JP2014189362A - Conveying method and apparatus of conveying object - Google Patents

Conveying method and apparatus of conveying object Download PDF

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JP2014189362A
JP2014189362A JP2013065972A JP2013065972A JP2014189362A JP 2014189362 A JP2014189362 A JP 2014189362A JP 2013065972 A JP2013065972 A JP 2013065972A JP 2013065972 A JP2013065972 A JP 2013065972A JP 2014189362 A JP2014189362 A JP 2014189362A
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vertical
conveying
cylindrical casing
vertical direction
pipe
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JP6218409B2 (en
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Katsuhiko Kawakami
勝彦 川上
Daisuke Ito
大輔 伊藤
Naomi Miki
尚臣 三鬼
Mitsuo Shibuya
光男 渋谷
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Fujita Corp
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Fujita Corp
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Abstract

PROBLEM TO BE SOLVED: To provide a conveying method and an apparatus of a conveying object capable of simply and surely conveying the conveying object to the upward ground in a vertical direction even when conveying height in a vertical direction becomes 50-100 m.SOLUTION: A conveying apparatus 10 to convey excavated sediment upward in a vertical direction comprises: a plurality of vertical conveying pipes 14 where each pipe can convey the excavated sediment upward; and a plurality of connection parts 16 to connect the end parts of the vertical conveying pipes 14 neighboring in a vertical direction to each other in a curved state so that each vertical conveying pipe 14 extends in a vertical direction while inclining with respect to a vertical direction. The vertical conveying pipe 14 includes: a cylindrical casing 1402 having a linearly extending predetermined length; a ribbon screw 1404 assembled at the inside of the cylindrical casing 1402; and a rotation driving unit 1406 which is set at the cylindrical casing 1402 and which rotationally drives the ribbon screw 1404.

Description

本発明は、被搬送物の搬送方法および装置に関し、より詳細には、被搬送物を鉛直上方に50〜100m搬送する場合に好適な被搬送物の搬送方法および装置に関する。   The present invention relates to a transport method and apparatus for a transported object, and more particularly to a transport method and apparatus for a transport object suitable for transporting the transported object vertically 50 to 100 m.

例えば、被搬送物が、トンネル工事で掘削された掘削土砂である場合、掘削土砂を立坑内で立坑の底部から地上に搬送するため、垂直搬送用スクリューコンベヤが用いられている(特許文献1)。
この垂直搬送用スクリューコンベヤは、筒状ケーシングの内部にリボンスクリューを回転可能に組み込んだものである。
垂直搬送用スクリューコンベヤでは、一般に、筒状ケーシングは直線状を呈しており、その長手方向を鉛直方向に向けて配置されて使用されている。
For example, when the object to be transported is excavated earth and sand excavated by tunnel construction, a vertical conveyor screw conveyor is used to convey the excavated earth and sand from the bottom of the vertical shaft within the shaft (Patent Document 1). .
This screw conveyor for vertical conveyance is one in which a ribbon screw is rotatably incorporated in a cylindrical casing.
In the vertical conveying screw conveyor, generally, the cylindrical casing has a linear shape, and is used with its longitudinal direction oriented in the vertical direction.

特開2005−22832JP 2005-22832 A

しかしながら、直線状の筒状ケーシングを鉛直に向けて配置した場合、立坑の深さが50〜100mとなる場合には、従来の垂直搬送用スクリューコンベヤでは、掘削土砂を搬送することができない。
すなわち、筒状ケーシングの長さが50〜100mと大きくなると、立坑の底部において筒状ケーシングの下端から掘削土砂を筒状ケーシングに押し込んでも、掘削土砂はある程度の高さまで上昇するものの、その高さ以上では、リボンスクリューが回転しても掘削土砂は同じ高さの箇所に留まり、リボンスクリューのみが空転することによる。
However, when the straight cylindrical casing is arranged vertically, when the depth of the vertical shaft is 50 to 100 m, the conventional vertical conveying screw conveyor cannot convey the excavated earth and sand.
That is, when the length of the cylindrical casing is increased to 50 to 100 m, the excavated sediment rises up to a certain height even if the excavated sediment is pushed into the cylindrical casing from the lower end of the cylindrical casing at the bottom of the shaft, In the above, even if the ribbon screw rotates, the excavated earth and sand remains at the same height, and only the ribbon screw is idled.

これは、筒状ケーシングの下端からの掘削土砂の筒状ケーシングへの押し込みと、リボンスクリューの回転による掘削土砂を鉛直上方に上昇させる上昇力には限度があるためである。
本発明は前記事情に鑑み案出されたものであって、本発明の目的は、鉛直上方への搬送高さが50〜100mとなった場合でも、被搬送物を鉛直上方に簡単に確実に搬送できる被搬送物の搬送方法および装置を提供することにある。
This is because there is a limit to the pushing force of the excavated earth and sand from the lower end of the cylindrical casing into the cylindrical casing and the upward force that raises the excavated earth and sand vertically by the rotation of the ribbon screw.
The present invention has been devised in view of the above circumstances, and the object of the present invention is to ensure that the object to be transported is easily vertically upward even when the height of the vertically upward transport is 50 to 100 m. An object of the present invention is to provide a method and apparatus for transporting an object to be transported.

