101 |
运输车的行走控制装置和方法及运输车 |
CN201010145311.9 |
2010-04-13 |
CN101920911B |
2013-08-07 |
詹纯新; 刘权; 高一平; 滕宏珍; 黄赞 |
本发明提供了一种运输车的行走控制装置,包括:前车控制装置,设置在前车车身上,前车控制装置具有前车控制模块;后车控制装置,设置在后车车身上,后车控制装置具有后车控制模块,后车控制模块与后车的驱动机构连接;整车控制装置,设置在前车或后车上,整车控制装置具有整车控制模块,整车控制模块与前车控制模块连接,整车控制装置与后车控制模块连接;前车位置检测器,设置在前车上并与整车控制模块连接;后车位置检测器,设置在后车上并与整车控制模块连接;前车与后车相对距离检测器,设置在连接架上并与整车控制模块连接。本发明还提供了一种运输车的行走控制方法和一种运输车。 |
102 |
运输车的行走控制装置和方法及运输车 |
CN201010145311.9 |
2010-04-13 |
CN101920911A |
2010-12-22 |
詹纯新; 刘权; 高一平; 滕宏珍; 黄赞 |
本发明提供了一种运输车的行走控制装置,包括:前车控制装置,设置在前车车身上,前车控制装置具有前车控制模块;后车控制装置,设置在后车车身上,后车控制装置具有后车控制模块,后车控制模块与后车的驱动机构连接;整车控制装置,设置在前车或后车上,整车控制装置具有整车控制模块,整车控制模块与前车控制模块连接,整车控制装置与后车控制模块连接;前车位置检测器,设置在前车上并与整车控制模块连接;后车位置检测器,设置在后车上并与整车控制模块连接;前车与后车相对距离检测器,设置在连接架上并与整车控制模块连接。本发明还提供了一种运输车的行走控制方法和一种运输车。 |
103 |
Heavy construction installation method |
JP2009033940 |
2009-02-17 |
JP2010189888A |
2010-09-02 |
KANEKO YUJI; MIYAHARA RYOHEI; MAEZAWA SUMUTO; MORITA MASAAKI; OKANO TAKASHI |
PROBLEM TO BE SOLVED: To provide a heavy construction installation method which does not need a secondarily transport in a construction field even if an installation position of a heavy construction is apart from a berthing position of a transport ship.
SOLUTION: A movable area 20A, 20B where a ground plane is reinforced so that a heavy hoisting machine for installing a heavy construction in a building 40 is movable is constructed so as to include a circle drawn around an installation position Px in the building 40 with a maximum operating radius Rx of the heavy hoisting machine relative to a weight of the heavy construction being as a radius, and a circle drawn around a loaded position Q of the heavy construction at a transport ship 31 coming alongside a landing place 32a, 32b with the maximum operating radius Rx being as a radius.
COPYRIGHT: (C)2010,JPO&INPIT |
104 |
Transportation system |
US15007883 |
2016-01-27 |
US09604798B2 |
2017-03-28 |
Brogan Bambrogan; Joshua Giegel |
A high-speed transportation system includes at least one transportation structure having at least one track, at least one capsule configured for travel through the at least one structure between a plurality of stations, a propulsion system adapted to propel the at least one capsule through the structure, and a levitation system adapted to levitate the capsule within the structure. At least one track is positioned to provide balancing force vectors to achieve stability for the capsule. |
105 |
Transportation system |
US15007452 |
2016-01-27 |
US09517901B2 |
2016-12-13 |
Brogan Bambrogan; Joshua Giegel |
A high-speed transportation system, includes at least one transportation tube having at least one track, at least one capsule configured for travel through the at least one tube between stations, a propulsion system adapted to propel the at least one capsule through the tube, a levitation system adapted to levitate the capsule within the tube. The at least one transportation tube is structured and arranged as a net-tension tube. |
106 |
TRANSPORTATION SYSTEM |
US15007829 |
2016-01-27 |
US20160230350A1 |
2016-08-11 |
Brogan BAMBROGAN; Joshua GIEGEL |
A method for manufacturing at least one transportation tube having a plurality of transportation tube sections for a high-speed transportation system. The method includes manufacturing the tube sections in-situ adjacent to an approximate path of the transportation system where the tube sections are to be positioned. |
107 |
TRANSPORTATION SYSTEM |
US15007822 |
2016-01-27 |
US20160229419A1 |
2016-08-11 |
Brogan BAMBROGAN; Joshua GIEGEL |
A high-speed transportation system including at least one transportation tube having at least one track, at least one capsule configured for travel through the at least one tube along a travel path between stations, a propulsion system adapted to propel the at least one capsule through the tube, and a levitation system adapted to levitate the capsule within the tube. At least a portion of the travel path is arranged over or in a body of water. |
108 |
Heavy construction installation method |
US12706995 |
2010-02-17 |
US08376158B2 |
2013-02-19 |
