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JP6278441B2 - Grain suction transfer device - Google Patents
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JP6278441B2 - Grain suction transfer device - Google Patents

Grain suction transfer device Download PDF

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JP6278441B2
JP6278441B2 JP2013212018A JP2013212018A JP6278441B2 JP 6278441 B2 JP6278441 B2 JP 6278441B2 JP 2013212018 A JP2013212018 A JP 2013212018A JP 2013212018 A JP2013212018 A JP 2013212018A JP 6278441 B2 JP6278441 B2 JP 6278441B2
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grain
air
receiving hopper
suction
conveyed
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白水 浩
浩 白水
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福岡精米機器株式会社
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Description

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

穀物を搬送する装置として、穀物吸引搬送装置が一般的に使用されている。穀物吸引搬送装置は、貯留した穀物を搬送物として供給する搬送物供給部と、供給された穀物を気流と共に通過させてエア搬送するエア搬送路と、このエア搬送路内に、気流を吸気により生じさせる吸引機構と、エア搬送路を通ってエア搬送された搬送物を受ける搬送物受部とから構成されている(例えば、特許文献1参照。)。
穀物吸引搬送装置において搬送される穀物は、搬送物供給部からエア搬送路の始端部に供給されて、吸気とともにエア搬送路を通過して搬送物受部にエア搬送されている。
As a device for conveying grain, a grain suction conveying device is generally used. The grain suction conveyance device includes a conveyed product supply unit that supplies stored grains as a conveyed product, an air conveyance path that conveys the supplied grain together with an air current and conveys the air, and an air current that is sucked into the air conveyance path. It is comprised from the suction mechanism to produce and the conveyed product receiving part which receives the conveyed product conveyed by air through the air conveyance path (for example, refer patent document 1).
Grain conveyed in the grain suction conveyance device is supplied from the conveyed product supply unit to the start end of the air conveyance path, passes through the air conveyance path together with the intake air, and is conveyed by air to the conveyance object receiving unit.

特開2007−160228号公報JP 2007-160228 A

ところで、穀物吸引搬送装置では、搬送物としての穀物が搬送物供給部からエア搬送路を通過してエア搬送路の終端部より搬送物受部内に流入するが、エア搬送路の終端部より搬送物受部内に流入する際に、エア搬送路の終端部からエア搬送された穀物が搬送物受部の内壁に衝突して、損傷してしまうおそれがあった。   By the way, in the grain suction conveyance device, the grain as the conveyed product passes through the air conveyance path from the conveyance object supply unit and flows into the conveyance object receiving unit from the terminal part of the air conveyance path, but is conveyed from the terminal part of the air conveyance path. When flowing into the object receiving part, the grains air-transferred from the end part of the air conveying path may collide with the inner wall of the conveyed object receiving part and be damaged.

本発明は、斯かる事情に鑑みてなされたものであって、搬送中に生じる穀物の損傷を防ぐことができる穀物吸引搬送装置を提供することを目的とする。   This invention is made | formed in view of such a situation, Comprising: It aims at providing the grain suction conveyance apparatus which can prevent the damage of the grain which arises during conveyance.

上記従来の課題を解決するために、請求項1に記載の本発明は、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管路と、 同エア搬送管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、前記エア搬送管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管路内に吸引気流を生じさせる吸引機構と、を備えた穀物吸引搬送装置において、前記エア搬送路の終端部を湾曲し、穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、同受容ホッパー下部の傾斜壁には、気流を乱すための気流抵抗部としての突出した突起部を設けたこととした。 In order to solve the above-described conventional problems, the present invention according to claim 1 includes a grain supply unit that stores grains to be conveyed, and an air conveyance conduit that air-transports the grains supplied from the grain supply unit. A cereal collection unit that receives and collects the cereal conveyed by air from the air conveyance line, and a cereal collection unit that communicates the terminal part of the air conveyance line, and the air conveyance line by intake air And a suction mechanism for generating a suction air flow in the grain suction transport device, wherein the end portion of the air transport path is curved, and the grain recovery section has a receiving hopper having a cylindrical shape at the top and a funnel shape at the bottom. The receiving hopper has an inclined wall formed as an inner wall by inclining a lower portion from a portion communicating with the air conveyance pipe toward the rotary valve, while a cylindrical upper portion of the receiving hopper is a vertical inner wall. Forming a peripheral wall The inclined wall below the receiving hopper is provided with a protruding protrusion as an airflow resistance for disturbing the airflow .

