe, thereby more reliably preventing the grain from flowing into the branch intake pipe. You can also.

また、上記構成の穀物吸引搬送装置において、前記エア搬送路の始端部を上向きに湾曲状に折曲形成し、上方に向けて開口した始端開口を外気連通口となすとともに、当該外気連通口に前記穀物供給部の穀物供給口が臨むように穀物供給部を配設するとよい。   Further, in the grain suction conveyance device having the above-described configuration, the start end portion of the air conveyance path is bent upward in a curved shape, and the start end opening opened upward serves as an outside air communication port. The grain supply unit may be arranged so that the grain supply port of the grain supply unit faces.

すなわち、エア搬送路内に引き込む外気の取込口である外気連通口と、エア搬送路内にエア搬送対象となる米などの穀物を取り込む穀物投入口とが兼用されており、穀物を、その自然落下によりエア搬送路内に簡単に供給でき、しかも、穀物が落下していく穀物投入口からは外気が吸引されているので、穀物は散逸することなく効果的にエア搬送路内に供給され、しかもそのままエア搬送路内を円滑に流れて搬送され、穀物回収部内に効果的に収容される。   In other words, the outside air communication port, which is an intake port for outside air drawn into the air conveyance path, and the grain input port for taking grains such as rice to be air conveyed into the air conveyance path are also used. It can be easily supplied into the air conveyance path by natural fall, and the outside air is sucked from the grain inlet where the grains fall, so that the grains are effectively supplied into the air conveyance path without being dissipated. Moreover, the air is smoothly transported through the air transport path as it is, and is effectively accommodated in the grain recovery unit.

しかも、エア搬送路は始端部側を上方へ湾曲させた簡単なチューブ状の構成とすればよいので、特にエア供給のための専用管などを設ける必要のない簡単な構造となり、さらに、エアを圧送する方式の送気装置などに比べて比較的小能力の吸引機構による吸引によって穀物をエア搬送することができるので、装置全体をコンパクト化することができるとともに、消費電力などを含め、装置のコスト低減を図ることができる。   In addition, the air conveyance path only needs to have a simple tube-like configuration with the starting end side curved upward, so that it has a simple structure that does not require a special pipe for supplying air in particular. Grain can be conveyed by air by suction using a suction mechanism with a relatively small capacity compared to a pneumatic feeding device, etc., so that the entire device can be made compact, including power consumption, etc. Cost reduction can be achieved.

また、穀物供給部とエア搬送路とがそれぞれ独立しているので、穀物吸引搬送装置の製造時に穀物供給部とエア搬送路との接続などが不要であり、装置全体の製造が容易となって、この点からもコスト低減を図ることが可能となる。   In addition, since the grain supply unit and the air conveyance path are independent from each other, it is not necessary to connect the grain supply unit and the air conveyance path when manufacturing the grain suction conveyance device, and the production of the entire apparatus is facilitated. From this point, it is possible to reduce the cost.

さらに、上記構成において、前記外気連通口を前記穀物供給口よりも大口径とし、前記穀物供給口と前記外気連通口との間を所定距離だけ離隔させて両者を配置するとよい。   Further, in the above configuration, the outside air communication port may have a larger diameter than the grain supply port, and the grain supply port and the outside air communication port may be spaced apart from each other by a predetermined distance.

かかる構成とすることにより、穀物供給口から排出される穀物が系外に散逸することをより確実に防止可能となる。   By adopting such a configuration, it is possible to more reliably prevent the grains discharged from the grain supply port from being dissipated outside the system.

また、エア搬送路の他の実施形態として、下記の構成とすることもできる。   Further, as another embodiment of the air conveyance path, the following configuration may be adopted.

すなわち、エア搬送路の始端部を、横向きに伸延させた外気導入部と、上方に湾曲状に伸延させた穀物導入部とに分岐形成し、前記外気導入部の始端開口を外気連通口となす一方、前記穀物同入部の始端開口に前記穀物供給部の穀物供給口を連通連結した構成とするものである。   That is, the start end portion of the air conveyance path is branched and formed into an outside air introduction portion extended laterally and a grain introduction portion extended in a curved shape upward, and the opening of the start end of the outside air introduction portion serves as an outside air communication port. On the other hand, the grain supply port of the grain supply part is connected to the start end opening of the grain insertion part.

かかる装置としても上述の実施形態同様にコンパクトな構成となり、しかも、エアを圧送する方式の送気装置などに比べて比較的小能力の吸引機構による吸引によって穀物をエア搬送することができるので、装置全体をコンパクト化することができるとともに、消費電力などを含め、コスト低減を図ることができる。   As such an apparatus, it becomes a compact configuration as in the above-described embodiment, and moreover, grain can be conveyed by air by suction using a suction mechanism having a relatively small capacity compared to an air feeding apparatus of a system that pumps air. The entire apparatus can be made compact, and the cost can be reduced including power consumption.

また、この構成とした場合、外気連通口は外気専用の取込口となって、必要量の外気を十分に吸引することができ、同時に穀物供給口からの自然落下により、穀物を簡単かつ確実にエア搬送路内に供給して円滑なエア搬送が行える。   Also, with this configuration, the outside air communication port becomes a dedicated intake port for outside air, and can sufficiently suck in the required amount of outside air. At the same time, the natural fall from the grain supply port makes it easy and reliable. The air can be supplied to the inside of the air conveyance path to smoothly carry the air.

なお、エア搬送路の形態として上述したいずれのものであっても、前記穀物供給口には、開閉自在なシャッターを設けておくものとし、必要時にシャッターを開けて穀物供給口を開放し、穀物をエア搬送路内に供給する構成としている。   In any of the above-described forms of the air conveyance path, the grain supply port is provided with an openable / closable shutter, and when necessary, the shutter is opened to open the grain supply port. Is supplied into the air conveyance path.

なお、シャッターの開放動作は手動であってもよいが、例えば、吸引機構の作動と連動させておくことが好ましい。吸引機構が作動するとシャッターが開き、吸引機構が停止するとシャッターが閉じるようにするのである。かかる構成とすることにより、吸引機構を駆動させるという操作のみで穀物のエア搬送が容易に行える。   Note that the shutter opening operation may be manual, but it is preferable, for example, to be interlocked with the operation of the suction mechanism. When the suction mechanism is activated, the shutter is opened, and when the suction mechanism is stopped, the shutter is closed. With this configuration, the grain can be easily conveyed by air only by driving the suction mechanism.

