公开(公告)号：US20240337087A1

公开(公告)日：2024-10-10

申请号：US18132416

申请日：2023-04-09

Applicant: Thornton Equipment Services, Inc.

Inventor： Jason Verbeek

IPC: E02F1/00 ,  E02F3/18 ,  E02F3/20 ,  E02F3/65

CPC classification number: E02F1/00 ,  E02F3/188 ,  E02F3/205 ,  E02F3/654

Abstract: A method for transferring endangered land from a first location in a first arrangement to a second location in the same first arrangement is disclosed. The method includes cutting, with a first cutting tool, a first pair of parallel rows in a first section of land of a first location. Then cutting a second pair of parallel rows, in the first section, that are perpendicular to the first pair of parallel rows creating an intersection of land between the first and second rows defining a transferable parcel and cutting a bottom side of the transferable parcel of land. The next step in the method is to lift the transferable parcel from a ground, placing the transferable parcel onto a portable bed, transferring the portable bed to the second location, and transplanting the transferable parcel into a receiving section of land of the second location in the same first arrangement.

公开(公告)号：US11650589B2

公开(公告)日：2023-05-16

申请号：US16316676

申请日：2017-09-21

Applicant: Komatsu Ltd.

Inventor： Koji Takeda ,  Akiharu Nishijima

IPC: G05D1/02 ,  G01C21/34 ,  G01C21/20 ,  E02F1/00 ,  B60P1/04 ,  B60P1/16

CPC classification number: G05D1/0214 ,  B60P1/04 ,  E02F1/00 ,  G01C21/20 ,  G01C21/34 ,  G05D1/02 ,  G05D1/0289 ,  B60P1/16 ,  G05D2201/0202

Abstract: A management system for a work vehicle, includes: a traveling condition data generation unit configured to generate traveling condition data that causes a work vehicle to enter with forward movement, from an entrance of a workplace to a work point of the workplace, and exit with backward movement, from the work point to an exit of the workplace; and an output unit configured to output the traveling condition data to the work vehicle.

公开(公告)号：US20210324603A1

公开(公告)日：2021-10-21

申请号：US16850641

申请日：2020-04-16

Applicant: DEERE & COMPANY

Inventor： MEGAN E. MAROTZ ,  BRYAN J. RAUSCH

IPC: E02F3/43 ,  E02F1/00 ,  E02F5/02 ,  E02F9/26

Abstract: An excavator comprises a frame, a boom assembly and a control architecture. The control architecture may include a first actuator, a second actuator, a third actuator, a user input interface, a storage medium having a control algorithm, and a controller configured to execute the control algorithm to: receive a target grade request from one or more of the user input interface and a storage medium; receive a dipper stick position relative to the pivot axis; receive a direction of movement of the dipper stick; determine whether the dipper stick position is outside the pivot axis or inside the pivot axis; and operate the first actuator in automatic mode to automatically adjust the pivot axis height relative to the frame when the dipper stick position and the direction of movement of the dipper stick are within the automatic control region for automatically maintaining a target grade.

公开(公告)号：US10280585B2

公开(公告)日：2019-05-07

申请号：US14896703

申请日：2014-06-11

Applicant: SOLETANCHE FREYSSINET

Inventor： Bertrand Steff De Verninac ,  Sabine Darson-Balleur ,  Florence Renalier ,  Michel Coudry

IPC: E02D17/18 ,  E02D29/02 ,  E02D29/05 ,  E02D17/13 ,  E02F1/00 ,  G01R29/08 ,  G01R29/12 ,  G01R29/24 ,  G01R33/02

Abstract: The invention relates to an installation (10) for making a continuous wall in ground (S), the installation comprising: an excavation machine (14) having a frame (16) with a bottom end (16b); determination means (80) for periodically determining the offset between the frame and a first screen while making a second screen in the ground juxtaposed with the first screen; and correction means (50) for periodically correcting the position of the frame (16) so as to reduce the offset as determined by the determination means between the frame (16) and the first screen (E1), and maintain overlap between the longitudinal side of the frame and the longitudinal side of the first screen in such a manner that the second screen is secant with the first screen (E1) over the entire length of the shorter of the first and second screens, thereby forming the wall that is continuous.