また、請求項2に記載の本発明は、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管路と、同エア搬送管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、前記エア搬送管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管路内に吸引気流を生じさせる吸引機構と、を備えた穀物吸引搬送装置において、前記エア搬送管路の終端部を湾曲し、穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、
同受容ホッパー下部の傾斜壁を窪ませて、気流を乱すための気流抵抗部としての窪み部を設けたこととした。
Further, the present invention according to claim 2 is a grain supply unit that stores grains to be conveyed, an air conveyance line that air-conveys the grains supplied from the grain supply unit, and the air conveyance line. A suction unit that receives and collects air-carrying grains and a grain collecting unit that communicates a terminal part of the air conveying pipe and a grain collecting part that communicates with the grain collecting part, and generates a suction air flow in the air conveying pipe by intake air. A cereal suction conveyance device comprising a mechanism, wherein the end portion of the air conveyance conduit is curved, the cereal collection unit is provided with a receiving hopper having a cylindrical shape at the top and a funnel shape at the bottom, the receiving hopper As the inner wall, the lower part is inclined toward the rotary valve from the point communicating with the air conveying pipeline to form the inclined wall, while the cylindrical upper part of the receiving hopper forms a vertical inner peripheral wall,
The inclined wall at the bottom of the receiving hopper is recessed to provide a recess as an airflow resistance for disturbing the airflow.

また、請求項3に記載の本発明は、請求項1又は請求項2に記載の穀物吸引搬送装置において、終端部は、湾曲した構造の湾曲体を有し、終端部の湾曲体を曲率半径Rとし、筒状の受容ホッパーを半径rとした場合には次の式のような関係となることを特徴とする。
式 1.2×r<R< 6×r
Further, according to a third aspect of the present invention, in the grain suction conveyance device according to the first or second aspect, the terminal portion has a curved body having a curved structure, and the curved body of the terminal portion has a radius of curvature. In the case where R is a cylindrical receiving hopper and the radius is r, the following relationship is obtained.
Formula 1.2 × r <R <6 × r

請求項1にかかる発明の穀物吸引搬送装置によれば、前記エア搬送路の終端部を湾曲した構造とすることにより、吸引気流により吸引させながら穀物が湾曲したエア搬送路の終端部を通過する際に、穀物回収部内の渦巻き流の影響を受けて、終端部の外周壁に沿って流入するため、穀物の搬送中に生じる欠けを防ぐ効果がある。また、穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、同受容ホッパー下部の傾斜壁には、気流を乱すための気流抵抗部としての突出した突起部を設けたので、回転落下してくる穀物を遮り、穀物取出口にスムーズに排出できる効果がある。
請求項2にかかる発明の穀物吸引搬送装置によれば、前記エア搬送路の終端部を湾曲した構造とすることにより、吸引気流により吸引させながら穀物が湾曲したエア搬送路の終端部を通過する際に、穀物回収部内の渦巻き流の影響を受けて、終端部の外周壁に沿って流入するため、穀物の搬送中に生じる欠けを防ぐ効果がある。また、前記エア搬送管路の終端部を湾曲し、穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、同受容ホッパー下部の傾斜壁を窪ませて、気流を乱すための気流抵抗部としての窪み部を設けたので、回転落下してくる穀物を遮り、穀物取出口にスムーズに排出できる効果がある。
According to the grain suction / conveying device of the first aspect of the present invention, the end portion of the air conveyance path has a curved structure, so that the grain passes through the end portion of the curved air conveyance path while being sucked by the suction airflow. At this time, since it flows along the outer peripheral wall of the terminal portion under the influence of the swirl flow in the grain recovery unit, there is an effect of preventing chipping that occurs during the conveyance of the grain. The grain recovery unit has a receiving hopper having a cylindrical shape at the top and a funnel shape at the bottom, and the receiving hopper has an inner wall inclined downward from the portion communicating with the air conveyance conduit toward the rotary valve. The cylindrical upper part of the receiving hopper forms a vertical inner peripheral wall, and the protruding protrusion as an airflow resistance part for disturbing the airflow is formed on the inclined wall below the receiving hopper. Since it has been provided, it has the effect of blocking the rotating and falling grain, and can be smoothly discharged to the grain outlet.
According to the grain suction / conveying device of the invention according to claim 2, by making the terminal part of the air conveying path curved, the grain passes through the terminal part of the curved air conveying path while being sucked by the suction airflow. At this time, since it flows along the outer peripheral wall of the terminal portion under the influence of the swirl flow in the grain recovery unit, there is an effect of preventing chipping that occurs during the conveyance of the grain. Further, the end portion of the air conveyance pipe line is curved, the grain recovery part is provided with a receiving hopper whose upper part has a cylindrical shape and whose lower part has a funnel shape, and the receiving hopper communicates with the air conveying pipe line as an inner wall. The lower part of the receiving hopper is inclined toward the rotary valve to form an inclined wall, while the cylindrical upper part of the receiving hopper forms a vertical inner peripheral wall, and the inclined wall under the receiving hopper is recessed, Since the hollow portion as the airflow resistance portion for disturbing the airflow is provided, there is an effect that the falling and falling grain is blocked and can be smoothly discharged to the grain outlet.