ところで、水平方向に伸延する円筒状の外気導入部と、上方へ湾曲したこれも円筒状の穀物導入部とを分岐させる場合、円筒状のエア搬送路の始端部分を上方湾曲させ、この湾曲部分の下方を切欠するとともに、この切欠部に両端開口とした円筒状の外気導入部を連結することができる。あるいは、水平に伸延するエア搬送路の始端側上部部分を開口し、この開口部内に湾曲させた円筒状の穀物導入部を嵌装することもできる。   By the way, when branching the cylindrical outside air introduction portion extending in the horizontal direction and the cylindrical grain introduction portion curved upward, the starting end portion of the cylindrical air conveyance path is curved upward, and the curved portion And a cylindrical outside air introduction part having openings at both ends can be connected to the notch. Alternatively, it is also possible to open an upper part of the start end side of the air conveyance path extending horizontally and fit a curved cylindrical grain introduction part into the opening.

いずれにしても、エア搬送路内に位置する穀物導入部の端部からは、エア搬送路の内部までの搬送方向に向かって伸延する穀物受板を適宜長さで設けておくとよい。   In any case, a grain receiving plate extending in the transport direction to the inside of the air transport path may be provided with an appropriate length from the end of the grain introduction part located in the air transport path.

すなわち、エア搬送路の略中央部分に位置する穀物導入部の端部から、エア搬送路を上下に仕切るように穀物受板を延設しておき、この穀物受板によって、穀物供給部から落下する穀物を一旦受け止めた後にエアにより吸引搬送するようにしておくとよい。   That is, a grain receiving plate is extended from the end of the grain introduction part located substantially at the center of the air conveying path so as to partition the air conveying path up and down, and the grain receiving plate drops from the grain supplying part. It is advisable to suck and convey the cereal to be sucked by air after it has been received.

かかる構成とすることで、大量の穀物が一度に落下してエア搬送路内に堆積することがなく、穀物のエアによる吸引搬送を円滑に行うことができる。   With this configuration, a large amount of grain does not fall at once and accumulates in the air conveyance path, and the grain can be smoothly sucked and conveyed by air.

さらに他の実施形態として、前記エア搬送路は、前記穀物供給部に始端を臨ませた単一の上流管と、複数の穀物回収部にそれぞれ終端を連通連結し、かつ前記分岐吸気管をそれぞれ設けた複数の下流管と、前記上流管と前記複数の下流管の中の一とを択一的に連通連結する搬送路切換部と、を備える構成とすることもできる。   As still another embodiment, the air conveyance path has a single upstream pipe facing the grain supply unit and a plurality of grain recovery units, each having a terminal end connected to each other. It can also be set as the structure provided with the provided downstream pipe | tube, and the conveyance path switching part which selectively connects the said upstream pipe | tube and one in the said some downstream pipe | tube.

かかる構成とすることにより、穀物回収部を複数設置して、搬送路切換部を動作させることで所望する穀物回収部へ穀物を搬送することができる。しかも、穀物を痛めることはない。   By adopting such a configuration, it is possible to convey a grain to a desired grain collection unit by installing a plurality of grain collection units and operating the conveyance path switching unit. And it doesn't hurt the grain.

ところで、前記搬送路切換部としては、例えば、多段に配設した連結管群と、この連結管群の中の一の連結管が始端を前記上流管に、終端を前記複数の下流管の一に連通するように、前記連結管群の位置を平行移動させるアクチュエータとを備える構成とすることができる。アクチュエータとしては、例えばエアシリンダ、電動シリンダなどの直進往復動作ができるものや、電気モータなどにギヤなどからなる所定の運動方向変換機構を組み合わせたものなどが考えられる。   By the way, as the transfer path switching unit, for example, a multi-stage connection pipe group, and one connection pipe in the connection pipe group has a start end as the upstream pipe and a terminal end as one of the plurality of downstream pipes. And an actuator that translates the position of the group of connecting pipes so as to communicate with each other. As the actuator, for example, an actuator capable of a reciprocating motion such as an air cylinder or an electric cylinder, or a combination of an electric motor or the like with a predetermined movement direction conversion mechanism such as a gear is conceivable.

かかる構成であれば、搬送路切換部の構成が簡単となり、穀物回収部に連通した複数の下流管の中の一つへの択一的な変更も容易かつ確実に行えるようになる。   With such a configuration, the configuration of the conveyance path switching unit is simplified, and an alternative change to one of the plurality of downstream pipes communicating with the grain recovery unit can be easily and reliably performed.

また、上述してきた各実施形態において、前記エア搬送路の終端部には、下向きに湾曲形成して、前記穀物回収部内に搬送される穀物の搬送方向を下方向へ案内しながら搬送速度を減速する回収ガイドを取付けることができる。   Further, in each of the above-described embodiments, the end portion of the air conveyance path is curved downward, and the conveyance speed is reduced while guiding the conveyance direction of the grains conveyed into the grain recovery unit downward. A recovery guide can be attached.

従来は、搬送された穀物が勢いよく穀物回収部の内壁などに衝突して損傷することがあったが、この回収ガイドにより、搬送された穀物の搬送速度が勢いよく穀物回収部の内壁などに衝突することを防止して、穀物の損傷を効果的に防止することが可能となり、商品価値を損なうことをより確実に防止できる。   In the past, the transported grain could hit and damage the inner wall of the grain recovery unit, etc., but this recovery guide speeded up the transported grain to the inner wall of the grain recovery unit. It is possible to prevent collision and effectively prevent grain damage, and more reliably prevent damage to commercial value.

さらに好ましくは、前記回収ガイドは、平板状あるいは断面視円弧状としたガイド本体に、左右一対の側壁を耳状に立設しておくとよい。かかる側壁により、ガイド本体だけでは側方に広がって飛び散ってしまい、穀物回収部の内壁面等に衝突してしまうおそれのある穀物をより確実にガイドすることができるので、上記効果をより高めることが可能となる。   More preferably, the collection guide may have a pair of left and right side walls standing in an ear shape on a guide body having a flat plate shape or a circular arc shape in cross section. With such a side wall, it is possible to more reliably guide grains that may spread and scatter to the side only by the guide main body and collide with the inner wall surface or the like of the grain recovery unit, so that the above effect is further enhanced. Is possible.

また、上記回収ガイドに代えて、前記穀物回収部内に、搬送物の流入方向と同方向に回転しながら搬送物を受ける受羽根を配設することもできる。   Further, instead of the collection guide, a receiving blade for receiving the conveyed product while rotating in the same direction as the inflow direction of the conveyed product may be disposed in the grain collecting unit.

この受羽根によっても、穀物の搬送する穀物が勢いよく穀物回収部の内壁などに衝突することを防止できるので、やはり穀物の損傷を効果的に防止することが可能となり、商品価値を損なうことを防止できる。   This receiving blade can also prevent the grain transported by the grain from strikingly colliding with the inner wall of the grain recovery unit, etc., so that it is possible to effectively prevent damage to the grain and to impair the commercial value. Can be prevented.