前記目的を達成するため本発明は、被搬送物を鉛直方向上方に搬送する搬送方法であって、直線状に延在する所定の長さの筒状ケーシングと、前記筒状ケーシングの内部に組み込まれた搬送用部材と、前記筒状ケーシングに取着され前記搬送用部材を駆動する駆動部とを含んで構成された縦搬送管を複数設け、前記被搬送物を上方に搬送する搬送路を、前記筒状ケーシングの長手方向を上下方向に向けて上下方向に並べられた前記複数の縦搬送管と、前記各縦搬送管の前記筒状ケーシングの端部どうしを屈曲させた状態で連結する複数の連結部とで構成し、前記複数の連結部を介して前記各縦搬送管の前記筒状ケーシングを、鉛直方向に対して傾斜させつつ上下方向に延在させるようにしたことを特徴とする。
また、本発明は、被搬送物を鉛直方向上方に搬送する搬送装置であって、直線状に延在する所定の長さの筒状ケーシングと、前記筒状ケーシングの内部に組み込まれた搬送用部材と、前記筒状ケーシングに取着され前記搬送用部材を駆動する駆動部とを含んで構成された複数の縦搬送管と、前記各縦搬送管の前記筒状ケーシングが鉛直方向に対して傾斜しつつ上下方向に延在するように、前記縦搬送管の前記筒状ケーシングの端部どうしを屈曲させた状態で連結する複数の連結部とを備えることを特徴とする。
In order to achieve the above object, the present invention is a transport method for transporting an object to be transported vertically upward, and is incorporated into a tubular casing having a predetermined length extending linearly and inside the tubular casing. A plurality of vertical conveying pipes including a conveying member that is attached to the cylindrical casing and a driving unit that drives the conveying member, and a conveying path that conveys the object to be conveyed upward is provided. The cylindrical casings are connected in a state in which the ends of the cylindrical casings of the vertical conveying pipes are bent with the longitudinal conveying pipes arranged vertically in the longitudinal direction of the cylindrical casing. A plurality of connecting portions, and the cylindrical casing of each of the vertical transport pipes extends in the vertical direction while being inclined with respect to the vertical direction via the plurality of connecting portions. To do.
In addition, the present invention is a transport device that transports an object to be transported vertically upward, and includes a cylindrical casing having a predetermined length that extends linearly, and a transport casing that is incorporated in the cylindrical casing. A plurality of vertical transfer pipes configured to include a member, and a drive unit that is attached to the cylindrical casing and drives the transfer member, and the cylindrical casings of the vertical transfer pipes are perpendicular to the vertical direction. A plurality of connecting portions that are connected in a state in which ends of the cylindrical casing of the vertical transfer pipe are bent so as to extend in the vertical direction while being inclined.

本発明によれば、被搬送物を鉛直上方に搬送する搬送路が、複数の連結部により連結され、それぞれが鉛直方向に対して傾斜しつつ上下方向に延在する複数の縦搬送管で構成されている。
各縦搬送管を鉛直方向に対して傾斜させると、各縦搬送路を構成する筒状ケーシングをその長手方向と直交する面で切断した場合に、特にその下半部をなす筒状ケーシングの内周面が、筒状ケーシングの内部に組み込まれた搬送用部材に対して、掘削土砂をより効果的に上方に搬送させるように貢献する。
したがって、立坑の深さが50〜100mと大きくなった場合でも、筒状ケーシングの内周面が搬送用部材と協働することにより、掘削土砂を鉛直上方の地上に簡単に確実に搬送できる。
According to the present invention, the conveyance path for conveying the object to be conveyed vertically upward is connected by the plurality of connecting portions, and each of the plurality of vertical conveyance pipes extends in the vertical direction while being inclined with respect to the vertical direction. Has been.
When each vertical transport pipe is inclined with respect to the vertical direction, when the cylindrical casing constituting each vertical transport path is cut along a plane perpendicular to the longitudinal direction, the inner portion of the cylindrical casing forming the lower half of the cylindrical casing is particularly important. The peripheral surface contributes to more efficiently transporting excavated earth and sand upward with respect to the transport member incorporated in the cylindrical casing.
Therefore, even when the depth of the shaft is as large as 50 to 100 m, the inner peripheral surface of the cylindrical casing cooperates with the conveying member, so that the excavated earth and sand can be easily and reliably conveyed to the ground above vertically.

第1の実施の形態の搬送装置の正面図である。It is a front view of the conveyance apparatus of 1st Embodiment. 第1の実施の形態の搬送装置の側面図である。It is a side view of the conveying apparatus of 1st Embodiment. 第2の実施の形態の搬送装置の正面図である。It is a front view of the conveying apparatus of 2nd Embodiment. 第2の実施の形態の搬送装置の側面図である。It is a side view of the conveying apparatus of 2nd Embodiment.