本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 this embodiment. 穀物回収部を示す模式的な断面図である。It is typical sectional drawing which shows a grain collection | recovery part. 受容ホッパー内を搬送される穀物の状態を示す説明図である。It is explanatory drawing which shows the state of the grain conveyed in the inside of a receiving hopper. 受容ホッパーを示す斜視図である。It is a perspective view which shows a receiving hopper. 受容ホッパー下部を搬送される穀物の状態を示す説明図である。It is explanatory drawing which shows the state of the grain conveyed below the receiving hopper. 穀物回収部の変形例を示す全体説明図である。It is whole explanatory drawing which shows the modification of a grain collection | recovery part. 突起部の取り付け方法の変形例を示す全体説明図である。It is whole explanatory drawing which shows the modification of the attachment method of a projection part. 図7に示す突起部の要部を示す説明図である。It is explanatory drawing which shows the principal part of the projection part shown in FIG. 穀物回収部の変形例を示す全体説明図である。It is whole explanatory drawing which shows the modification of a grain collection | recovery part.

本発明に係る穀物吸引搬送装置は、穀物供給部と、エア搬送管路と、穀物回収部と、吸引機構と、を備え、エア搬送路の終端部を湾曲した構造としている。   The grain suction conveyance device according to the present invention includes a grain supply unit, an air conveyance pipe line, a grain collection unit, and a suction mechanism, and has a curved end structure of the air conveyance path.

各構成は、次の通りである。穀物供給部は、搬送物となる穀物を収容するものである。エア搬送管路は、同穀物供給部から供給された穀物をエア搬送する搬送路である。穀物回収部は、同エア搬送管路からエア搬送された穀物を受けて回収するものである。吸引機構は、エア搬送管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管路内に吸引気流を生じさせるものである。   Each configuration is as follows. The grain supply unit stores grains to be conveyed. The air conveyance pipe line is a conveyance path for conveying the grains supplied from the grain supply unit by air. The grain collection unit receives and collects the grain that has been conveyed by air from the air conveyance line. The suction mechanism is connected in communication with the grain recovery unit that communicates the terminal portion of the air conveyance pipe, and generates a suction air flow in the air conveyance pipe by intake air.

かかる構成とすることにより、エア搬送される穀物は、湾曲した終端部を通過する際に、遠心力を受けて、エア搬送され、穀物回収部内に搬送される。このように穀物が湾曲した終端部を通過するときに遠心力を受けたまま、穀物回収部の内壁に沿いつつ旋回しながらエア搬送されるため、従来のような穀物回収部に衝突したときに生じる穀物の欠けを防止する効果がある。   By adopting such a configuration, when the grain conveyed by air is subjected to a centrifugal force when passing through the curved terminal portion, it is conveyed by air and conveyed into the grain recovery unit. In this way, when the grain collides with the conventional grain collection unit, it is conveyed while being swung along the inner wall of the grain collection unit while receiving the centrifugal force when passing through the curved terminal part. It has the effect of preventing crop loss.

また、穀物回収部には、気流を乱すための気流抵抗部を設けたことを特徴とする。
気流抵抗部は、穀物回収部の内壁に突出した突起部であり、或いは、穀物回収部の内壁に窪んだ窪み部である。
The grain recovery unit is provided with an airflow resistance unit for disturbing the airflow.
The airflow resistance portion is a protrusion that protrudes from the inner wall of the grain recovery portion, or a hollow portion that is recessed in the inner wall of the grain recovery portion.

穀物回収部に気流抵抗部を設けることにより、湾曲終端部から穀物回収部内にエア搬送された穀物は、螺旋状に旋回しながら降下すると、突起部或いは窪み部により旋回を阻害されて一気に突起部或いは窪み部に沿って、穀物取出口に降下することとなり、従来より損傷した穀物を減少させる効果がある。   By providing the airflow resistance part in the grain recovery part, when the grain conveyed by air from the curved end part to the grain recovery part descends while spirally turning, the protrusion is blocked at a stretch by the protrusion part or the depression part. Or it will descend | fall to a grain taking-out exit along a hollow part, and there exists an effect which reduces the grain damaged conventionally.