公开(公告)号：US10006187B2

公开(公告)日：2018-06-26

申请号：US14767287

申请日：2014-02-11

Applicant: Nautilus Minerals Singapore Pte Ltd

Inventor： Malcolm Leishman Roper ,  Sean Michael Plunkett ,  John Michael Parianos ,  Roland Gunter Berndt

IPC: E02F7/10 ,  E02F3/88 ,  B63C7/00 ,  B63C11/52 ,  E21C50/00 ,  E02F5/00 ,  E02F7/00 ,  E02F1/00 ,  E02F7/02 ,  E02F9/06 ,  E02F9/26 ,  B63B21/66

CPC classification number: E02F7/10 ,  B63B21/66 ,  B63C7/00 ,  B63C11/52 ,  E02F1/00 ,  E02F3/88 ,  E02F5/006 ,  E02F7/005 ,  E02F7/023 ,  E02F9/062 ,  E02F9/262 ,  E02F9/264 ,  E21C50/00

Abstract: A seafloor nodule concentrating system is provided. The seafloor nodule concentrating system has a surface vessel and an undersea steering vehicle secured to the surface vessel. The undersea steering vehicle is adapted to be towed by the surface vessel. The seafloor nodule concentrating system also has a nodule collecting apparatus connected to the undersea steering vehicle. The nodule collecting apparatus is located on the seafloor. The seafloor nodule concentrating system also has a position determination device adapted to determine the position of the nodule collecting apparatus and communicate position information of the nodule collecting apparatus to the undersea steering vehicle and surface vessel.

公开(公告)号：US10000398B2

公开(公告)日：2018-06-19

申请号：US15121056

申请日：2014-12-05

Applicant: NANJING UNIVERSITY ECOLOGICAL RESEARCH INSTITUTE OF CHANGSHU

Inventor： Shuqing An ,  Lingyan Zhou ,  Lijun Ren ,  Yuyuan Zhang

IPC: E02B3/02 ,  C02F3/32 ,  C02F3/30 ,  E02B3/12 ,  E02B3/18 ,  E02F1/00 ,  C02F3/04 ,  C02F103/00

CPC classification number: C02F3/327 ,  C02F3/046 ,  C02F3/301 ,  C02F3/308 ,  C02F2103/007 ,  E02B3/02 ,  E02B3/023 ,  E02B3/026 ,  E02B3/122 ,  E02B3/18 ,  E02F1/00 ,  Y02A10/383 ,  Y02W10/15

Abstract: An in-situ purification island structure and the construction method thereof, which refers to the field of sewage treatment technology. The in-situ purification island structure comprises the upstream purification island main body and the downstream purification island main body, in which the upstream purification island main body comprises the first base backfill layer, the first lower layer, the first hydrophobic layer, the first water permeable layer and the first upper layer. The first ecological bags are set around the surface of the first base backfill layer. The first lower layer has center formed with a lower layer backfill transitional zone. The first hydrophobic layer has center formed with a hydrophobic layer backfill transitional zone. It has a good natural purifying effect on the sewage, saves the investment and cost, no limitation on the applications, the capacity and efficiency of the purifying is high, and saves the resource.

公开(公告)号：US20170191246A1

公开(公告)日：2017-07-06

申请号：US14987415

申请日：2016-01-04

Applicant: Caterpillar Inc.

Inventor： Paul Russell FRIEND ,  Kenneth L. STRATTON ,  Michael Edward BRANDT ,  James D. HUMPHREY ,  James William RYAN

IPC: E02F9/26 ,  E02F9/24 ,  E02F9/20 ,  E02F1/00

CPC classification number: E02F9/26 ,  E02F1/00 ,  E02F3/308 ,  E02F3/434 ,  E02F3/437 ,  E02F9/2033 ,  E02F9/24 ,  E02F9/265

Abstract: An excavation system is disclosed for use with an excavation machine having a work tool and with an IPCC. The excavation system may have a location device configured to generate a first signal indicative of a location of the excavation machine, a display, and at least one controller in communication with the location device and the display. The controller may be configured to receive a second signal indicative of a location of the IPCC, and to cause representations of the excavation machine and the IPCC to be simultaneously shown on the display based on the first and second signals. The at least one controller may also be configured to determine a swing radius of the work tool, and to selectively cause an indication of alignment between the IPCC and the swing radius to be shown on the display based on the first signal, the second signal, and the swing radius.