以下、本発明の実施の形態を図面にしたがって説明する。
本実施の形態では、トンネル工事で掘削された掘削土砂を、立坑内で地上に向けて搬送する場合について説明する。
したがって、以下の実施の形態では、被搬送物は、トンネル工事で掘削された掘削土砂である。
立坑の深さは、50〜100mであり、掘削土砂は、立坑の底部から地上に向けて鉛直上方に50〜100m搬送される。
まず、図1、図2を参照して第1の実施の形態の方法を装置と共に説明する。
掘削土砂を鉛直方向上方に搬送する搬送装置10は、掘削土砂が投入されるホッパー部12と、複数の縦搬送管14と、複数の連結部16とを含んで構成されている。
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
This Embodiment demonstrates the case where the excavated earth and sand excavated by tunnel construction is conveyed toward the ground within a shaft.
Therefore, in the following embodiment, the conveyed object is excavated earth and sand excavated by tunnel construction.
The depth of the shaft is 50 to 100 m, and the excavated earth and sand is conveyed 50 to 100 m vertically upward from the bottom of the shaft toward the ground.
First, the method of the first embodiment will be described together with the apparatus with reference to FIGS.
A conveying device 10 that conveys excavated earth and sand vertically includes a hopper portion 12 into which excavated earth and sand are introduced, a plurality of vertical conveying pipes 14, and a plurality of connecting portions 16.

ホッパー部12は、ホッパー本体1202と、ホッパー本体1202の下部側面から突設された筒状ケーシング1204と、ホッパー本体1202の底部から筒状ケーシング1204の内部に挿通されたリボンスクリュー1206と、リボンスクリュー1206を回転駆動する回転駆動部1208とを備えている。
筒状ケーシング1204の先端は、最も下位に位置する縦搬送管14の下部に連結されている。
回転駆動部1208は、例えば、油圧式モータや電動式モータ、減速機構を含んで構成されている。
トンネル工事で掘削された掘削土砂は、例えば、ベルトコンベアにより搬送され、ホッパー本体1202に投入される。
The hopper portion 12 includes a hopper main body 1202, a cylindrical casing 1204 protruding from the lower side surface of the hopper main body 1202, a ribbon screw 1206 inserted from the bottom of the hopper main body 1202 into the cylindrical casing 1204, and a ribbon screw A rotation drive unit 1208 for rotating and driving 1206.
The distal end of the cylindrical casing 1204 is connected to the lower portion of the vertical transport pipe 14 positioned at the lowest position.
The rotation drive unit 1208 includes, for example, a hydraulic motor, an electric motor, and a speed reduction mechanism.
The excavated earth and sand excavated by the tunnel construction is conveyed by, for example, a belt conveyor and is put into the hopper main body 1202.

複数の縦搬送管14は、上下方向に直線状に延在して上下方向に並べられ、それぞれが掘削土砂の上方への搬送を可能に構成されている。
縦搬送管14は、筒状ケーシング1402と、リボンスクリュー1404と、回転駆動部1406とを含んで構成され、本実施の形態では、縦搬送管14にスクリューコンベヤが用いられている。
The plurality of vertical transfer pipes 14 extend linearly in the vertical direction and are arranged in the vertical direction, and each is configured to be able to transfer the excavated earth and sand upward.
The vertical conveying pipe 14 includes a cylindrical casing 1402, a ribbon screw 1404, and a rotation driving unit 1406. In this embodiment, a screw conveyor is used for the vertical conveying pipe 14.

筒状ケーシング1402は、断面が円形で所定の長さで直線状に延在している。本実施の形態では、1本の筒状ケーシング1402の長さは10mである。図面では立坑の下部に位置する4つの縦搬送管14のみが描かれているが、立坑の深さが50mの場合には、例えば、6つから7つの縦搬送管14が用いられ、立坑の深さが100mの場合には、12から14の縦搬送管14が用いられる。
なお、筒状ケーシング1402の長さは、10mに限定されず、例えば、5m〜20mの範囲で適宜決定され、筒状ケーシング1402の長さを大きくした場合には、単一の筒状ケーシング1402に回転駆動部1406を複数設けるなど任意である。
The cylindrical casing 1402 has a circular cross section and extends linearly with a predetermined length. In the present embodiment, the length of one cylindrical casing 1402 is 10 m. In the drawing, only four vertical conveying pipes 14 located at the lower part of the shaft are drawn, but when the depth of the vertical shaft is 50 m, for example, six to seven vertical conveying pipes 14 are used. When the depth is 100 m, 12 to 14 vertical conveying pipes 14 are used.
Note that the length of the cylindrical casing 1402 is not limited to 10 m. For example, when the length of the cylindrical casing 1402 is increased as appropriate within a range of 5 m to 20 m, a single cylindrical casing 1402 is used. It is optional to provide a plurality of rotation driving units 1406 on the front side.

リボンスクリュー1404は、筒状ケーシング1402の内部に組み込まれている。本実施の形態では、リボンスクリュー1404が、筒状ケーシング1402の内部に組み込まれた搬送用部材に相当している。
本実施の形態では、リボンスクリュー1404は、その外周部が筒状ケーシング1402の内周面に回転可能に支持された外周支持方式である。
回転駆動部1406は、リボンスクリュー1404を回転駆動するもので、筒状ケーシング1402の長手方向の中間部に取着されている。本実施の形態では、回転駆動部1406が、搬送用部材を駆動する駆動部に相当している。
The ribbon screw 1404 is incorporated in the cylindrical casing 1402. In the present embodiment, the ribbon screw 1404 corresponds to a conveying member incorporated in the cylindrical casing 1402.
In the present embodiment, the ribbon screw 1404 is an outer peripheral support system in which an outer peripheral portion thereof is rotatably supported on an inner peripheral surface of the cylindrical casing 1402.
The rotation drive unit 1406 rotates the ribbon screw 1404 and is attached to an intermediate portion in the longitudinal direction of the cylindrical casing 1402. In the present embodiment, the rotation driving unit 1406 corresponds to a driving unit that drives the conveying member.