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。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る。   Hereinafter, specific embodiments of the grain suction and conveyance device according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic overall explanatory view showing a grain suction conveyance device A according to the present embodiment.

図1に示すように、穀物吸引搬送装置Aは、搬送物となる穀物を収容する穀物供給部1と、同穀物供給部1から供給された米などの穀物aをエア搬送するエア搬送管路2と、エア搬送管路2からエア搬送された穀物aを受けて回収する穀物回収部3と、エア搬送管路2の終端部を連通した穀物回収部3に連通連結し、エア搬送管路2内に吸引気流を生じさせる吸引機構4を備えている。   As shown in FIG. 1, the grain suction conveyance device A includes a grain supply unit 1 that stores grains to be conveyed, and an air conveyance line that conveys grains a such as rice supplied from the grain supply unit 1 by air. 2, a grain collecting unit 3 that receives and collects the grain a conveyed by air from the air conveying pipe 2, and a grain collecting part 3 that communicates with the terminal part of the air conveying pipe 2. A suction mechanism 4 for generating a suction airflow is provided in the interior 2.

穀物供給部1は、収容した穀物aをエア搬送管路2に供給するホッパー部11を備えており、このホッパー部11の下部は漏斗状に形成されている。かかる漏斗状底部の中央には、穀物供給口12を有する短尺の穀物供給筒13を下方に向けて突設している。   The grain supply unit 1 includes a hopper unit 11 that supplies the stored grain a to the air conveyance pipe 2, and a lower part of the hopper unit 11 is formed in a funnel shape. At the center of the funnel-shaped bottom, a short grain supply cylinder 13 having a grain supply port 12 is provided so as to protrude downward.

穀物供給筒13には、スライド自在な平板をシャッター本体としたシャッター14を開閉自在に取り付けており、このシャッター14のスライド量によって穀物供給口12の開口幅を調整し、穀物aのエア搬送管路2への時間当たりの供給量を調整可能としている。なお、本実施形態では、シャッター14の構造を手動式としているが、例えば、モータなどの駆動手段を備え、自動的にバルブの開口量を調整するような構造であってもよい。また、シャッター本体には必ずしも平板を用いる必要もなく、シャッター14の構造は何ら限定されるものではない。   A shutter 14 having a slidable flat plate as a shutter body is detachably attached to the grain supply tube 13, and the opening width of the grain supply port 12 is adjusted according to the sliding amount of the shutter 14, and the grain a air transport pipe The supply amount per hour to the road 2 can be adjusted. In the present embodiment, the structure of the shutter 14 is a manual type. However, for example, a structure that includes a driving unit such as a motor and automatically adjusts the opening amount of the valve may be used. Further, it is not always necessary to use a flat plate for the shutter body, and the structure of the shutter 14 is not limited at all.

エア搬送管路2は、穀物供給筒13に接続した始端部2a側から終端部2bに向って略L字形状に形成される。具体的には、エア搬送管路2は、始端部2aから垂直方向に延伸した縦置部2dと、略直角に湾曲した略L字状湾曲部分2cと、同湾曲部分2cから終端部2b部まで水平方向に延伸した横置部2eとを備えている。そして、図2に示すように、終端部2bには、湾曲した構造の湾曲体を有している。図中符号2fは穀物の供給口である。   The air conveyance pipe line 2 is formed in a substantially L shape from the start end part 2a connected to the grain supply cylinder 13 toward the end part 2b. Specifically, the air conveyance pipe line 2 includes a vertically placed portion 2d extending in a vertical direction from the start end portion 2a, a substantially L-shaped curved portion 2c curved substantially at right angles, and a terminal portion 2b portion from the curved portion 2c. And a horizontal portion 2e extending in the horizontal direction. As shown in FIG. 2, the end portion 2b has a curved body having a curved structure. Reference numeral 2f in the figure is a grain supply port.

図2に示す終端部2bの湾曲体を曲率半径Rとし、筒状の受容ホッパー40を半径rとした場合には次の式のような関係となる。
1.2×r<R< 6×r
1.2×r>Rの場合には、終端部2bの湾曲体の曲率半径が小さいため穀物の損傷を十分に減らすことができない。
R> 6×rの場合には、終端部2bの湾曲体の曲率半径が大きいため、穀物の損傷を十分に減らすことができない。
When the curved body of the terminal end portion 2b shown in FIG. 2 is a radius of curvature R and the cylindrical receiving hopper 40 is a radius r, the following relationship is established.
1.2 × r <R <6 × r
In the case of 1.2 × r> R, since the radius of curvature of the curved body of the end portion 2b is small, grain damage cannot be reduced sufficiently.
In the case of R> 6 × r, since the curvature radius of the curved body of the terminal end portion 2b is large, damage to the grains cannot be reduced sufficiently.

