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公开(公告)号:US20190249830A1
公开(公告)日:2019-08-15
申请号:US16394146
申请日:2019-04-25
CPC分类号: F17C13/025 , B60K15/03006 , B60K2015/0321 , B60K2015/03315 , F17C13/02 , F17C13/026 , F17C2221/00 , F17C2221/012 , F17C2221/033 , F17C2223/0115 , F17C2223/0123 , F17C2223/0153 , F17C2250/03 , F17C2250/036 , F17C2250/0421 , F17C2250/043 , F17C2250/0439 , F17C2250/0443 , F17C2250/0478 , F17C2250/0482 , F17C2250/072 , F17C2270/0168 , F17C2270/0178 , Y02E60/321
摘要: A method monitors a pressure tank system of a stationary vehicle. The method detects a wake-up situation by use of sensor data of a main sensor of the vehicle. Furthermore, in reaction to the detection of a wake-up situation, the method activates a further resource for detecting and/or for evaluating sensor data with regard to the pressure tank system. Moreover, the method determines, by use of the further resource, whether one or more protective measures are to be carried out in relation to the pressure tank system and/or the surroundings thereof.
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公开(公告)号:US20190016312A1
公开(公告)日:2019-01-17
申请号:US15650766
申请日:2017-07-14
申请人: NIO USA, INC.
CPC分类号: B60S5/02 , B60L53/60 , B60L53/65 , B62D15/0285 , F17C5/007 , F17C13/02 , F17C2221/012 , F17C2221/033 , F17C2223/0123 , F17C2223/0161 , F17C2223/033 , F17C2223/036 , F17C2250/034 , F17C2250/0478 , F17C2250/0621 , F17C2265/065 , F17C2270/0139 , G05D1/0088 , G05D2201/0213
摘要: Various embodiments relate generally to autonomous vehicles and associated mechanical, electrical and electronic hardware, computing software, including autonomy applications, image processing applications, etc., computing systems, and wired and wireless network communications to facilitate autonomous control of vehicles, and, more specifically, to systems, devices, and methods configured to control driverless vehicles to facilitate coordination of driverless fuel replenishment. In some examples, a method may include monitoring an amount of fuel relative to a threshold, predicting fuel expenditure of an autonomous vehicle, identifying a candidate time frame, transmitting electronic messages from the autonomous vehicle to reserve a replenishment station, and activating the autonomous vehicle to drive autonomously to receive fuel replenishment.
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公开(公告)号:US20180209590A1
公开(公告)日:2018-07-26
申请号:US15933208
申请日:2018-03-22
发明人: Klaus SZOUCSEK , Andreas PELGER
CPC分类号: F17C13/123 , B67D7/3209 , B67D2007/329 , F17C13/02 , F17C2205/037 , F17C2221/012 , F17C2221/033 , F17C2223/0115 , F17C2223/0123 , F17C2223/0161 , F17C2223/033 , F17C2223/035 , F17C2223/036 , F17C2227/044 , F17C2250/03 , F17C2250/032 , F17C2250/043 , F17C2250/0439 , F17C2260/015 , F17C2260/038 , F17C2260/042 , F17C2270/0168 , F17C2270/0184 , Y02E60/321
摘要: A service device for a pressure vessel system of a motor vehicle includes a service-device-side refueling coupling part which is connectable to a motor-vehicle-side refueling coupling part of the motor vehicle and a controller for activating the pressure vessel system. A method for the service of the pressure vessel system includes producing a connection between the service device and the pressure vessel system and activating the pressure vessel system by the service device.
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公开(公告)号:US20170184251A1
公开(公告)日:2017-06-29
申请号:US15384567
申请日:2016-12-20
申请人: GE Oil & Gas, Inc.