回転駆動部1406は、例えば、油圧式モータや電動式モータ、減速機構を含んで構成されている。すなわち、油圧式モータや電動式モータの駆動力が減速機構に伝達され、減速機構の駆動歯車が、リボンスクリュー1404の外周部に形成された歯部に、筒状ケーシング1402の開口部を介して噛合することで、リボンスクリュー1404が回転駆動される。
したがって、本実施の形態では、上下方向に直線状に延在し上下方向に並べられそれぞれが掘削土砂の上方への搬送を可能とした複数の縦搬送路が、それぞれ縦搬送管14により構成されている。
なお、リボンスクリュー1404には、中心軸の周囲に螺旋羽根が取着されたもの、中心軸を有さずに螺旋羽根の長手方向の端部に軸部が設けられたものなど、従来公知の様々な形式のものが採用可能であり、用いるリボンスクリュー1404の形式に応じて回転駆動部1406とリボンスクリュー1404の連結構造が適宜決定される。
The rotation drive unit 1406 includes, for example, a hydraulic motor, an electric motor, and a speed reduction mechanism. That is, the driving force of the hydraulic motor or the electric motor is transmitted to the speed reduction mechanism, and the drive gear of the speed reduction mechanism is connected to the tooth portion formed on the outer peripheral portion of the ribbon screw 1404 via the opening of the cylindrical casing 1402. By meshing, the ribbon screw 1404 is rotationally driven.
Therefore, in the present embodiment, a plurality of vertical conveyance paths that extend linearly in the vertical direction and are arranged in the vertical direction, each enabling the excavation soil to be conveyed upward, are each configured by the vertical conveyance pipe 14. ing.
The ribbon screw 1404 has a conventionally known structure such as one in which a spiral blade is attached around the center axis, and one in which a shaft portion is provided at the longitudinal end of the spiral blade without the center axis. Various types can be adopted, and the connection structure between the rotary drive unit 1406 and the ribbon screw 1404 is appropriately determined according to the type of the ribbon screw 1404 to be used.

複数の連結部16は、各縦搬送管14の筒状ケーシング1402が鉛直方向に対して傾斜しつつ上下方向に延在するように、上下に隣り合う縦搬送管14の筒状ケーシング1402の端部どうしを連結するものである。
上下に隣り合う縦搬送管14の筒状ケーシング1402の端部どうしが連結部16で連結されることにより、上下に隣り合う縦搬送管14の筒状ケーシング1402は、互いに逆向きに鉛直方向に対して傾斜しつつ上下に延在する。
本実施の形態では、連結部16は、V字状に湾曲した配管で構成されている。
配管の一端は、上下方向において隣り合う一方の縦搬送管14の筒状ケーシング1402の下端に連結され、配管の他端は、上下方向において隣り合う他方の縦搬送管14の筒状ケーシング1402の上端に連結されている。
連結部16により各縦搬送管14を鉛直方向に対して傾斜させる傾斜角度θは、全ての連結部16において同一の角度とすると、組み立ての簡易化や搬送装置10のバランスを図る上で有利となる。
The plurality of connecting portions 16 are provided at the ends of the cylindrical casings 1402 of the vertical conveying pipes 14 adjacent to each other vertically so that the cylindrical casings 1402 of the vertical conveying pipes 14 extend in the vertical direction while being inclined with respect to the vertical direction. The parts are connected together.
The ends of the cylindrical casings 1402 of the vertical conveying pipes 14 adjacent to each other in the vertical direction are connected to each other by the connecting portion 16 so that the cylindrical casings 1402 of the vertical conveying pipes 14 adjacent to each other in the vertical direction are vertically opposite to each other. It extends up and down while tilting.
In this Embodiment, the connection part 16 is comprised by piping curved in V shape.
One end of the pipe is connected to the lower end of the cylindrical casing 1402 of one vertical transfer pipe 14 adjacent in the vertical direction, and the other end of the pipe is connected to the cylindrical casing 1402 of the other vertical transfer pipe 14 adjacent in the vertical direction. Connected to the top.
The inclination angle θ for inclining each vertical conveying pipe 14 with respect to the vertical direction by the connecting portion 16 is advantageous in terms of simplifying assembly and balancing the conveying device 10 if all the connecting portions 16 have the same angle. Become.

なお、以上の複数の縦搬送管14と複数の連結部16を含む搬送装置10は、例えば、立坑の底部に、地上に至る塔を立設し、この塔に組み付けて配置するなど任意である。   In addition, the conveying apparatus 10 including the plurality of vertical conveying pipes 14 and the plurality of connecting portions 16 described above is arbitrary, for example, by setting up a tower reaching the ground at the bottom of the shaft and assembling the tower. .

