-
公开(公告)号:US20210234450A1
公开(公告)日:2021-07-29
申请号:US17173849
申请日:2021-02-11
Applicant: Hyperloop Technologies, Inc.
Inventor: James DORRIS , Andrew DOYLE , Brogan BAMBROGAN , Joshua GIEGEL
Abstract: A continuous winding for a motor that includes a winding block comprising a plurality of coils aligned together to form at least part of a motor winding, where each of the plurality of coils includes a left portion and a right portion that are offset from each other in spaced parallel planes, so that the plurality of coils aligned together are nested together, so that a portion of each of the plurality of coils aligned together supports a portion of an adjacent coil at least laterally and vertically, and a resin coating at least partially covers the winding block to positionally fix the aligned plurality of coils together.
-
2.发明申请EXPANSION JOINTS, DAMPERS AND CONTROL SYSTEMS FOR A TUBULAR TRANSPORTATION STRUCTURE STABILITY SYSTEM 审中-公开用于管道运输结构稳定系统的扩展接头,阻尼器和控制系统公开(公告)号:US20160230915A1
公开(公告)日:2016-08-11
申请号:US15007745
申请日:2016-01-27
Applicant: Hyperloop Technologies, Inc.
Inventor: Kyle COTHERN , Michael GAUNT , Thomas RONACHER , Daniel SHAFRIR , Brogan BAMBROGAN , Joshua GIEGEL
IPC: F16L51/00
Abstract: A tubular structure stability system includes at least one tube having tube sections and at least one pillar supporting the tube. A tube movement structure is also provided and configured to enable relative movement of the tube sections and/or movement of the tube relative to the at least one pillar.
Abstract translation: 管状结构稳定系统包括至少一个具有管段的管和至少一个支撑管的支柱。 管运动结构还被设置和配置成使得管部分的相对运动和/或管相对于至少一个柱的运动。
-
公开(公告)号:US20210253379A1
公开(公告)日:2021-08-19
申请号:US17237584
申请日:2021-04-22
Applicant: Hyperloop Technologies, Inc.
Inventor: Brogan BAMBROGAN , Joshua GIEGEL
IPC: B65G67/60 , B61L23/00 , B61L15/00 , B61L21/10 , B61L23/34 , B61L25/02 , B61L27/00 , B61L27/04 , E01B25/00 , B60L13/10 , B60L13/00 , B60L13/03 , B61C11/06 , B60L13/04 , B63B35/00 , B61B13/10 , B63B27/28 , B23K31/02 , B23P15/20 , B65G67/24 , B66C25/00 , E01B2/00 , E02D29/00 , E02D29/063 , B60L13/06 , B61B13/08 , B61L19/00 , B23P11/02 , B61B1/02 , E01B25/12
Abstract: A high-speed transportation system, the system including at least one transportation path having at least one track, at least one transportation vehicle configured for travel along the at least one transportation path, a propulsion system adapted to propel the at least one transportation vehicle along the at least one transportation path; and a levitation system adapted to levitate the transportation vehicle along the at least one transportation path. The at least one transportation vehicle additionally comprises wheels for at least intermittently supporting the transportation vehicle on the at least one track.
-
公开(公告)号:US20190300301A1
公开(公告)日:2019-10-03
申请号:US16438779
申请日:2019-06-12
Applicant: HYPERLOOP TECHNOLOGIES, INC.
Inventor: Brogan BAMBROGAN , Joshua GIEGEL
IPC: B65G67/60 , B60L13/10 , B60L13/00 , E01B25/00 , B60L13/03 , B61C11/06 , B60L13/04 , B61L27/04 , B61L27/00 , B61L25/02 , B61L23/34 , B61L21/10 , B61L15/00 , B61L23/00 , B61B13/08 , B60L13/06 , E02D29/063 , B63B38/00 , E02D29/00 , B61B13/10 , E01B25/12 , B61B1/02 , B23P11/02 , B61L19/00 , B23P15/20 , B65G67/24 , B66C25/00 , E01B2/00 , B23K31/02 , B63B27/28
Abstract: A method of monitoring tube integrity of a high-speed transportation system. The high-speed transportation system includes at least one tube structure having at least one track, at least one capsule configured for travel through the at least one tube 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. The tube structure is maintained as a low-pressure environment. The method includes directing a vehicle having at least one sensor along a tube path; and detecting a plume of air leaked from the low-pressure environment using the at least one sensor.
-
公开(公告)号:US20170207735A1
公开(公告)日:2017-07-20
申请号:US15478800
申请日:2017-04-04
Applicant: Hyperloop Technologies, Inc.
Inventor: Sandhya Rani JETTI , Brogan BAMBROGAN , Joshua GIEGEL , George O'NEAL , Nima BAHRAMI , James DORRIS , Jiaqi LIANG
Abstract: Method for controlling a dynamic linear motor. Method includes defining a path over which a rotor is to travel, placing stator segments at least along portions of the path where the rotor may be one of accelerated and decelerated and supplying a variable amplitude and frequency of voltage to power the stator segments in a synchronized manner so that, as the rotor approaches stator segments, the stator segments are powered and, as the rotor departs stator segments, the stator segments are depowered.
-
Patent Agency Ranking
公开(公告)号:US20170066457A1
公开(公告)日:2017-03-09
申请号:US15353181
申请日:2016-11-16
Applicant: HYPERLOOP TECHNOLOGIES, INC.