このように、本発明に係る穀物吸引搬送装は、簡単、かつコンパクトな構成であり、しかも大型の送気装置が不要でありながら、米などの穀物を円滑にエア搬送することができるとともに、搬送速度を遅くすることができるので、穀物に加わる衝撃が弱まり、穀物の損傷を可及的に防止することができる。   As described above, the grain suction conveyance device according to the present invention has a simple and compact structure, and can smoothly convey grains such as rice, while eliminating the need for a large-sized air feeding device. Since the conveying speed can be reduced, the impact applied to the grain is weakened, and damage to the grain can be prevented as much as possible.

また、エア圧送方式と異なり、メンテナンスが頻繁に必要と考えられる専用のエア供給管が不要となるので、装置全体のメンテナンス性も向上する。すなわち、エア搬送する穀物が米や豆類などの場合には、派生する屑が糠や皮など水分を含む場合が多く、これらによって前記エア供給管はきわめて汚れやすいので、かかるエア供給管を不要とする構成を実現することは非常に有益である。   In addition, unlike the air pressure feeding method, a dedicated air supply pipe that is considered to be frequently required for maintenance is not required, so that the maintainability of the entire apparatus is improved. In other words, when the grains to be conveyed by air are rice or beans, the derived waste often contains moisture such as straw and leather, and these air supply pipes are extremely dirty, and thus the air supply pipes are unnecessary. It is very beneficial to realize a configuration that does.

以下、本発明に係る穀物吸引搬送装置の具体的な実施形態について図面を参照しながら説明する。   Hereinafter, specific embodiments of the grain suction and conveyance device according to the present invention will be described with reference to the drawings.

図1は、本実施形態に係る穀物吸引搬送装置Aを示す模式的な全体説明図であり、図示するように、穀物吸引搬送装置Aは、穀物供給部1と、同穀物供給部1から供給された米などの穀物aの搬送路となるエア搬送路2と、同エア搬送路2を通ってエア搬送された穀物aを受ける穀物回収部4と、同穀物回収部4に連通連結し、当該穀物回収部4及び前記エア搬送路2を介して空気とともに穀物aを吸引する吸引機構3とを備えている。   FIG. 1 is a schematic overall view showing a grain suction / conveying apparatus A according to the present embodiment. As shown, the grain suction / conveying apparatus A is supplied from a grain supply unit 1 and the grain supply unit 1. An air conveyance path 2 that serves as a conveyance path for the grain a such as rice, a grain collection unit 4 that receives the grain a that has been conveyed by air through the air conveyance path 2, and a communication connection to the grain collection unit 4, A suction mechanism 3 that sucks the grain a together with the air through the grain recovery unit 4 and the air conveyance path 2 is provided.

そして、穀物供給部1内に収納した穀物aを、吸引機構3を駆動してエア搬送路2に供給するとともに、吸引によって穀物回収部4へエア搬送可能としている。   The grain a stored in the grain supply unit 1 is supplied to the air conveyance path 2 by driving the suction mechanism 3 and can be conveyed by air to the grain collection unit 4 by suction.

穀物供給部1は、収容した穀物aをエア搬送路2に供給すホッパーからなり、下方に傾斜した漏斗状底面11に筒状周壁部12を連設し、漏斗状底面11の中央には、穀物供給口13を有する短尺の穀物供給筒14を下方に向けて突設している。また、穀物供給筒14には開閉自在のシャッター(図示せず)を取り付けている。かかるシャッターの構造は特に限定されるものではなく、例えばスライド自在な平板を用いた簡単な構造で構わない。なお、このシャッターのスライド量によって穀物供給口13の開口幅を調整し、穀物aのエア搬送路2への時間当たりの供給量を調整することができる。   The grain supply unit 1 includes a hopper that supplies the stored grain a to the air conveyance path 2. A cylindrical peripheral wall part 12 is continuously provided on a funnel-shaped bottom surface 11 that is inclined downward. A short grain supply cylinder 14 having a grain supply port 13 protrudes downward. The grain supply cylinder 14 is provided with an openable / closable shutter (not shown). The structure of such a shutter is not particularly limited, and for example, a simple structure using a slidable flat plate may be used. The opening width of the grain supply port 13 can be adjusted by the sliding amount of the shutter, and the supply amount per hour of the grain a to the air conveyance path 2 can be adjusted.

前記エア搬送路2は、両端開口の筒状に形成されており、始端部2a側を上方へ略直角に湾曲形成しており、始端開口27を上方へ向けている。そして、始端部2aから湾曲して水平に伸延し、後述する回収ガイド9を取付けた終端部2bを穀物回収部4の側壁40上部に貫通させることにより、エア搬送路2と穀物回収部4とを連通連結している。2cはエア搬送路2と穀物回収部4の側壁40との接合部、29は搬送路終端開口である。   The air conveyance path 2 is formed in a cylindrical shape having openings at both ends, the start end portion 2a is curved upward at a substantially right angle, and the start end opening 27 is directed upward. And by curving from the start end part 2a and extending horizontally, the end part 2b to which the collection guide 9 described later is attached is passed through the upper part of the side wall 40 of the grain collection part 4, thereby allowing the air conveyance path 2, the grain collection part 4 and Are connected. Reference numeral 2c denotes a joint portion between the air conveyance path 2 and the side wall 40 of the grain collection unit 4, and reference numeral 29 denotes a conveyance path end opening.

本実施形態に係る穀物吸引搬送装置Aは、上述したように、吸引機構3を穀物回収部4に連通連結して、当該穀物回収部4及び前記エア搬送路2を介して空気とともに穀物aを吸引可能としたものであり、前記エア搬送路2は、始端部2a側を上方へ湾曲させた簡単なチューブ状の構成としているので、特にエア供給のための専用管などを設ける必要のない簡単な構造となっている。   As described above, the grain suction conveyance device A according to the present embodiment connects the suction mechanism 3 to the grain collection unit 4 and communicates the grain a together with the air via the grain collection unit 4 and the air conveyance path 2. Since the air conveyance path 2 has a simple tube-like configuration with the start end portion 2a curved upward, it is not particularly necessary to provide a dedicated pipe for supplying air. It has a simple structure.

さらに、エアを圧送する方式の送気装置などに比べて比較的小能力の吸引機構3による吸引によって穀物aをエア搬送することができるので、装置全体をコンパクト化することができるとともに、消費電力などを含め、装置のコスト低減を図ることができる。   Furthermore, since the grain a can be conveyed by air by suction by the suction mechanism 3 having a relatively small capacity as compared with an air feeding device of a system that pumps air, the entire device can be made compact and power consumption can be reduced. The cost of the apparatus can be reduced.