次に、作用効果について説明する。
本実施の形態によれば、掘削土砂を鉛直上方に搬送する搬送路が、複数の連結部16により連結されそれぞれが鉛直方向に対して傾斜しつつ上下方向に延在する複数の縦搬送管14で構成されている。
各縦搬送管14を鉛直方向に対して傾斜させると、各縦搬送管14を構成する筒状ケーシング1402をその長手方向と直交する面で切断した場合に、特にその下半部をなす筒状ケーシング1402の内周面が、リボンスクリュー1404が掘削土砂をより効果的に上方に搬送させるように貢献する。
したがって、立坑の深さが50〜100mと大きくなった場合でも、リボンスクリュー1404のみが空転し、掘削土砂が同じ高さの箇所に留まるといった不具合がなくなり、筒状ケーシング1402の内周面がリボンスクリュー1404と協働することにより、掘削土砂を鉛直上方の地上に簡単に確実に搬送できる。
Next, operational effects will be described.
According to the present embodiment, the transport paths for transporting excavated earth and sand vertically upward are connected by the plurality of connecting portions 16, and each of the vertical transport pipes 14 extends in the vertical direction while being inclined with respect to the vertical direction. It consists of
When each vertical transport pipe 14 is tilted with respect to the vertical direction, the cylindrical casing 1402 that constitutes each vertical transport pipe 14 is cut in a plane perpendicular to the longitudinal direction, and in particular, a cylindrical shape that forms the lower half of the cylindrical casing 1402. The inner peripheral surface of the casing 1402 contributes so that the ribbon screw 1404 transports excavated earth and sand more effectively.
Therefore, even when the depth of the shaft is as large as 50 to 100 m, there is no problem that only the ribbon screw 1404 is idling and the excavated soil remains at the same height, and the inner peripheral surface of the cylindrical casing 1402 is ribbon. By cooperating with the screw 1404, the excavated earth and sand can be easily and reliably conveyed to the ground above the vertical.

なお、連結部16により各縦搬送管14を鉛直方向に対して傾斜させる傾斜角度θが小さいと、掘削土砂の鉛直方向上方への搬送力が大きくなるもののその度合いは少ない。
一方、傾斜角度θを大きくすればするほど、リボンスクリュー1404が掘削土砂を上昇させる上昇力に対して筒状ケーシング1402の内周面の貢献度が高まり、掘削土砂の鉛直方向上方への搬送力が増大するが、傾斜角度θを大きくすると、立坑の直径を大きくしなければならず、また、用いる縦搬送管14の本数、すなわち筒状ケーシング1402、リボンスクリュー1404、回転駆動部1406の数が増大してしまう。
そこで、立坑の直径を大きくせず、また、縦搬送管14の数を増大せず、掘削土砂の鉛直方向上方への搬送力を考慮すると、傾斜角度θは、20度〜30度の範囲が好ましい。
なお、傾斜角度θは、掘削土砂の含水比にもより、掘削土砂の含水比が低い場合には、傾斜角度θは小さくてよく、含水比が高い場合には、傾斜角度θは大きい方が好ましい。
In addition, when the inclination angle θ for inclining each vertical conveying pipe 14 with respect to the vertical direction by the connecting portion 16 is small, although the conveying force of the excavated sediment in the vertical direction increases, the degree thereof is small.
On the other hand, as the inclination angle θ is increased, the contribution of the inner peripheral surface of the cylindrical casing 1402 to the upward force by which the ribbon screw 1404 raises the excavated earth and sand increases, and the conveying force of the excavated earth and sand vertically increases. However, when the inclination angle θ is increased, the diameter of the shaft must be increased, and the number of the vertical conveying pipes 14 to be used, that is, the number of the cylindrical casings 1402, the ribbon screws 1404, and the rotation driving units 1406 is increased. It will increase.
Therefore, when the diameter of the shaft is not increased, the number of the vertical transport pipes 14 is not increased, and the transport force in the vertical direction of the excavated soil is taken into consideration, the inclination angle θ is in the range of 20 degrees to 30 degrees. preferable.
Note that the inclination angle θ may be small when the moisture content of the excavated soil is low, depending on the water content ratio of the excavated sediment, and when the moisture content is high, the inclination angle θ is larger. preferable.

次に、図3、図4を参照して第2の実施の形態について説明する。
この第2実施の形態では、連結部16の構成が第1の実施の形態と異なり、その他の箇所の構成は第1の実施の形態と同様であるため、第1の実施の形態と異なる箇所を重点的に説明する。
Next, a second embodiment will be described with reference to FIGS.
In the second embodiment, the configuration of the connecting portion 16 is different from that of the first embodiment, and the configuration of other portions is the same as that of the first embodiment. Therefore, the location is different from that of the first embodiment. Will be explained with emphasis.

第2の実施の形態では、連結部16は横搬送管18により構成されている。
横搬送管18は、鉛直方向と交差する横方向に延在し上下方向において隣り合う一方の縦搬送管14の下端と他方の縦搬送管14の上端とを接続しそれぞれが掘削土砂の前記横方向への搬送を可能に構成されている。
横搬送管18が鉛直方向と交差する角度は、鉛直方向に対して90度の場合、すなわち、横搬送管18が水平方向に向けられている場合が、縦搬送管14の下端に掘削土砂を押し込む折り込み力が最も大きく、本実施の形態では、横搬送管18は水平方向に向けられている。
横搬送管18は、筒状ケーシング1802と、リボンスクリュー1804と、回転駆動部1806とを含んで構成され、本実施の形態では、縦搬送管14にスクリューコンベヤが用いられている。
In the second embodiment, the connecting portion 16 is constituted by a horizontal conveyance pipe 18.
The horizontal transfer pipe 18 extends in the horizontal direction intersecting the vertical direction and connects the lower end of one vertical transfer pipe 14 and the upper end of the other vertical transfer pipe 14 that are adjacent in the vertical direction, and each of the horizontal transfer pipes 18 is the horizontal side of the excavated soil. It is configured to enable conveyance in the direction.
When the horizontal conveyance pipe 18 intersects the vertical direction at an angle of 90 degrees with respect to the vertical direction, that is, when the horizontal conveyance pipe 18 is oriented in the horizontal direction, excavated earth and sand are placed on the lower end of the vertical conveyance pipe 14. The folding force to be pushed in is the largest, and in the present embodiment, the horizontal conveyance pipe 18 is oriented in the horizontal direction.
The horizontal conveyance pipe 18 is configured to include a cylindrical casing 1802, a ribbon screw 1804, and a rotation drive unit 1806, and a screw conveyor is used for the vertical conveyance pipe 14 in the present embodiment.