Yuji Kaneko; Ryohel Miyahara; Sumito Maezawa; Kensuke Morita; Takashi Okano |
There is provided a heavy construction installation method which does not need a secondarily transport in a construction field even if an installation position of a heavy construction is apart from a berthing position of a transport ship. A movable area where a ground plane is reinforced so that a heavy hoisting machine for installing a heavy construction in a building is movable is constructed so as to include a circle drawn around an installation position in the building with a maximum operating radius of the heavy hoisting machine relative to a weight of the heavy construction being as a radius, and a circle drawn around a loaded position of the heavy construction at a transport ship coming alongside a landing place with the maximum operating radius being as a radius. |
109 |
AN APPARATUS FOR STORING ROLLING MATERIAL IN A PILE AND RECLAIMING FROM THE PILE |
US12997640 |
2009-06-10 |
US20110088998A1 |
2011-04-21 |
Pekka KOKKO |
The invention relates to an apparatus for stacking rolling material, such as wood chips, bark or grain into a pile (10) and reclaiming from the pile (10) to a conveyor (20) located below the storing point, said apparatus comprising a center column (30) that supports a stacker boom (40) and a reclaimer boom (50) that are hinged to be turnable independently of each other in relation to the vertical axis of the center boom (30). A characteristic feature of the apparatus is that at least at one point that is hinged in relation to the center column (30) the supporting is arranged resting on a support wheel (60, 60′, 60″) arranged around the frame of the center column (30). |
110 |
輸送システム |
JP2017555466 |
2016-01-27 |
JP2018513665A |
2018-05-24 |
バンブローガン ブローガン; ジーゲル ジョシュア |
本発明は、少なくとも一つのトラックを有する少なくとも一つの輸送機構と、複数のステーションの間で少なくとも一つの輸送機構の中を移動する少なくとも一つのカプセルと、輸送機構の中で少なくとも一つのカプセルを推進する推進システムと、輸送機構の中でカプセルを浮揚させる浮揚システムと、を具備する高速輸送システムに関する。少なくとも一つのトラックは、複数の力ベクトルのバランスを取り、カプセルを安定させるように配置されている。 |
111 |
It stores the rolling material into a pile, a device for recovering from a pile |
JP2011513015 |
2009-06-10 |
JP5604421B2 |
2014-10-08 |
コッコ、ペッカ; オーボ、ヘイッキ |
|
112 |
Transportation system |
US15007822 |
2016-01-27 |
US09511959B2 |
2016-12-06 |
Brogan Bambrogan; Joshua Giegel |
A high-speed transportation system including at least one transportation tube having at least one track, at least one capsule configured for travel through the at least one tube along a travel path between stations, a propulsion system adapted to propel the at least one capsule through the tube, and a levitation system adapted to levitate the capsule within the tube. At least a portion of the travel path is arranged over or in a body of water. |
113 |
TRANSPORTATION SYSTEM |
US15007883 |
2016-01-27 |
US20160229416A1 |
2016-08-11 |
Brogan BAMBROGAN; Joshua GIEGEL |
A high-speed transportation system includes at least one transportation structure having at least one track, at least one capsule configured for travel through the at least one structure between a plurality of stations, a propulsion system adapted to propel the at least one capsule through the structure, and a levitation system adapted to levitate the capsule within the structure. At least one track is positioned to provide balancing force vectors to achieve stability for the capsule. |
114 |
APPARATUS AND METHOD FOR PERFORMING A TIMED AND CONTROLLED MOVEMENT AND POSITIONING OF AN OBJECT |
US14025412 |
2013-09-12 |
US20140017050A1 |
2014-01-16 |
Michael Benson; Gilberto Alex Merchan |
A method and apparatus for lowering a display object in synchronization with a particular timing or event. The display object is lowered by a lifting apparatus. In particular, the display object is a guitar and the lifting apparatus is a crane. |
115 |
Apparatus for storing rolling material in a pile and reclaiming from the pile |
US12997640 |
2009-06-10 |
US08387778B2 |
2013-03-05 |
Pekka Kokko; Heikki Ohvo |