図2はエア搬送路2の始端部2aを示す説明図であり、図示するように、始端部2aの始端開口27を外気連通口となすとともに、当該始端開口27(外気連通口)に前記穀物供給口13が臨むように穀物供給部1が配設されている。しかも、外気連通口となる当該始端開口27を前記穀物供給口13よりも大口径とし、前記穀物供給口13を、始端開口27の上方に所定距離だけ離隔させて配置している。なお、図2において、21はエア搬送路2の始端部2aの先端側に形成した拡径部であり、エア搬送路2の他の部分の直径よりも大径としている。   FIG. 2 is an explanatory view showing the start end portion 2a of the air conveyance path 2. As shown in the figure, the start end opening 27 of the start end portion 2a serves as an outside air communication port, and the grain is placed in the start end opening 27 (outside air communication port). The grain supply part 1 is arrange | positioned so that the supply port 13 may face. In addition, the start opening 27 serving as an outside air communication port has a larger diameter than the grain supply port 13, and the grain supply port 13 is disposed above the start end opening 27 by a predetermined distance. In FIG. 2, reference numeral 21 denotes an enlarged diameter portion formed on the distal end side of the start end portion 2 a of the air conveyance path 2, which has a diameter larger than the diameter of the other part of the air conveyance path 2.

このように、本実施形態では、エア搬送路2内に引き込む外気の取込口である外気連通口と、エア搬送路2内にエア搬送対象となる米などの穀物aを取り込む穀物投入口とが、エア搬送路2の始端開口27により兼用されており、図2に示すように、穀物aは自然落下によってエア搬送路2内に簡単に供給され、しかも、穀物aが落下していく穀物投入口からは、外気連通口として機能して外気が吸引されているので、穀物aは散逸することなく効果的にエア搬送路2内に供給され、気流に乗ってそのままエア搬送路2内を円滑に流れて搬送されていき、穀物回収部4内に効果的に収容される。   As described above, in the present embodiment, the outside air communication port that is an intake port for the outside air drawn into the air conveyance path 2, and the grain input port that takes in the grain a such as rice to be air conveyed into the air conveyance path 2. However, as shown in FIG. 2, the grain a is easily supplied into the air conveyance path 2 by natural fall, and the grain a falls. Since the outside air is sucked in from the input port and functions as an outside air communication port, the grain a is effectively supplied into the air conveyance path 2 without being dissipated, and is carried through the air flow in the air conveyance path 2 as it is. It flows smoothly and is transported, and is effectively accommodated in the grain collection unit 4.

また、穀物供給部1とエア搬送路2とがそれぞれ独立しているので、穀物吸引搬送装置Aの製造時に、穀物供給部1とエア搬送路2とを溶接などによって接続する工程などが不要となり、穀物吸引搬送装置A全体の製造が容易となって、この点からもコスト低減を図ることが可能となる。   Further, since the grain supply unit 1 and the air conveyance path 2 are independent from each other, a process of connecting the grain supply unit 1 and the air conveyance path 2 by welding or the like is not required when the grain suction conveyance apparatus A is manufactured. Further, the entire grain suction / conveying device A can be easily manufactured, and the cost can be reduced also in this respect.

穀物回収部4は、図1に示すように、前記エア搬送路2と連通連設した受容ホッパー41を備えており、受容ホッパー41の下端部に当該受容ホッパー41から外部への穀物取出口42を設け、この穀物取出口42にロータリーバルブ43を配設している。44は受容ホッパー41の上端をなす天井部に突設した吸気管であり、この吸気管44を介してエア搬送路2及び受容ホッパー41の内部の空気を吸引する前記吸引機構3を連通連設している。45は吸引機構3と前記吸気管44とを連結した吸気ダクト、46は前記吸気管44と連通した吸気口である。   As shown in FIG. 1, the grain collection unit 4 includes a receiving hopper 41 communicating with the air conveyance path 2, and a grain take-out port 42 from the receiving hopper 41 to the outside at the lower end of the receiving hopper 41. And a rotary valve 43 is disposed at the grain outlet 42. Reference numeral 44 denotes an intake pipe projecting from the ceiling that forms the upper end of the receiving hopper 41, and the suction mechanism 3 that sucks the air in the air conveyance path 2 and the receiving hopper 41 through the intake pipe 44 is connected in a continuous manner. is doing. Reference numeral 45 denotes an intake duct that connects the suction mechanism 3 and the intake pipe 44, and 46 denotes an intake port that communicates with the intake pipe 44.

また、エア搬送路2には、その中途から分岐して穀物回収部4に終端部51を連通連結した分岐吸気管5を設けている。   In addition, the air conveyance path 2 is provided with a branch intake pipe 5 that branches from the middle of the air conveyance path 2 and that is connected to the grain collection unit 4 through the end portion 51.

この分岐吸気管5は、前記エア搬送路2の下流部側、すなわち、前記穀物回収部4の直前部分に設けられており、エア搬送路2から、一旦、穀物aの搬送方向とは逆向きで、かつ上方に向けて分岐させるとともに、穀物回収部4側に向けて湾曲させて、終端部51を伸延させ、受容ホッパー41の傾斜天井壁47を貫通させるとともに、そのまま略45度の角度で斜め下方へ伸延させている。50は斜め下方に向いて開口する分岐吸気管5の分岐管先端開口であり、当該分岐吸気管5の吸気口となる。また、52は同湾曲部、53は同分岐部である。   The branch intake pipe 5 is provided on the downstream side of the air conveyance path 2, that is, on the portion immediately before the grain collection unit 4, and once from the air conveyance path 2 is opposite to the conveyance direction of the grain a. In addition to branching upward and curving toward the grain collection unit 4 side, the end portion 51 is extended to penetrate the inclined ceiling wall 47 of the receiving hopper 41 and at an angle of approximately 45 degrees as it is. It is extended diagonally downward. Reference numeral 50 denotes a branch pipe tip opening of the branch intake pipe 5 that opens obliquely downward, and serves as an intake port of the branch intake pipe 5. Further, 52 is the same bending portion, and 53 is the same branching portion.

かかる構成により、吸引機構3からの吸気は、搬送路終端開口29と分岐管先端開口50との両方からなされることになり、エア搬送路2の吸引力が低減される。   With this configuration, the intake air from the suction mechanism 3 is made from both the conveyance path end opening 29 and the branch pipe tip opening 50, and the suction force of the air conveyance path 2 is reduced.