筒状ケーシング1802は、縦搬送管14の筒状ケーシング1402よりも短い長さで直線状に延在し、その長手方向が水平方向に向けられて配置されている。
筒状ケーシング1802の長手方向の一端は、上下方向において隣り合う一方の縦搬送管14の下端に連結され、長手方向の他端は、上下方向において隣り合う他方の縦搬送路14の上端に連結されている。
The cylindrical casing 1802 extends in a straight line with a shorter length than the cylindrical casing 1402 of the vertical conveyance pipe 14, and the longitudinal direction thereof is arranged in the horizontal direction.
One end in the longitudinal direction of the cylindrical casing 1802 is connected to the lower end of one vertical transport pipe 14 adjacent in the vertical direction, and the other end in the longitudinal direction is connected to the upper end of the other vertical transport path 14 adjacent in the vertical direction. Has been.

リボンスクリュー1804は、筒状ケーシング1802の内部に組み込まれ、その長手方向の端部に軸部を有している。
回転駆動部1806は、リボンスクリュー1804を回転駆動するもので、筒状ケーシング1802の長手方向の端部に取着されている。
回転駆動部1806は、例えば、油圧式モータや電動式モータ、減速機構を含んで構成され、本実施の形態では、モータがリボンスクリュー1804の前記軸部に直結され、モータの駆動力によりリボンスクリュー1804が回転駆動される。
なお、縦搬送管14では、筒状ケーシング1402内において掘削土砂が適切な充満率で搬送されることが好ましく、充満率が高いと筒状ケーシング1402内が閉塞し、充満率が低いと搬送効率が低下する。
そこで、縦搬送管14の回転駆動部1406を構成するモータの駆動電流を監視し、縦搬送管14の充満率が高くなり、モータに過負荷が掛かった場合には、横搬送管18の回転駆動部1806を構成するモータの回転数を低下させ、横搬送管18による掘削土砂の縦搬送管14下端への押し込み力を弱め、縦搬送管14の充満率を適切な値に戻し、その後、横搬送管18の回転駆動部1806を構成するモータの回転数を当初の回転するに復帰させ、縦搬送管14の搬送効率を設計通りの値に元に戻すことを行なうと、掘削土砂の搬送効率を高める上でより有利となる。
また、リボンスクリュー1804には、中心軸の周囲に螺旋羽根が取着されたもの、中心軸を有さずに螺旋羽根の長手方向の端部に軸部が設けられたものなど、従来公知の様々な形式のものが採用可能であり、用いるリボンスクリュー1804の形式に応じて回転駆動部1806とリボンスクリュー1804の連結構造が適宜決定される。
The ribbon screw 1804 is incorporated into the cylindrical casing 1802 and has a shaft portion at the end in the longitudinal direction thereof.
The rotation drive unit 1806 drives the ribbon screw 1804 to rotate, and is attached to the end of the cylindrical casing 1802 in the longitudinal direction.
The rotation drive unit 1806 includes, for example, a hydraulic motor, an electric motor, and a speed reduction mechanism. In this embodiment, the motor is directly connected to the shaft portion of the ribbon screw 1804, and the ribbon screw is driven by the driving force of the motor. 1804 is driven to rotate.
In the vertical conveyance pipe 14, it is preferable that excavated earth and sand be conveyed in the cylindrical casing 1402 at an appropriate filling rate. When the filling rate is high, the inside of the cylindrical casing 1402 is closed, and when the filling rate is low, the conveying efficiency is low. Decreases.
Therefore, the drive current of the motor constituting the rotation drive unit 1406 of the vertical conveyance pipe 14 is monitored, and when the fullness of the vertical conveyance pipe 14 becomes high and the motor is overloaded, the rotation of the horizontal conveyance pipe 18 is rotated. Decreasing the rotational speed of the motor constituting the driving unit 1806, weakening the pushing force of the excavated earth and sand to the lower end of the vertical conveying pipe 14 by the horizontal conveying pipe 18, returning the filling rate of the vertical conveying pipe 14 to an appropriate value, When the rotational speed of the motor constituting the rotation drive unit 1806 of the horizontal transport pipe 18 is restored to the initial rotation and the transport efficiency of the vertical transport pipe 14 is restored to the designed value, the transport of excavated earth and sand is performed. This is more advantageous for increasing efficiency.
The ribbon screw 1804 has a conventionally known structure such as one in which a spiral blade is attached around the center axis, and one in which a shaft portion is provided at the longitudinal end of the spiral blade without having the center axis. Various types can be adopted, and the connection structure between the rotary drive unit 1806 and the ribbon screw 1804 is appropriately determined according to the type of the ribbon screw 1804 to be used.