エア搬送管路2の終端部2bの湾曲体は、穀物回収部3の筒状の受容ホッパー40上部の側壁41に連通連結されている。   The curved body of the terminal end portion 2 b of the air conveyance pipe line 2 is connected to the side wall 41 of the upper part of the cylindrical receiving hopper 40 of the grain collection unit 3.

エア搬送される穀物aは、水平方向に湾曲した終端部2bの湾曲体を通過する際に、遠心力を受けて、湾曲終端部2bの外周側の内壁2gに沿って、エア搬送され、受容ホッパー40内に搬送される。このように穀物aが湾曲した終端部2bの湾曲体を通過するときに遠心力を受けたまま、受容ホッパー40内壁に沿いつつ旋回しながらエア搬送されるため、従来のように受容ホッパー40内の内周壁46に衝突したときに生じる穀物の損傷を防止する効果がある。   Grain a to be pneumatically conveyed undergoes centrifugal force when passing through the curved body of the terminal portion 2b curved in the horizontal direction, and is conveyed along the inner wall 2g on the outer peripheral side of the curved terminal portion 2b. It is conveyed into the hopper 40. Thus, since the grain a passes through the curved body of the terminal end portion 2b and is subjected to centrifugal force while being swung along the inner wall of the receiving hopper 40, it is conveyed by air as in the conventional case. This has the effect of preventing grain damage that occurs when the inner wall 46 collides with the inner peripheral wall 46.

穀物回収部3は、エア搬送管路2の終端部2bの湾曲体と連通連設した受容ホッパー40を備えている。   The grain collection unit 3 includes a receiving hopper 40 that is in communication with the curved body of the terminal end 2 b of the air conveyance pipe 2.

受容ホッパー40は、上部を筒形状とし、下部を漏斗形状とした構造としている。   The receiving hopper 40 has a structure in which the upper part has a cylindrical shape and the lower part has a funnel shape.

また、前記受容ホッパー40には、内壁として、エア搬送管路2と連通する箇所から下方部分を前記ロータリーバルブ43に向けて傾斜させて傾斜壁45を形成する一方、この受容ホッパー40の筒状の上部は垂直な内周壁46を形成している。   In addition, the receiving hopper 40 is formed with an inclined wall 45 by inclining a lower portion toward the rotary valve 43 from a portion communicating with the air conveyance pipe line 2 as an inner wall, while the receiving hopper 40 has a cylindrical shape. The upper part forms a vertical inner peripheral wall 46.

図3及び図4に示すように、受容ホッパー40下部の傾斜壁45には、気流を乱すための気流抵抗部としての突出した突起部47を配設している。   As shown in FIGS. 3 and 4, the inclined wall 45 below the receiving hopper 40 is provided with a protruding projection 47 as an airflow resistance portion for disturbing the airflow.

突起部47は、傾斜壁45に傾斜方向に沿って溶接して取り付けている。突起部47の長さは、傾斜壁45の始端45sから終端45eへ延伸した長さとしている。   The protrusion 47 is attached to the inclined wall 45 by welding along the inclined direction. The length of the protrusion 47 is a length that extends from the start end 45s of the inclined wall 45 to the end end 45e.

なお、突起部47は、傾斜壁45の始端45sから終端45eまでの間に設ければよく、気流を乱すことができれば、突起部47の長さは、傾斜壁45の始端45sから終端45eまで長さより短くてもよい。
また、受容ホッパー40内の穀物の供給口2fは、図2に示すように、2時の方角に開口しており、下方の突起部47は角度約240回転した9時の方角に取り付けている。供給口2fから螺旋状に落下する穀物aが数回転して突起部47に回転を遮られて穀物取出口42に排出されることとなる。すなわち、2時の方角に供給口2fとし、9時の方角に突起部47を設けることで、回転落下してくる穀物aを遮り、穀物取出口42にスムーズに排出できる効果がある。
The protrusion 47 may be provided between the starting end 45s and the end 45e of the inclined wall 45. If the airflow can be disturbed, the length of the protrusion 47 is from the starting end 45s to the end 45e of the inclined wall 45. It may be shorter than the length.
Further, as shown in FIG. 2, the grain supply port 2f in the receiving hopper 40 opens in the direction of 2 o'clock, and the lower protrusion 47 is attached in the direction of 9 o'clock rotated about 240 degrees. Yes. Grain a falling in a spiral form from the supply port 2f is rotated several times, blocked by the protrusion 47, and discharged to the grain outlet 42. That is, by providing the supply port 2f in the direction of 2 o'clock and providing the protrusion 47 in the direction of 9 o'clock, there is an effect that the rotating and dropping grain a is blocked and can be smoothly discharged to the grain outlet 42.