しかも、分岐吸気管5を穀物aの搬送方向とは逆向きで且つ上方へ分岐させていることから、穀物a自体の重力を含めた大きな抵抗が、穀物aを分岐吸気管5内に吸引させる力よりも勝り、穀物aは抵抗なく直進できるエア搬送路2を低減された搬送速度でソフトに穀物回収部4の受容ホッパー41までは搬送されることになる。   Moreover, since the branch intake pipe 5 is branched upward in the direction opposite to the conveying direction of the grain a, the large resistance including the gravity of the grain a itself causes the grain a to be sucked into the branch intake pipe 5. The grain a is superior to the force, and the grain a is conveyed to the receiving hopper 41 of the grain collection unit 4 softly at a reduced conveyance speed in the air conveyance path 2 that can go straight without resistance.

したがって、エア搬送される穀物aに加わる衝撃が軽減され、穀物aの損傷を可及的に防止することができる。   Therefore, the impact applied to the grain a that is conveyed by air is reduced, and damage to the grain a can be prevented as much as possible.

さらに、搬送される穀物aは受容ホッパー41へ流入する速度が遅くなるために、受容ホッパー41の側壁40などの壁体などに衝突して勢いよく舞い上がったりすることもなく、前記分岐管先端開口50から穀物aが吸引されて吸引機構3に混入したりするおそれもない。   Furthermore, since the speed at which the conveyed grain a flows into the receiving hopper 41 becomes slow, it does not collide with a wall body such as the side wall 40 of the receiving hopper 41 and soar, and the branch pipe tip opening There is no possibility that the grain a is sucked from 50 and mixed into the suction mechanism 3.

なお、前記分岐吸気管5の湾曲部52の曲率や周長さ、あるいは分岐部53からの分岐角度などは適宜設定することができる。また、エア搬送路2と分岐吸気管5との連通部となる前記分岐部53には、搬送対象となる穀物aよりも小さい目を有する網状体などのフィルタ(図示せず)を配設して、穀物aが分岐吸気管5に流入することをより確実に防止することもできる。   It should be noted that the curvature and circumferential length of the curved portion 52 of the branch intake pipe 5 or the branch angle from the branch portion 53 can be appropriately set. In addition, a filter (not shown) such as a mesh body having eyes smaller than the grain a to be transported is disposed at the branching portion 53 serving as a communication portion between the air transport path 2 and the branch intake pipe 5. Thus, it is possible to more reliably prevent the grain a from flowing into the branch intake pipe 5.

次に、穀物吸引搬送装置Aの他の実施形態について図3及び図4を参照しながら説明する。   Next, another embodiment of the grain suction conveyance device A will be described with reference to FIGS.

この実施形態では、基本構成は図1及び図2で示した実施形態と同様であるが、前記エア搬送路2を、前記穀物供給部1に始端を臨ませた単一の上流管7と、複数の穀物回収部4にそれぞれ終端を連通連結し、かつ前記分岐吸気管5をそれぞれ設けた複数の下流管8と、前記上流管7と前記複数の下流管8の中の一とを択一的に連通連結する搬送路切換部6とを備える構成とした点が異なる。なお、先の実施形態と同一の他の構成要素については同一符号を付して、ここでの説明は省略する。   In this embodiment, the basic configuration is the same as the embodiment shown in FIG. 1 and FIG. 2, but the air transport path 2 has a single upstream pipe 7 facing the grain supply unit 1, A plurality of downstream pipes 8 each having a terminal end connected to the plurality of grain collecting units 4 and provided with the branch intake pipes 5 are selected, and one of the upstream pipes 7 and one of the plurality of downstream pipes 8 is selected. The difference is that the apparatus is configured to include a conveyance path switching unit 6 that is connected in a continuous manner. In addition, about the other component same as previous embodiment, the same code | symbol is attached | subjected and description here is abbreviate | omitted.

すなわち、本実施形態は、穀物回収部4を複数設置可能とし、搬送路切換部6を動作させることで所望する穀物回収部4へ穀物aを搬送することができるようにしたものである。しかも、ここでも分岐吸気管5を各下流管8に設けた構成としているので、穀物aの損傷を可及的に防止することができる。   That is, in the present embodiment, a plurality of grain collection units 4 can be installed, and the grain a can be conveyed to the desired grain collection unit 4 by operating the conveyance path switching unit 6. Moreover, since the branched intake pipes 5 are provided in the downstream pipes 8 as well, the grain a can be prevented from being damaged as much as possible.

ここで、搬送路切換部6の構成について説明する。   Here, the configuration of the transport path switching unit 6 will be described.

搬送路切換部6は、図3及び図4に示すように、多段に配設した連結管群60と、この連結管群60の中の一の連結管61(62)が始端61a(62a)を前記上流管7に、終端61b(62b)を前記複数の下流管8の一に連通するように、前記連結管群60の位置を平行移動させるアクチュエータ63とを備える構成とし、これらを箱状のケーシング64に収納配設している。なお、このケーシング64には、図4に示すように、上流管7と連通する上流側開口64aと、下流管8,8に連通する二つの開口、すなわち、第1下流側開口64bと第2下流側開口64cとが形成されている。   As shown in FIGS. 3 and 4, the transport path switching unit 6 includes a connecting pipe group 60 arranged in multiple stages, and one connecting pipe 61 (62) in the connecting pipe group 60 having a start end 61 a (62 a). And an actuator 63 that translates the position of the connecting pipe group 60 so that the terminal end 61b (62b) communicates with one of the plurality of downstream pipes 8, and these are box-shaped. The casing 64 is housed and disposed. As shown in FIG. 4, the casing 64 has an upstream opening 64 a communicating with the upstream pipe 7 and two openings communicating with the downstream pipes 8, ie, a first downstream opening 64 b and a second opening. A downstream opening 64c is formed.

ところで、本実施形態では、穀物回収部4を第1の穀物回収部4−1と第2の穀物回収部4−2との2基を設置した場合としている。したがって、下流管8については第1の穀物回収部4−1と連通連結した第1下流管8−1と、第2の穀物回収部4−2と連通連結した第2下流管8−2とが配設されており、多段とした連結管群60については、図4に示すように、第1の穀物回収部4−1に穀物aを搬送するための第1連結管61と、第2の穀物回収部4−2に穀物aを搬送するための第2連結管62を、連結板65を介して並設した構成としている。   By the way, in this embodiment, the grain collection | recovery part 4 is set as the case where two sets, the 1st grain collection | recovery part 4-1 and the 2nd grain collection | recovery part 4-2, are installed. Therefore, for the downstream pipe 8, the first downstream pipe 8-1 communicated with the first grain collection unit 4-1, and the second downstream pipe 8-2 communicated with the second grain collection unit 4-2. As shown in FIG. 4, the connection pipe group 60 having a multi-stage is provided with a first connection pipe 61 for transporting the grain a to the first grain collection unit 4-1, and a second connection pipe 60. The second connection pipe 62 for conveying the grain a to the grain recovery unit 4-2 is arranged in parallel via a connection plate 65.