このような第2の実施の形態によっても第1の実施の形態と同様な効果が奏されることは無論のこと、第1の実施の形態に加え次の効果が奏される。
最も下位に位置する縦搬送管14を除き、上下に隣り合う縦搬送管14の間に横搬送管18が位置しているので、各縦搬送管14の下端に横搬送管18から掘削土砂が押し込まれる。
この横搬送管18による掘削土砂の押し込みにより、掘削土砂を鉛直方向上方へ搬送する各縦搬送管14の搬送力が大きくなる。
したがって、第2の実施の形態によれば、掘削土砂を鉛直上方の地上に簡単に確実に搬送する上でより有利となる。
It goes without saying that the same effects as those of the first embodiment can be obtained by the second embodiment as well, and the following effects can be obtained in addition to the first embodiment.
Except for the vertical conveyance pipe 14 located at the lowest position, the horizontal conveyance pipe 18 is positioned between the vertical conveyance pipes 14 adjacent to each other in the vertical direction. Pushed in.
The pushing force of the excavated earth and sand by the horizontal conveying pipe 18 increases the conveying force of each vertical conveying pipe 14 that conveys the excavated earth and sand vertically upward.
Therefore, according to the second embodiment, it is more advantageous to easily and surely transport excavated earth and sand to the ground above vertically.

なお、上記の実施の形態では、被搬送物が掘削土砂である場合について説明したが、被搬送物は掘削土砂に限定されず、鉛直上方に搬送されるさまざまな被搬送物に適用可能である。
また、本実施の形態では、縦搬送管14にスクリューコンベヤを用いた場合について説明したが、縦搬送管14はスクリューコンベヤに限定されず、筒状ケーシングの内部に搬送用部材が組み込まれた形式の搬送装置であればよく、搬送装置の形式は、被搬送物に応じて適宜決定され、筒状ケーシングの断面形状も円形に限定されず搬送部材に応じて適宜決定される。
In the above embodiment, the case where the object to be conveyed is excavated earth and sand has been described. However, the object to be conveyed is not limited to the excavated earth and sand, and can be applied to various objects to be conveyed vertically upward. .
Moreover, although the case where the screw conveyor was used for the vertical conveyance pipe | tube 14 was demonstrated in this Embodiment, the vertical conveyance pipe | tube 14 is not limited to a screw conveyor, The form with which the member for conveyance was integrated in the inside of a cylindrical casing. However, the type of the transport device is appropriately determined according to the object to be transported, and the cross-sectional shape of the cylindrical casing is not limited to a circle, but is appropriately determined according to the transport member.

10……搬送装置、12……ホッパー部、1202……ホッパー本体、1204……筒状ケーシング、1206……リボンスクリュー、1208……回転駆動部、14……縦搬送管、1402……筒状ケーシング、1404……リボンスクリュー、1406……回転駆動部、16……連結部、18……横搬送管、1802……筒状ケーシング、1804……リボンスクリュー、1806……回転駆動部。   DESCRIPTION OF SYMBOLS 10 ... Conveyance device, 12 ... Hopper part, 1202 ... Hopper main body, 1204 ... Cylindrical casing, 1206 ... Ribbon screw, 1208 ... Rotation drive part, 14 ... Vertical conveyance pipe, 1402 ... Cylindrical shape Casing, 1404... Ribbon screw, 1406... Rotation drive unit, 16... Connection unit, 18.

Claims (7)