The invention relates to an apparatus for stacking rolling material, such as wood chips, bark or grain into a pile (10) and reclaiming from the pile (10) to a conveyor (20) located below the storing point, said apparatus comprising a center column (30) that supports a stacker boom (40) and a reclaimer boom (50) that are hinged to be turnable independently of each other in relation to the vertical axis of the center boom (30). A characteristic feature of the apparatus is that at least at one point that is hinged in relation to the center column (30) the supporting is arranged resting on a support wheel (60, 60′, 60″) arranged around the frame of the center column (30). |
116 |
APPARATUS AND METHOD FOR PERFORMING A TIMED AND CONTROLLED MOVEMENT AND POSITIONING OF AN OBJECT |
US12732712 |
2010-03-26 |
US20100242321A1 |
2010-09-30 |
Michael BENSON; Gilberto Alex Merchan |
A method and apparatus for lowering a display object in synchronization with a particular timing or event. The display object is lowered by a lifting apparatus. In particular, the display object is a guitar and the lifting apparatus is a crane. |
117 |
HEAVY CONSTRUCTION INSTALLATION METHOD |
US12706995 |
2010-02-17 |
US20100206830A1 |
2010-08-19 |
Yuji Kaneko; Ryohel Miyahara; Sumko Maezawa; Kensuke Morita; Takashi Okano |
There is provided a heavy construction installation method which does not need a secondarily transport in a construction field even if an installation position of a heavy construction is apart from a berthing position of a transport ship. A movable area where a ground plane is reinforced so that a heavy hoisting machine for installing a heavy construction in a building is movable is constructed so as to include a circle drawn around an installation position in the building with a maximum operating radius of the heavy hoisting machine relative to a weight of the heavy construction being as a radius, and a circle drawn around a loaded position of the heavy construction at a transport ship coming alongside a landing place with the maximum operating radius being as a radius. |
118 |
AN APPARATUS FOR STORING ROLLING MATERIAL IN A PILE AND RECLAIMING FROM THE PILE |
EP09761855.7 |
2009-06-10 |
EP2282958A1 |
2011-02-16 |
KOKKO, Pekka; OHVO, Heikki |
The invention relates to an apparatus for stacking rolling material, such as wood chips, bark or grain into a pile (10) and reclaiming from the pile (10) to a conveyor (20) located below the storing point, said apparatus comprising a center column (30) that supports a stacker boom (40) and a reclaimer boom (50) that are hinged to be turnable independently of each other in relation to the vertical axis of the center boom (30). A characteristic feature of the apparatus is that at least at one point that is hinged in relation to the center column (30) the supporting is arranged resting on a support wheel (60, 60´, 60´´) arranged aroung the frame of the center column (30). |
119 |
ELEVATION-TYPE STAIR STRUCTURE |
US15962360 |
2018-04-25 |
US20180320383A1 |
2018-11-08 |
Cheng-Yu HO |
An elevation-type stair structure comprises: a first stair module, including plural first treads and a first wall surface having a first door and a second door; a second stair module, including plural second treads and a second wall surface having a third door and a fourth door; and an elevator module, enabling the first stair module or the second stair module to be ascended or descended, when the second stair module is ascended for being above a location defined at one side of the first stair module, the second door is aligned with the third door, when the second stair module is descended for being below a location defined at one side of the first stair module, the first door is aligned with the fourth door. Accordingly, a user can walk through the first stair module and the second stair module then return to an original location. |
120 |
Transportation system |
US15007829 |
2016-01-27 |
US10093493B2 |
2018-10-09 |
Brogan Bambrogan; Joshua Giegel |
A method for manufacturing at least one transportation tube having a plurality of transportation tube sections for a high-speed transportation system. The method includes manufacturing the tube sections in-situ adjacent to an approximate path of the transportation system where the tube sections are to be positioned. |