本実施形態では、第1下流管8−1が上側に、第2下流管8−2が下側に位置しているので、第1連結管61は緩やかなS字状に屈曲形成した屈曲管とし、第2連結管62は直管としている。   In the present embodiment, since the first downstream pipe 8-1 is located on the upper side and the second downstream pipe 8-2 is located on the lower side, the first connecting pipe 61 is a bent pipe formed in a gentle S-shape. The second connecting pipe 62 is a straight pipe.

また、アクチュエータ63としては、例えば本実施形態に用いたエアシリンダ、あるいは電動シリンダなどの直進往復動作ができるものを好適に用いることができる。図4中、66はシリンダ本体、67はシリンダ連結杆である。   In addition, as the actuator 63, for example, an air cylinder used in the present embodiment, an electric cylinder, or the like capable of linearly reciprocating can be suitably used. In FIG. 4, 66 is a cylinder body, and 67 is a cylinder coupling rod.

上記構成により、第1の穀物回収部4−1に穀物aをエア搬送する場合は、図4(a)に示すように、アクチュエータ63を駆動して、シリンダ連結杆67を縮め、第1連結管61の始端61aを上流側開口64aに、終端61bを第1下流側開口64bに連通すればよい。一方、第2の穀物回収部4−2に穀物aをエア搬送する場合は、図4(b)に示すように、アクチュエータ63を駆動して、シリンダ連結杆67を伸長し、直管である第2連結管62の始端62aを上流側開口64aに、終端62bを第2下流側開口64cに連通すればよい。   With the above configuration, when the grain a is conveyed by air to the first grain collection unit 4-1, the actuator 63 is driven to contract the cylinder coupling rod 67 as shown in FIG. The start end 61a of the pipe 61 may be communicated with the upstream opening 64a, and the end 61b may be communicated with the first downstream opening 64b. On the other hand, when the grain a is conveyed by air to the second grain collecting unit 4-2, as shown in FIG. 4B, the actuator 63 is driven to extend the cylinder connection rod 67, which is a straight pipe. What is necessary is just to connect the start end 62a of the 2nd connection pipe 62 to the upstream opening 64a, and the terminal end 62b to the 2nd downstream opening 64c.

なお、アクチュエータ63としては、必ずしもシリンダを用いる必要はなく、例えば電気モータなどにギヤなどからなる所定の運動方向変換機構を組み合わせた構成としてもよい。   Note that the actuator 63 does not necessarily have to use a cylinder. For example, a predetermined movement direction conversion mechanism including a gear or the like may be combined with an electric motor or the like.

本実施形態によれば、搬送路切換部6の構成も簡単となり、穀物回収部4−1,4−2にそれぞれ連通した各下流管8−1,8−2の中の一つへの択一的な変更も容易かつ確実に行える。   According to the present embodiment, the configuration of the transport path switching unit 6 is also simplified, and it is selected as one of the downstream pipes 8-1, 8-2 communicating with the grain collection units 4-1, 4-2. A single change can be made easily and reliably.

次に、エア搬送路2の始端部2aの変形例について、図5を参照しながら説明する。   Next, a modified example of the start end 2a of the air conveyance path 2 will be described with reference to FIG.

この例では、エア搬送路2の始端部2aは、横向きに伸延させた外気導入部24と、上方に湾曲状に伸延させた穀物導入部25とに分岐形成し、前記外気導入部24の始端開口26を外気連通口となす一方、前記穀物導入部25の始端開口27’に前記穀物供給部1の穀物供給口13を連通連結した構成となっている。   In this example, the start end 2 a of the air conveyance path 2 is branched into an outside air introduction portion 24 that is extended laterally and a grain introduction portion 25 that is extended upward in a curved shape, and the start end of the outside air introduction portion 24 is formed. While the opening 26 serves as an outside air communication port, the grain supply port 13 of the grain supply unit 1 is connected to the start end opening 27 ′ of the grain introduction unit 25.

かかる構成であっても、エアを圧送する方式の送気装置などに比べて比較的小能力の吸引機構3による吸引によって穀物aをエア搬送することができるので、装置全体をコンパクト化することができ、消費電力などを含め、コスト低減を図ることができる。   Even in such a configuration, the grain a can be air-conveyed by suction by the suction mechanism 3 having a relatively small capacity compared to an air-feeding device or the like that pumps air, so that the entire device can be made compact. And cost reduction including power consumption can be achieved.

また、この構成とした場合、外気連通口となる始端開口26は外気専用の取込口となって、必要量の外気を十分に吸引することができ、同時に穀物供給口13からの自然落下により、穀物aを簡単かつ確実にエア搬送路2内に供給して円滑なエア搬送が行える。   Further, in this configuration, the start end opening 26 serving as an outside air communication port serves as an intake port exclusively for outside air, and can sufficiently suck in a necessary amount of outside air, and at the same time, due to natural fall from the grain supply port 13 The grain a can be easily and reliably supplied into the air conveyance path 2 to perform smooth air conveyance.

また、水平方向に伸延する円筒状の外気導入部24と、上方へ湾曲したこれも円筒状の穀物導入部25とを分岐させる場合、円筒状のエア搬送路2の始端部分を上方湾曲させ、この湾曲部分の下方を切欠するとともに、この切欠部に両端開口とした円筒状の外気導入部24を連結すればよい。あるいは、水平に伸延するエア搬送路2の始端側上部部分を切欠開口し、この開口部内に湾曲させた円筒状の穀物導入部25を嵌装してもよい。   In addition, when branching the cylindrical outside air introduction portion 24 extending in the horizontal direction and the cylindrical grain introduction portion 25 that is curved upward, the starting end portion of the cylindrical air conveyance path 2 is curved upward, What is necessary is just to connect the cylindrical outside air introduction part 24 which made the both ends opening to this notch part while notching the lower part of this curved part. Alternatively, the upper part of the starting end side of the air conveyance path 2 extending horizontally may be cut open, and a curved cylindrical grain introduction part 25 may be fitted into the opening.

また、エア搬送路2内に位置する穀物導入部25の端部からは、エア搬送路2の内部の搬送方向に向かって穀物受板28を適宜長さで伸延させて形成している。   Further, a grain receiving plate 28 is extended from the end of the grain introduction part 25 located in the air conveyance path 2 to an appropriate length in the conveyance direction inside the air conveyance path 2.

すなわち、エア搬送路2の略中心部分に位置する穀物導入部端部25aから、エア搬送路2を上下に仕切るように穀物受板28を延設し、この穀物受板28によって、穀物供給部1から落下する穀物aを一旦受け止めた後にエアにより吸引搬送するようにしている。かかる構成とすることで、大量の穀物aが一度に落下してエア搬送路2内に堆積することがなく、穀物aのエアによる吸引搬送を円滑に行うことができる。   That is, a grain receiving plate 28 is extended from the grain introduction portion end 25a located substantially at the center of the air conveying path 2 so as to partition the air conveying path 2 up and down. The grain a falling from 1 is once received and then sucked and conveyed by air. With such a configuration, a large amount of grain a does not fall at once and accumulates in the air conveyance path 2, and the suction and conveyance of the grain a by air can be performed smoothly.