被搬送物を鉛直方向上方に搬送する搬送方法であって、
直線状に延在する所定の長さの筒状ケーシングと、前記筒状ケーシングの内部に組み込まれた搬送用部材と、前記筒状ケーシングに取着され前記搬送用部材を駆動する駆動部とを含んで構成された縦搬送管を複数設け、
前記被搬送物を上方に搬送する搬送路を、前記筒状ケーシングの長手方向を上下方向に向けて上下方向に並べられた前記複数の縦搬送管と、前記各縦搬送管の前記筒状ケーシングの端部どうしを屈曲させた状態で連結する複数の連結部とで構成し、
前記複数の連結部を介して前記各縦搬送管の前記筒状ケーシングを、鉛直方向に対して傾斜させつつ上下方向に延在させるようにした、
ことを特徴とする被搬送物の搬送方法。
A transport method for transporting an object to be transported vertically upward,
A cylindrical casing having a predetermined length extending in a straight line, a conveying member incorporated in the cylindrical casing, and a drive unit that is attached to the cylindrical casing and drives the conveying member. A plurality of vertical conveying pipes configured to include,
The plurality of vertical conveyance pipes arranged in the vertical direction with the longitudinal direction of the cylindrical casing being directed in the vertical direction, and the cylindrical casings of the vertical conveyance pipes, the conveyance path for conveying the object to be conveyed upward With a plurality of connecting portions that are connected in a state where the end portions of the two are bent,
The cylindrical casing of each of the vertical transport pipes extends in the vertical direction while being inclined with respect to the vertical direction via the plurality of connecting portions.
A method for conveying an object to be conveyed.
前記各縦搬送管の前記筒状ケーシングは、鉛直方向に対して20度〜30度の範囲で傾斜している、
ことを特徴とする請求項1記載の被搬送物の搬送方法。
The cylindrical casing of each vertical transfer pipe is inclined in a range of 20 degrees to 30 degrees with respect to the vertical direction.
The method for transporting an object to be transported according to claim 1.
被搬送物を鉛直方向上方に搬送する搬送装置であって、
直線状に延在する所定の長さの筒状ケーシングと、前記筒状ケーシングの内部に組み込まれた搬送用部材と、前記筒状ケーシングに取着され前記搬送用部材を駆動する駆動部とを含んで構成された複数の縦搬送管と、
前記各縦搬送管の前記筒状ケーシングが鉛直方向に対して傾斜しつつ上下方向に延在するように、前記縦搬送管の前記筒状ケーシングの端部どうしを屈曲させた状態で連結する複数の連結部と、
を備えることを特徴とする被搬送物の搬送装置。
A transport device for transporting an object to be transported vertically upward,
A cylindrical casing having a predetermined length extending in a straight line, a conveying member incorporated in the cylindrical casing, and a drive unit that is attached to the cylindrical casing and drives the conveying member. A plurality of vertical conveying pipes configured to include,
A plurality of pipes connected in a bent state so that the cylindrical casings of the vertical transfer pipes extend in the vertical direction while being inclined with respect to the vertical direction. A connecting portion of
An apparatus for transporting an object to be transported.
前記縦搬送管はスクリューコンベヤであり、前記搬送用部材は前記筒状ケーシングの内部に回転可能に組み込まれたリボンスクリューである、
ことを特徴とする請求項3記載の被搬送物の搬送装置。
The vertical conveying pipe is a screw conveyor, and the conveying member is a ribbon screw that is rotatably incorporated in the cylindrical casing.
The apparatus for transporting an object to be transported according to claim 3.
前記連結部は、鉛直方向と交差する横方向に延在して上下方向において隣り合う一方の前記縦搬送管の下端と他方の前記縦搬送管の上端とを接続する横搬送管で構成され、
前記横搬送管は、直線状に延在し前記縦搬送管よりも短い長さの筒状ケーシングと、前記筒状ケーシングの内部に回転可能に組み込まれたリボンスクリューと、前記筒状ケーシングに取着され前記リボンスクリューを回転駆動する駆動部とを含んだスクリューコンベヤである、
ことを特徴とする請求項3または4記載の被搬送物の搬送装置。
The connecting portion is configured by a horizontal conveyance pipe that extends in a horizontal direction intersecting the vertical direction and connects a lower end of one of the vertical conveyance pipes and an upper end of the other vertical conveyance pipe that are adjacent in the vertical direction,
The horizontal transport pipe extends in a straight line and has a shorter length than the vertical transport pipe, a ribbon screw rotatably incorporated in the cylindrical casing, and a tubular casing. A screw conveyor including a drive unit that is attached and rotationally drives the ribbon screw;
The apparatus for transporting an object to be transported according to claim 3 or 4.
前記縦搬送管の前記筒状ケーシングは、鉛直方向に対して20度〜30度の範囲で傾斜している、
ことを特徴とする請求項3〜5に何れか1項記載の被搬送物の搬送装置。
The cylindrical casing of the vertical conveying pipe is inclined in a range of 20 degrees to 30 degrees with respect to the vertical direction.
The transport apparatus for a transported object according to any one of claims 3 to 5, wherein the transport apparatus is a transport object.
前記被搬送物は掘削土砂である、
ことを特徴とする請求項3〜6に何れか1項記載の被搬送物の搬送装置。
The transported object is excavated earth and sand,
The apparatus for conveying an object according to any one of claims 3 to 6, wherein the apparatus for conveying an object is one.
JP2013065972A 2013-03-27 2013-03-27 Method and apparatus for conveying excavated earth and sand Active JP6218409B2 (en)

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Publication number Priority date Publication date Assignee Title
CN105540173A (en) * 2015-12-24 2016-05-04 东北大学 Industrial sludge conveying device and work method thereof
CN115535547A (en) * 2022-09-28 2022-12-30 宿松县春江粮油有限公司 Spiral feeding equipment for rice processing and rice processing method

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JPH03241120A (en) * 1990-02-16 1991-10-28 Sumitomo Constr Co Ltd Earth moving device of excavated earth
JPH06117190A (en) * 1992-10-02 1994-04-26 Mitsubishi Heavy Ind Ltd Lifting conveyor of soil
JP2003054730A (en) * 2001-08-09 2003-02-26 Hitachi Zosen Corp Method for designing screw type conveyor

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03241120A (en) * 1990-02-16 1991-10-28 Sumitomo Constr Co Ltd Earth moving device of excavated earth
JPH06117190A (en) * 1992-10-02 1994-04-26 Mitsubishi Heavy Ind Ltd Lifting conveyor of soil
JP2003054730A (en) * 2001-08-09 2003-02-26 Hitachi Zosen Corp Method for designing screw type conveyor

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105540173A (en) * 2015-12-24 2016-05-04 东北大学 Industrial sludge conveying device and work method thereof
CN115535547A (en) * 2022-09-28 2022-12-30 宿松县春江粮油有限公司 Spiral feeding equipment for rice processing and rice processing method

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