突起部47の高さは、旋回する穀物aを阻害して、穀物取出口42にスムーズに降下させ、残粒が残らないようにすることができればよく、穀物の種類や流量により変わり、一例としては、1cm〜 6cm程度である。   The height of the protrusion 47 is only required to inhibit the swirling grain a and smoothly descend to the grain outlet 42 so that no residual grains remain. Is about 1 cm to 6 cm.

本実施形態の穀物吸引搬送装置では、図3及び図5に示すように、受容ホッパー40の下部の傾斜壁45に突起部47を設ける構成とすることで、湾曲終端部2bからエア搬送された穀物aが螺旋状に旋回しながら降下して、さらに、穀物aが傾斜壁45に到達すると突起部47により旋回を阻害されて一気に突起部47に沿って、穀物取出口42に降下することとなり、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。   In the grain suction conveyance device of the present embodiment, as shown in FIGS. 3 and 5, the protrusion 47 is provided on the inclined wall 45 at the lower portion of the receiving hopper 40, so that the air is conveyed from the curved terminal portion 2 b. Grain a descends while turning spirally, and further, when grain a reaches the inclined wall 45, the protrusion 47 impedes the turning and falls down to the grain outlet 42 along the protrusion 47 at once. It becomes possible to prevent the grain a from being damaged more effectively.

図1に示すように、当該受容ホッパー40から外部への穀物取出口42を設け、この穀物取出口42のさらに下方位置にロータリーバルブ43を配設している。受容ホッパー40の上端をなす天井部44には、排気管31を突設し、さらにこの排気管31に吸気ダクト32を介して吸引機構5を連通連結している。 As shown in FIG. 1, a grain outlet 42 is provided from the receiving hopper 40 to the outside, and a rotary valve 43 is disposed further below the grain outlet 42. An exhaust pipe 31 is projected from a ceiling 44 that forms the upper end of the receiving hopper 40, and the suction mechanism 5 is connected to the exhaust pipe 31 through an intake duct 32.

吸引機構4は、エア搬送管路2や受容ホッパー40の内部の空気を吸引する。このエア吸引力により、穀物供給部1から穀物aがエア搬送管路2内を搬送され、受容ホッパー40に搬送される。33は排気管31と連通する排気口である。   The suction mechanism 4 sucks air inside the air conveyance pipe line 2 and the receiving hopper 40. With this air suction force, the grain a is transported from the grain supply unit 1 through the air transport pipe 2 and is transported to the receiving hopper 40. An exhaust port 33 communicates with the exhaust pipe 31.

なお、受容ホッパー40の内部におけるエア搬送管路2の連通個所より上方には、図示しない穀物流出防止フィルタを設け、排気口33から搬送物aが流出するのを防止するようにしてもよい。   Note that a grain outflow prevention filter (not shown) may be provided above the communicating portion of the air conveyance pipe line 2 inside the receiving hopper 40 to prevent the conveyed product a from flowing out from the exhaust port 33.

[気流抵抗部の変形例]
図6に示した受容ホッパー41の下部の傾斜壁45には、気流を乱すための気流抵抗部としての突出した突起部47としたが、傾斜壁45を窪まして窪み部48としてもよい。窪み部48は、傾斜壁45の始端45sから終端45eまで楕円状に窪みを形成することで、穀物aを搬送する気流を乱すことができる。
[Modification of airflow resistance section]
In the inclined wall 45 at the lower part of the receiving hopper 41 shown in FIG. 6, a protruding protrusion 47 as an airflow resistance part for disturbing the airflow is formed. However, the inclined wall 45 may be recessed to form a recessed part 48. The depression 48 can disturb the air flow that conveys the grain a by forming an oval depression from the start end 45s to the end 45e of the inclined wall 45.

このように受容ホッパー41の下部の傾斜壁45に窪み部48を設けることで、湾曲終端部2bからエア搬送された穀物aは、螺旋状に旋回しながら降下して、さらに、穀物aは傾斜壁45に到達すると窪み部48により旋回を阻害されて一気に窪み部48に沿って、穀物取出口42に降下することとなり、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 providing the depression 48 in the inclined wall 45 at the lower part of the receiving hopper 41 in this way, the grain a that is air-conveyed from the curved terminal part 2b descends while spirally turning, and further the grain a is inclined. When the wall 45 is reached, the swirl is inhibited by the hollow portion 48 and is lowered along the hollow portion 48 to the grain outlet 42, so that damage to the grain a can be more effectively prevented.

