A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
UNDERWATER MINING DEVICE AND MINING METHOD
PROBLEM TO BE SOLVED: To provide an underwater mining device capable of mining a soil material underwater effectively and a method for mining a soil material in water bottom.SOLUTION: A underwater mining device 10 has a submersible work bench 12 arranged in water bottom, drilling means 30 for excavating a soil material from water bottom, adjustment means 13 for adjusting drilling means 30 and introducing it to water bottom and a carrying pipe 18 for carrying a soil material excavated to a place away from the drilling means 30.A receiving part 40 for a carrying receptacle 50 is designed on the work bench 12 and the carrying receptacle 50 is supported and held releasably in the receiving part 40 and the carrying pipe 18 leads into the carrying receptacle 50. The soil material excavated is carried through the carrying pipe 18 and is received within the carrying receptacle 50.SELECTED DRAWING: Figure 1
【課題】地盤物質を水中で効率的に採掘できる、水中採掘デバイスおよび水底上で地盤物質を採掘する方法を提供すること。【解決手段】水中採掘デバイス10は、水底上に配置される沈水可能な作業台12と、水底から地盤物質を掘削するための掘削手段30と、掘削手段30を調節し、水底内へ導入するための調節手段13と、掘削手段30から離れた所に、掘削された地盤物質を搬送するための搬送管路18とを有する。搬送容器50のための受容部40が作業台12上に設計され、搬送容器50は、受容部40内に解放可能に支持され、保持され、搬送管路18は搬送容器50内へ通じている。搬送管路18を通って掘削された地盤物質が送られ、搬送容器50内に受容される。【選択図】図1
UNDERWATER MINING DEVICE AND MINING METHOD
PROBLEM TO BE SOLVED: To provide an underwater mining device capable of mining a soil material underwater effectively and a method for mining a soil material in water bottom.SOLUTION: A underwater mining device 10 has a submersible work bench 12 arranged in water bottom, drilling means 30 for excavating a soil material from water bottom, adjustment means 13 for adjusting drilling means 30 and introducing it to water bottom and a carrying pipe 18 for carrying a soil material excavated to a place away from the drilling means 30.A receiving part 40 for a carrying receptacle 50 is designed on the work bench 12 and the carrying receptacle 50 is supported and held releasably in the receiving part 40 and the carrying pipe 18 leads into the carrying receptacle 50. The soil material excavated is carried through the carrying pipe 18 and is received within the carrying receptacle 50.SELECTED DRAWING: Figure 1
【課題】地盤物質を水中で効率的に採掘できる、水中採掘デバイスおよび水底上で地盤物質を採掘する方法を提供すること。【解決手段】水中採掘デバイス10は、水底上に配置される沈水可能な作業台12と、水底から地盤物質を掘削するための掘削手段30と、掘削手段30を調節し、水底内へ導入するための調節手段13と、掘削手段30から離れた所に、掘削された地盤物質を搬送するための搬送管路18とを有する。搬送容器50のための受容部40が作業台12上に設計され、搬送容器50は、受容部40内に解放可能に支持され、保持され、搬送管路18は搬送容器50内へ通じている。搬送管路18を通って掘削された地盤物質が送られ、搬送容器50内に受容される。【選択図】図1
UNDERWATER MINING DEVICE AND MINING METHOD
水中採掘デバイスおよび採掘方法
WEIXLER LEONHARD (author) / FINKENZELLER STEFAN MICHAEL (author) / BERND VERHOEVEN (author) / HEIKO FELDERHOFF (author)
2018-06-14
Patent
Electronic Resource
Japanese
| Tema Archive | 1993
Dynamic Behaviour of Underwater Mining Pipe
| British Library Conference Proceedings | 2001