次に、上述してきた各実施形態におけるエア搬送路2の終端側に設けた回収ガイド9について説明する。   Next, the collection guide 9 provided on the terminal end side of the air conveyance path 2 in each embodiment described above will be described.

図6は回収ガイド9の説明図であり、図示するように、本実施形態に係る回収ガイド9は、穀物aの搬送方向を水平方向から垂直方向に変更する断面視略湾状のガイド壁90と、同ガイド壁90の両端から弧状に延設され、搬送方向に沿って伸延する所定高さを有する一対の側壁91,91とから断面視円弧状の略樋状に形成されている。   FIG. 6 is an explanatory view of the collection guide 9. As shown in the drawing, the collection guide 9 according to the present embodiment has a guide wall 90 having a substantially bay shape in sectional view for changing the conveying direction of the grain a from the horizontal direction to the vertical direction. And a pair of side walls 91, 91 extending in an arc shape from both ends of the guide wall 90 and having a predetermined height extending along the conveying direction, and are formed in a substantially bowl shape in an arc shape in cross section.

かかる回収ガイド9は、円管を湾曲させてその内側部分を切欠する、あるいは円管の内側部分を切欠し、その後湾曲させるという簡単な加工で形成することができる。したがって、ガイド壁90だけでなく、耳状に形成された側壁91,91も備えながらも手間を掛けることなく低コストで作成することができる。また、このように円管を切欠することにより回収ガイド9を作成すれば、ガイド壁90のガイド面と側壁91,91のガイド面とが連続した円弧状のガイド面が形成されるので、側壁91,91でガイドした穀物aを前記ガイド面に沿わせながら自然にガイド壁90側に寄せることができ、より円滑に穀物aをガイドすることができる。なお、ガイド壁90と側壁91,91とは、上述したように互いに連続した円弧状に形成するのみならず、それぞれ平板状に形成することも可能である。   Such a collection guide 9 can be formed by a simple process of bending a circular tube and notching an inner portion thereof, or notching an inner portion of the circular tube and then bending the circular tube. Therefore, not only the guide wall 90 but also the side walls 91 and 91 formed in the shape of ears can be provided at low cost without trouble. Further, if the collection guide 9 is created by cutting out the circular tube in this way, an arcuate guide surface in which the guide surface of the guide wall 90 and the guide surfaces of the side walls 91 and 91 are continuous is formed. Grain a guided by 91 and 91 can be naturally brought close to the guide wall 90 side along the guide surface, and grain a can be guided more smoothly. In addition, the guide wall 90 and the side walls 91 and 91 can be formed not only in a circular arc shape continuous with each other as described above but also in a flat plate shape.

かかる回収ガイド9を設けたことにより、穀物aの搬送経路を略直角に変更可能とし、かつ搬送速度を減速するので、前述してきた分岐吸気管5との協働により、穀物aは緩やかに下降するようになり、穀物aの損傷を防止するとともに、吸引機構3への混入も可及的に防止することができる。   By providing the collection guide 9, the conveyance path of the grain a can be changed to a substantially right angle and the conveyance speed is reduced, so that the grain a slowly descends in cooperation with the branch intake pipe 5 described above. As a result, the grain a can be prevented from being damaged and mixed into the suction mechanism 3 as much as possible.

特に、本実施形態では、回収ガイド9の基端部を、搬送方向に向かって断面積を拡大させた拡大部92としているので、この拡大部92によって穀物aの搬送速度を一旦減速させることができ、この減速後に回収ガイド9に沿って穀物aを縦方向に旋回移動させながらさらに減速するようにしている。したがって、かかる構成からも、回収ガイド9から放出する穀物aが勢い良く受容ホッパー41の内壁面などに衝突して損傷することを効果的に防止することができる。   In particular, in the present embodiment, since the base end portion of the collection guide 9 is an enlarged portion 92 whose cross-sectional area is enlarged in the conveyance direction, the conveyance speed of the grain a can be once reduced by the enlarged portion 92. After the deceleration, the grain a is swung in the longitudinal direction along the collection guide 9 and further decelerated. Therefore, also from such a configuration, it is possible to effectively prevent the grain a discharged from the collection guide 9 from colliding with the inner wall surface of the receiving hopper 41 and damaging it.

なお、本実施形態では、回収ガイド9の基端部だけでなく、同回収ガイド9を連設するエア搬送路2の終端側連結部2dも前記拡大部92と同径となるように断面積を拡大させて、エア搬送路2と回収ガイド9とを緊密な状態で接続可能としている。   In the present embodiment, not only the base end portion of the recovery guide 9 but also the terminal side connection portion 2d of the air conveyance path 2 connecting the recovery guide 9 has the same cross-sectional area as the enlarged portion 92. The air conveyance path 2 and the collection guide 9 can be connected in a tight state.

ところで、本実施形態に係る回収ガイド9は、ガイド壁90の幅が一定で、同ガイド壁90の両端部に連設される側壁91,91も互いに略平行としたが、これに限らず、ガイド壁90の幅を搬送方向に向かって漸次広げ、両側壁91,91が搬送方向に向かって次第に離れる構造としたり、逆に、ガイド壁90の幅を搬送方向に向かって狭めていって、両側壁91,91が搬送方向に向かって次第に近づく構造としたりすることもできる。例えば、ガイド壁90の基端部の断面積を搬送方向へ向けて拡大すると、この拡大部で穀物aの搬送速度をさらに減速させて回収ガイド9から放出させることができるので、穀物aの損傷をより効果的に防止することが可能となる。   By the way, the collection guide 9 according to the present embodiment has a constant width of the guide wall 90 and the side walls 91 and 91 connected to both ends of the guide wall 90 are also substantially parallel to each other. The width of the guide wall 90 is gradually widened in the transport direction, and the side walls 91 and 91 are gradually separated in the transport direction, or conversely, the width of the guide wall 90 is narrowed in the transport direction, It is also possible to adopt a structure in which the side walls 91, 91 gradually approach toward the transport direction. For example, when the cross-sectional area of the base end portion of the guide wall 90 is enlarged in the conveyance direction, the conveyance speed of the grain a can be further reduced by the enlarged part and discharged from the collection guide 9, so that the damage of the grain a Can be more effectively prevented.