公开(公告)号：US09022687B2

公开(公告)日：2015-05-05

申请号：US14046952

申请日：2013-10-05

Applicant: Sean Warren Smith

Inventor： Sean Warren Smith

IPC: E02F5/22 ,  E02F1/00 ,  E02B3/00 ,  E02B3/02

CPC classification number: E02F5/22 ,  B07B1/04 ,  B07B1/40 ,  E02B3/02 ,  E02F7/06 ,  Y02P40/30

Abstract: A system and method for creating sand bars or gravel bars in fresh water includes the use of a hopper to mix pressurized water and gavel to create slurry. The slurry is discharged by a worker in the water so as to make a gravel bar or other structure to help restore wild life. A new hopper 100 may comprise a top box section 120, the top box section having an upper end attached to a grate system 110, a pair of lateral spill shields 115 and a rear spill shield 117; and the top box section may have a lower end attached to a funnel assembly 130; the funnel assembly may comprise a top section 132 and a constrained lower section 135, the constrained lower section may comprise a plurality of inside angled lower edges 137 all terminating within a section of an angled hopper pipe 140.

Abstract translation: 用于在淡水中产生砂棒或砾石棒的系统和方法包括使用料斗来混合加压水和木槌以产生浆料。 泥浆由工人在水中排出，以制作砾石棒或其他结构，以帮助恢复野生生物。 新的料斗100可以包括顶盒部分120，顶盒部分具有连接到格栅系统110的上端，一对侧向溢出屏蔽115和后溢出屏蔽117; 并且顶盒部分可以具有连接到漏斗组件130的下端; 漏斗组件可以包括顶部部分132和受约束的下部部分135，受约束的下部部分可以包括多个内倾斜的下边缘137，其全部终止于成角度的料斗管140的一部分内。

公开(公告)号：US20150098764A1

公开(公告)日：2015-04-09

申请号：US14046952

申请日：2013-10-05

Applicant: Sean Warren Smith

Inventor： Sean Warren Smith

IPC: E02F5/22 ,  E02B3/00 ,  E02B3/02 ,  E02F1/00

CPC classification number: E02F5/22 ,  B07B1/04 ,  B07B1/40 ,  E02B3/02 ,  E02F7/06 ,  Y02P40/30

Abstract: A system and method for creating sand bars or gravel bars in fresh water includes the use of a hopper to mix pressurized water and gavel to create slurry. The slurry is discharged by a worker in the water so as to make a gravel bar or other structure to help restore wild life. A new hopper 100 may comprise a top box section 120, the top box section having an upper end attached to a grate system 110, a pair of lateral spill shields 115 and a rear spill shield 117; and the top box section may have a lower end attached to a funnel assembly 130; the funnel assembly may comprise a top section 132 and a constrained lower section 135, the constrained lower section may comprise a plurality of inside angled lower edges 137 all terminating within a section of an angled hopper pipe 140.

Abstract translation: 用于在淡水中产生砂棒或砾石棒的系统和方法包括使用料斗来混合加压水和木槌以产生浆料。 泥浆由工人在水中排出，以制作砾石棒或其他结构，以帮助恢复野生生物。 新的料斗100可以包括顶盒部分120，顶盒部分具有连接到格栅系统110的上端，一对侧向溢出屏蔽115和后溢出屏蔽117; 并且顶盒部分可以具有连接到漏斗组件130的下端; 漏斗组件可以包括顶部部分132和受约束的下部部分135，受约束的下部部分可以包括多个内倾斜的下边缘137，其全部终止于成角度的料斗管140的一部分内。

公开(公告)号：US20150003194A1

公开(公告)日：2015-01-01

申请号：US14243929

申请日：2014-04-03

Applicant: CGG SERVICES SA

Inventor： Thierry BRIZARD

IPC: G01V1/16 ,  E02F1/00

CPC classification number: G01V1/162 ,  B63B21/26 ,  G01V1/047 ,  G01V1/166 ,  G01V1/38 ,  G01V1/3852

Abstract: Node, system and method for collecting seismic data. A node for collecting seismic data includes a base configured to land on the ocean floor; and a head connected to the base through a connecting member and configured to bury itself into the ocean floor. The head includes a seismic sensor configured to detect seismic data and first to third burying units configured to bury the head.

Abstract translation: 用于收集地震数据的节点，系统和方法。 用于收集地震数据的节点包括被配置为落在海底的基座; 以及通过连接构件连接到基座并被构造成将其自身埋入海底的头部。 头部包括被配置为检测地震数据的地震传感器和被配置为埋入头部的第一至第三掩埋单元。