A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
WASTED SOIL PROCESSOR
PROBLEM TO BE SOLVED: To provide a wasted soil processor that saves energy when processing wasted soil.SOLUTION: A wasted soil processor 30 is capable of wasted soil processing that comprises: transporting wasted soil excavated by an excavator 100 (an auger device 20) to a second wasted soil transporting part 32 from a first wasted soil transporting part 31; transporting the wasted soil to a wasted throw-in part 33 from the second wasted soil transporting part 32; and refilling the wasted soil into an excavated pit excavated by the excavator 100 through the wasted soil throw-in part 33. Since the wasted soil processor 30 is used by integrally fitting to the excavator 100, the wasted soil processing may continue even after the excavator 100 (a pile press-in device 10) moves over a row of steel pipe piles. The configuration eliminates a need to attach/detach the wasted soil processor 30 each time the excavator 100 is moved, therefore reducing burdens on a worker and saving energy when processing wasted soil.SELECTED DRAWING: Figure 2
【課題】排土の処理の省力化を可能にする排土処理装置を実現する。【解決手段】排土処理装置30は、掘削装置100(オーガ装置20)によって掘削された排土を第1の排土搬送部31から第2の排土搬送部32へ搬送し、第2の排土搬送部32から排土投入部33へと搬送することができ、排土投入部33を通じて掘削装置100が掘削した掘削孔内に排土を投入して埋め戻す排土処理を行うことができる。この排土処理装置30は、掘削装置100に一体に取り付けて使用するようになっているため、掘削装置100(杭圧入装置10)が鋼管杭列上を移動した後も、その排土処理を継続して行うことができるので、掘削装置100を移動させる度に排土処理装置30の付け外しなどを行う必要がなく、作業者の負担を減らすことができ、排土処理を省力化することができる。【選択図】図2
WASTED SOIL PROCESSOR
PROBLEM TO BE SOLVED: To provide a wasted soil processor that saves energy when processing wasted soil.SOLUTION: A wasted soil processor 30 is capable of wasted soil processing that comprises: transporting wasted soil excavated by an excavator 100 (an auger device 20) to a second wasted soil transporting part 32 from a first wasted soil transporting part 31; transporting the wasted soil to a wasted throw-in part 33 from the second wasted soil transporting part 32; and refilling the wasted soil into an excavated pit excavated by the excavator 100 through the wasted soil throw-in part 33. Since the wasted soil processor 30 is used by integrally fitting to the excavator 100, the wasted soil processing may continue even after the excavator 100 (a pile press-in device 10) moves over a row of steel pipe piles. The configuration eliminates a need to attach/detach the wasted soil processor 30 each time the excavator 100 is moved, therefore reducing burdens on a worker and saving energy when processing wasted soil.SELECTED DRAWING: Figure 2
【課題】排土の処理の省力化を可能にする排土処理装置を実現する。【解決手段】排土処理装置30は、掘削装置100(オーガ装置20)によって掘削された排土を第1の排土搬送部31から第2の排土搬送部32へ搬送し、第2の排土搬送部32から排土投入部33へと搬送することができ、排土投入部33を通じて掘削装置100が掘削した掘削孔内に排土を投入して埋め戻す排土処理を行うことができる。この排土処理装置30は、掘削装置100に一体に取り付けて使用するようになっているため、掘削装置100(杭圧入装置10)が鋼管杭列上を移動した後も、その排土処理を継続して行うことができるので、掘削装置100を移動させる度に排土処理装置30の付け外しなどを行う必要がなく、作業者の負担を減らすことができ、排土処理を省力化することができる。【選択図】図2
WASTED SOIL PROCESSOR
排土処理装置
KITAMURA MORIO (author) / TAUCHI HIROAKI (author) / ONO KATSUHIKO (author) / OGI KEIICHIRO (author)
2016-12-01
Patent
Electronic Resource
Japanese
IPC:
E02F
Baggern
,
DREDGING
| Online Contents | 1998
A story of wasted heat and wasted opportunity
| British Library Online Contents | 1993
| British Library Online Contents | 1998