Inventor: Tadeh AVETIAN , Helen DURDEN , Ryan OKERSON , Brogan BAMBROGAN , Joshua GIEGEL
CPC classification number: B61B13/10 , B60T1/14 , B61B13/08 , B61C11/06 , B61C15/00 , B61H9/00 , B61H13/00 , B65G51/20 , F16D63/008 , Y10S505/908
Abstract: A transport vehicle for traveling in a low-pressure environment structure is provided. The transport vehicle may include a deployable decelerator configured to deploy from the transport vehicle to decrease a distance between the transport vehicle and the low-pressure environment structure and a communication network that monitors and collects a plurality of operation parameters from the transport vehicle and the low-pressure environment structure to control deployment of the deployable decelerator based on a plurality of predetermined triggering events.
Abstract translation: 提供一种用于在低压环境结构中行驶的运输车辆。 运输车辆可以包括可布置的减速器,其构造成从运输车辆部署以减少运输车辆和低压环境结构之间的距离;以及通信网络,其从运输车辆监控和收集多个运行参数,并且低 压力环境结构,以基于多个预定的触发事件来控制可部署减速器的部署。
-
公开(公告)号:US20180022219A1
公开(公告)日:2018-01-25
申请号:US15689860
申请日:2017-08-29
Applicant: Hyperloop Technologies, Inc.
Inventor: Filip FINODEYEV , Joshua GIEGEL , Brogan BAMBROGAN , George O'NEAL , Kaveh HOSSEINI
IPC: B60L11/00
CPC classification number: B60L11/002 , B60L50/53 , B60L50/90 , Y02T10/7005
Abstract: System for converting transmitted energy to vehicle movement and power conversion system movable within a waveguide. System for converting transmitted energy to vehicle movement includes a structure having an elongated tubular interior; a movable vehicle structured and arranged to move through the elongated tubular interior; at least one energy source arranged at a fixed location within the elongated tubular interior to transmit energy; and a receiver, carried by the movable vehicle, configured to receive the transmitted energy from the at least one energy source and to convert the received energy into at least one of electrical power and thrust for moving the vehicle.
-
公开(公告)号:US20170106879A1
公开(公告)日:2017-04-20
申请号:US15386549
申请日:2016-12-21
Applicant: Hyperloop Technologies, Inc.
Inventor: James T. COUTRE , Joshua GIEGEL , Brogan BAMBROGAN , Filip FINODEYEV , Casey HANDMER
IPC: B61B13/10 , E02D29/045
CPC classification number: B61B13/10 , E02D29/045 , E02D29/063
Abstract: A structure having at least one flexible material structured and arranged to withstand a tensile load, at least one support structure configured to support the flexible material and structured and arranged to withstand a compressive load, and at least one enclosed volume at least partially defined by the at least one flexible material, the at least one enclosed volume being configured to be maintained as a low-pressure environment
-
公开(公告)号:US20160230899A1
公开(公告)日:2016-08-11
申请号:US15007712
申请日:2016-01-27
Applicant: Hyperloop Technologies, Inc.
Inventor: Kyle COTHERN , Michael GAUNT , Thomas RONACHER , Daniel SHAFRIR , Brogan BAMBROGAN , Joshua GIEGEL
CPC classification number: F16K3/30 , B61B13/10 , F16K1/2014 , F16K3/02 , F16K3/03 , F16K3/04 , F16K3/06 , F16K3/12 , F16K7/10 , F16K27/044
Abstract: A high-speed transportation system, the 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 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, and at least one tube sealer arranged along the at least one tube and configured to create an airlock in the at least one tube. In embodiments, the tube sealer may include a gate valve and/or an airbag.
Abstract translation: 一种高速运输系统,该系统包括至少一个具有至少一个轨道的运输管道,至少一个胶囊构造成用于通过站间的至少一个管道行进;推进系统,适于推动至少一个胶囊通过 管; 悬浮系统,其适于使所述管内的所述胶囊悬浮;以及至少一个管密封件,沿着所述至少一个管布置并且构造成在所述至少一个管中产生气闸。 在实施例中,管密封器可以包括闸阀和/或气囊。
-
公开(公告)号:US20160229419A1
公开(公告)日:2016-08-11
申请号:US15007822
申请日:2016-01-27
Applicant: HYPERLOOP TECHNOLOGIES, INC.
Inventor: Brogan BAMBROGAN , Joshua GIEGEL
CPC classification number: B65G67/603 , B23K31/027 , B23P11/025 , B23P15/20 , B60L13/003 , B60L13/006 , B60L13/03 , B60L13/04 , B60L13/06 , B60L13/10 , B60L2200/26 , B61B1/02 , B61B13/08 , B61B13/10 , B61C11/06 , B61L15/0027 , B61L19/00 , B61L21/10 , B61L23/002 , B61L23/34 , B61L25/021 , B61L25/025 , B61L27/0038 , B61L27/04 , B61L2210/04 , B63B27/28 , B63B38/00 , B65G67/24 , B66C25/00 , E01B2/003 , E01B25/00 , E01B25/12 , E01B25/30 , E02D29/00 , E02D29/04 , E02D29/063 , Y02T30/40
Abstract: 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.
Abstract translation: 一种高速运输系统,包括具有至少一个轨道的至少一个运输管道,至少一个胶囊,其构造成沿着车站之间的行进路径行进通过所述至少一个管道;推进系统,适于推动所述至少一个胶囊通过 管和适于悬浮管内的胶囊的悬浮系统。 行进路径的至少一部分布置在水体的上方或内部。
-
-
-
-
-
-
-
-
-
Search Results
24
records
(took 0.418 seconds)