なお、このように受容ホッパー41の下部の傾斜壁45に突起部47或いは窪み部48を1つ設けたが、複数設けるようにしてもよい。気流抵抗部を複数設けることにより、より受容ホッパー40下部の気流を乱すことができ、エア搬送される穀物の損傷を防止することが可能となる。 In this manner, one protrusion 47 or one recess 48 is provided on the inclined wall 45 below the receiving hopper 41, but a plurality of protrusions 47 or recesses 48 may be provided. By providing a plurality of airflow resistance portions, the airflow at the lower part of the receiving hopper 40 can be more disturbed, and it becomes possible to prevent damage to the grains conveyed by air.

[突起部の取り付け方法の変形例]
図7に示すように、L字形状の突起部57には、取付用ステー58が連結している。突起部57は、内周壁46に当接する板状の縦部57aと傾斜壁45に当接する横部57bとからなる。縦部57aの長さL2は、例えば1cmから5cmとしている。横部57bの長さL1は、傾斜壁45の始端45sから終端45eまでの間の長さであればよく、穀物aの重さに応じて図7に示すように、短い長さとしてもよい。
[Modified example of protrusion mounting method]
As shown in FIG. 7, an attachment stay 58 is connected to the L-shaped protrusion 57. The protruding portion 57 includes a plate-like vertical portion 57 a that abuts on the inner peripheral wall 46 and a lateral portion 57 b that abuts on the inclined wall 45. The length L2 of the vertical portion 57a is, for example, 1 cm to 5 cm. The length L1 of the horizontal portion 57b may be a length from the start end 45s to the end end 45e of the inclined wall 45, and may be a short length as shown in FIG. 7 according to the weight of the grain a. .

受容ホッパー40内に取付用ステー58基端を内周壁46に取り付けて、L字形状の突起部57が傾斜壁45と内周壁46とに当接している。   The base end of the mounting stay 58 is attached to the inner peripheral wall 46 in the receiving hopper 40, and an L-shaped projection 57 is in contact with the inclined wall 45 and the inner peripheral wall 46.

かかる構成とすることにより突起部57を溶接することなく、受容ホッパー40内に短時間で容易に取り付けることができる。また、メンテナンスを行う際には、取付用ステー58を取り外して、突起部57に付着した付着物を掃除し易い効果がある。 By adopting such a configuration, the projection 57 can be easily mounted in the receiving hopper 40 in a short time without welding. Further, when performing maintenance, there is an effect that the attachment stay 58 is removed and the deposits attached to the protrusions 57 can be easily cleaned.

なお、突起部57の横部57bは傾斜壁45に対して垂直に取り付けるのではなく、例えば、図8に示すように横部57bと傾斜壁45とがなす角度θが例えば80度となるように取り付けている。   Note that the lateral portion 57b of the projection 57 is not attached perpendicularly to the inclined wall 45. For example, as shown in FIG. 8, the angle θ between the lateral portion 57b and the inclined wall 45 is, for example, 80 degrees. It is attached to.

なお、図9に示すように、湾曲終端部2bは、受容ホッパー40に対して、水平方向から取り付ける必要はなく、傾斜角αをなすように取り付けてもよい。湾曲終端部2b内の穀物aは、遠心力を受けつつさらに、傾斜による落下の重力エネルギーを受けて受容ホッパー40内に供給されることとなる。   In addition, as shown in FIG. 9, the curved terminal portion 2b does not need to be attached to the receiving hopper 40 from the horizontal direction, and may be attached so as to form an inclination angle α. Grain a in the curved terminal portion 2b is supplied into the receiving hopper 40 by receiving gravity energy of falling due to the inclination while receiving centrifugal force.

なお、本発明を各実施形態を通して説明したが、本発明は各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ができる。   Although the present invention has been described through each embodiment, the present invention is not limited to each embodiment, and the shape of each component and the layout of the apparatus are within the scope of the claims. Etc. can be appropriately changed.