以上、各実施形態を通して本発明を説明してきたが、本発明は実施形態に限定されるものではなく、特許請求の範囲の主旨を逸脱することのない限り、各構成要素の形状や装置のレイアウトなどは適宜変更することもできる。   As described above, the present invention has been described through each embodiment. However, the present invention is not limited to the embodiment, and the shape of each component and the layout of the apparatus are within the scope of the claims. These may be changed as appropriate.

第1の実施形態に係る穀物吸引搬送装置を示す模式的な全体説明図である。It is a typical whole explanatory view showing the grain suction conveyance device concerning a 1st embodiment. エア搬送路の始端部を示す説明図である。It is explanatory drawing which shows the start end part of an air conveyance path. 他の実施形態に係る穀物吸引搬送装置を示す説明図である。It is explanatory drawing which shows the grain suction conveyance apparatus which concerns on other embodiment. 搬送路切換部の断面視による説明図である。It is explanatory drawing by the cross sectional view of a conveyance path switching part. エア搬送路の始端部の変形例を示す説明図である。It is explanatory drawing which shows the modification of the start end part of an air conveyance path. 回収ガイドの説明図である。It is explanatory drawing of a collection guide.

符号の説明Explanation of symbols

A 穀物吸引搬送装置
a 穀物
1 穀物供給部
2 エア搬送路
2a 始端部
2b 終端部
3 吸引機構
4 穀物回収部
5 分岐吸気管
6 搬送路切換部
7 上流管
8 下流管
8−1 第1下流管
8−2 第2下流管
9 回収ガイド
13 穀物供給口
61 第1連結管
62 第2連結管
A Grain suction conveyance device a Grain 1 Grain supply part 2 Air conveyance path 2a Start end part 2b Termination part 3 Suction mechanism 4 Grain recovery part 5 Branch intake pipe 6 Conveyance path switching part 7 Upstream pipe 8 Downstream pipe 8-1 First downstream pipe 8-2 Second downstream pipe 9 Collection guide 13 Grain supply port 61 First connection pipe 62 Second connection pipe

Claims (5)

搬送物となる穀物を収容する穀物供給部と、
同穀物供給部から供給された穀物をエア搬送するエア搬送路と、
同エア搬送路からエア搬送された穀物を受けて回収する穀物回収部と、
前記エア搬送路の終端部を連通した前記穀物回収部に連通連結し、吸気により前記エア搬送路内に気流を生じさせる吸引機構と、
前記エア搬送路の中途から分岐して前記穀物回収部に終端を連通連結した分岐吸気管と、を備え、
前記分岐吸気管を、前記エア搬送路に対し、一旦、穀物の搬送方向とは逆向きで、かつ前記エア搬送路から上方に向けて分岐させた
ことを特徴とする穀物吸引搬送装置。
A grain supply unit for storing grains to be conveyed;
An air conveyance path for pneumatically conveying the grains supplied from the grain supply unit;
A grain collection unit that receives and collects the grains conveyed by air from the air conveyance path;
A suction mechanism that is connected in communication with the grain recovery unit that communicates the terminal portion of the air conveyance path, and generates an air flow in the air conveyance path by suction;
E Bei and a branch intake pipe communicatively connected to termination on the grain collecting portion branched from the middle of the air conveying path,
A grain suction / conveying apparatus , wherein the branch intake pipe is once branched with respect to the air conveyance path in a direction opposite to a grain conveyance direction and upward from the air conveyance path .
前記エア搬送路の始端部を上向きに湾曲状に折曲形成し、上方に向けて開口した始端開口を外気連通口となすとともに、当該外気連通口に前記穀物供給部の穀物供給口が臨むように穀物供給部を配設したことを特徴とする請求項に記載の穀物吸引搬送装置。 The start end portion of the air conveyance path is bent upward in a curved shape, and the start end opening opened upward serves as an outside air communication port, and the grain supply port of the grain supply unit faces the outside air communication port. grain suction conveying device according to claim 1, characterized in that disposed grain supply portion. 前記外気連通口を前記穀物供給口よりも大口径とし、前記穀物供給口と前記外気連通口との間を所定距離だけ離隔させたことを特徴とする請求項に記載の穀物吸引搬送装置。 The grain suction / conveying device according to claim 2 , wherein the outside air communication port has a larger diameter than the grain supply port, and the grain supply port and the outside air communication port are separated by a predetermined distance. 前記エア搬送路の始端部を、横向きに伸延させた外気導入部と、上方に湾曲状に伸延させた穀物導入部とに分岐形成し、前記外気導入部の始端開口を外気連通口となす一方、前記穀物導入部の始端開口に前記穀物供給部の穀物供給口を連通連結したことを特徴とする請求項に記載の穀物吸引搬送装置。 One of the start end portion of the air conveyance path is branched and formed into an outside air introduction portion extended laterally and a grain introduction portion extended upward in a curved shape, and the start end opening of the outside air introduction portion serves as an outside air communication port , grain suction conveying device according to claim 1, characterized in that communicatively connected grain supply port of the grain supply portion to start opening of the grain introduction. 前記エア搬送路は、
前記穀物供給部に始端を臨ませた単一の上流管と、
複数の穀物回収部にそれぞれ終端を連通連結し、かつ前記分岐吸気管をそれぞれ設けた複数の下流管と、
前記上流管と前記複数の下流管の中の一とを択一的に連通連結する搬送路切換部と、
を備え
前記搬送路切換部は、
多段に配設した連結管群と、
この連結管群の中の一の連結管が始端を前記上流管に、終端を前記複数の下流管の一に連通するように、前記連結管群の位置を平行移動させるアクチュエータと、
を備える
ことを特徴とする請求項1〜のいずれか1項に記載の穀物吸引搬送装置。
The air conveyance path is
A single upstream pipe facing the grain supply section;
A plurality of downstream pipes each having a terminal end connected to a plurality of grain collecting sections and provided with the branch intake pipes;
A transfer path switching unit that selectively connects the upstream pipe and one of the plurality of downstream pipes,
Equipped with a,
The transport path switching unit is
A group of connecting pipes arranged in multiple stages;
An actuator that translates the position of the connection pipe group so that one connection pipe in the connection pipe group communicates with the upstream pipe at the start end and one of the plurality of downstream pipes at the end;
Grain suction conveying device according to any one of claims 1 to 4, characterized in that it comprises.
JP2005360351A 2005-12-14 2005-12-14 Grain suction transfer device Expired - Fee Related JP4327793B2 (en)

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JP5030161B2 (en) * 2008-03-05 2012-09-19 精研工業株式会社 Conveying apparatus and conveying method
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KR101504944B1 (en) * 2014-11-07 2015-03-23 주식회사 미앤미 Grain transfor device using air
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JP6887670B2 (en) * 2017-05-10 2021-06-16 株式会社タイワ精機 Route switching device and pneumatic transfer device
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