A 穀物吸引搬送装置
1 穀物供給部
2 エア搬送管路
2a 始端部
2b 終端部
2c 湾曲部分
2d 縦置部
2e 横置部
3 穀物回収部
4 吸引機構
11 ホッパー部
12 穀物供給口
13 穀物供給筒
14 シャッター
31 排気管
32 吸気ダクト
33 排気口
40 受容ホッパー
41 側壁
42 穀物取出口
43 ロータリーバルブ
44 天井部
45 傾斜壁
46 内周壁
A Grain suction conveyance device 1 Grain supply unit 2 Air conveyance conduit 2a Start end portion 2b End portion 2c Curved portion 2d Vertical placement portion 2e Horizontal placement portion 3 Grain recovery portion 4 Suction mechanism 11 Hopper portion 12 Grain supply port 13 Grain supply tube 14 Shutter 31 Exhaust pipe 32 Intake duct 33 Exhaust port 40 Receiving hopper 41 Side wall 42 Grain outlet 43 Rotary valve 44 Ceiling part 45 Inclined wall 46 Inner peripheral wall

Claims (3)

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管路と、
同エア搬送管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、
前記エア搬送管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管路内に吸引気流を生じさせる吸引機構と、
を備えた穀物吸引搬送装置において、
前記エア搬送管路の終端部を湾曲し、
穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、
前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、
同受容ホッパー下部の傾斜壁には、気流を乱すための気流抵抗部としての突出した突起部を設け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 conduit for conveying the grains supplied from the grain supply unit by air;
A grain collection unit that receives and collects the grains conveyed by air from the air conveyance pipeline;
A suction mechanism that is connected in communication with the grain recovery unit that communicates the terminal portion of the air conveyance pipe line, and generates a suction airflow in the air conveyance pipe line by suction;
In the grain suction conveyance device provided with
Curving the end of the air conveying conduit ,
The grain recovery part has a receiving hopper with a cylindrical shape at the top and a funnel shape at the bottom,
In the receiving hopper, an inclined wall is formed by inclining a lower portion from a portion communicating with the air conveyance pipe toward the rotary valve as an inner wall, while a cylindrical upper portion of the receiving hopper has a vertical inner peripheral wall. Forming,
A grain suction / conveying device characterized in that a projecting protruding portion as an airflow resistance portion for disturbing an airflow is provided on an inclined wall below the receiving hopper .
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管路と、
同エア搬送管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、
前記エア搬送管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管路内に吸引気流を生じさせる吸引機構と、
を備えた穀物吸引搬送装置において、
前記エア搬送管路の終端部を湾曲し、
穀物回収部は上部を筒形状とし、下部を漏斗形状とした受容ホッパーを備え、
前記受容ホッパーには、内壁として、エア搬送管路と連通する箇所から下方部分をロータリーバルブに向けて傾斜させて傾斜壁を形成する一方、同受容ホッパーの筒状の上部は垂直な内周壁を形成し、
同受容ホッパー下部の傾斜壁を窪ませて、気流を乱すための気流抵抗部としての窪み部を設け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 conduit for conveying the grains supplied from the grain supply unit by air;
A grain collection unit that receives and collects the grains conveyed by air from the air conveyance pipeline;
A suction mechanism that is connected in communication with the grain recovery unit that communicates the terminal portion of the air conveyance pipe line, and generates a suction airflow in the air conveyance pipe line by suction;
In the grain suction conveyance device provided with
Curving the end of the air conveying conduit,
The grain recovery part has a receiving hopper with a cylindrical shape at the top and a funnel shape at the bottom,
In the receiving hopper, an inclined wall is formed by inclining a lower portion from a portion communicating with the air conveyance pipe toward the rotary valve as an inner wall, while a cylindrical upper portion of the receiving hopper has a vertical inner peripheral wall. Forming,
A grain suction conveying device, characterized in that an inclined wall at the bottom of the receiving hopper is recessed to provide a recess as an airflow resistance for disturbing the airflow .
終端部は、湾曲した構造の湾曲体を有し、終端部の湾曲体を曲率半径Rとし、筒状の受容ホッパーを半径rとした場合には次の式のような関係となることを特徴とする請求項1又は請求項2に記載の穀物吸引搬送装置。The terminal portion has a curved body having a curved structure, and when the curved body at the terminal portion has a radius of curvature R and the cylindrical receiving hopper has a radius r, the following relationship is established. The grain suction conveyance device according to claim 1 or 2.
式 1.2×r<R< 6×r Formula 1.2 × r <R <6 × r
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JP3024923B2 (en) * 1994-07-08 2000-03-27 松下電工株式会社 Air flow transfer device
JP4327821B2 (en) * 2006-06-08 2009-09-09 福岡精米機器株式会社 Grain suction transfer device
JP5859293B2 (en) * 2011-11-29 2016-02-10 日清フーズ株式会社 Granular food transport equipment

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* Cited by examiner, † Cited by third party
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JP2020001858A (en) * 2018-06-26 2020-01-09 株式会社タイワ精機 Air suction type transfer device
JP7249618B2 (en) 2018-06-26 2023-03-31 株式会社タイワ精機 Air suction transport device

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