发明人: Christopher Joseph Collins , Emmanuel G. Galindo , Daisy Yuen Lau , Anindra Mazumdar , Garrick Gerald Mullen , Mae Alane Plummer
CPC分类号: F17C5/06 , B60P3/2245 , F17C7/00 , F17C13/02 , F17C13/04 , F17C2201/0166 , F17C2205/0323 , F17C2205/0338 , F17C2223/035 , F17C2223/036 , F17C2225/033 , F17C2227/00 , F17C2227/0309 , F17C2227/036 , F17C2250/043 , F17C2250/0439 , F17C2250/0443 , F17C2250/0626 , F17C2250/0631 , F17C2250/0636 , F17C2265/068 , F17C2270/0168
摘要: A system that can offload compressed gas from a storage tank to a customer site. The system can have a fluid circuit that is configured to fit within a container structure, like a trailer, for mobility to remote locations. This fluid circuit can include a transfer unit to automatically switch between tanks. The transfer unit can couple with a heat exchanger. Downstream of the heat exchanger, the fluid circuit can reduce pressure of fluid from the tanks through multiple pressure reduction stages. Each of the pressure reduction stages can include a throttling device, for example, a pilot-type fluid regulator and a control valve assembly. The throttling device may be selected to maintain flow of fluid at least at, e.g., 35,000 scfh, in accordance with pressure drops in the incoming fluid from the tanks.
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公开(公告)号:US20170123025A1
公开(公告)日:2017-05-04
申请号:US14928040
申请日:2015-10-30
IPC分类号: G01R33/38 , F17C13/02 , G01R33/3815 , F17C5/04 , F17C3/08
CPC分类号: G01R33/3804 , F17C3/085 , F17C5/04 , F17C13/02 , F17C2250/0408 , F17C2250/061 , F17C2250/0689 , G01R33/3815
摘要: A dual-purpose displacer for adjusting a liquid cryogen level in a cryostat, the dual-purpose displacer includes a displacer wall having an exterior displacer surface and an interior displacer surface. The interior displacer surface defines a displacing chamber configured to contain a first portion of liquid cryogen. The exterior displacer surface is configured to displace a second portion of liquid cryogen contained in a cryogenic chamber of the cryostat. The dual-purpose displacer is disposed within the cryogenic chamber of the cryostat and configured to transfer the first portion of liquid cryogen contained within the displacing chamber to the cryogenic chamber.
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公开(公告)号:US20170114960A1
公开(公告)日:2017-04-27
申请号:US15312364
申请日:2015-05-15
发明人: Jin Kwang LEE , Sang Bong LEE
CPC分类号: F17C13/02 , F17C2221/033 , F17C2223/0161 , F17C2223/033 , F17C2227/0157 , F17C2250/0636 , F17C2265/01 , F17C2265/03 , F17C2265/033 , F17C2265/034 , F17C2265/037 , F25J1/0025 , F25J1/004 , F25J1/0202 , F25J1/023 , F25J1/0244 , F25J2205/02 , F25J2220/62 , F25J2240/40 , F25J2290/62 , Y02T10/16
摘要: The present invention relates to a liquefied gas treatment system in which a nitrogen control unit controls a content of nitrogen in a boil-off gas or a flash gas when a ratio of a nitrogen component of the flash gas is equal to or greater than a preset value. The efficiency of a boil-off gas compressor can be improved and the system can be stabilized by means of the nitrogen control unit.
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公开(公告)号:US09595461B2
公开(公告)日:2017-03-14
申请号:US14307955
申请日:2014-06-18
申请人: Daifuku Co., Ltd.
发明人: Masahiro Takahara , Toshihito Ueda
IPC分类号: H01L21/677 , F17C13/02 , H01L21/673
CPC分类号: H01L21/67769 , F17C13/02 , F17C2221/014 , F17C2227/044 , F17C2250/032 , F17C2270/0518 , F17C2270/059 , H01L21/67389 , H01L21/67393 , Y10T137/0419 , Y10T137/4259
摘要: A storage facility includes a controller for monitoring a supply state of the inactive gas for the plurality of storage sections and for controlling the plurality of supply amount adjusting devices. The controller is configured to monitor the supply state of the inactive gas for the plurality of storage sections by dividing the plurality of storage sections into a plurality of monitoring areas, and to control a plurality of supply amount adjusting devices such that the supply state of the inactive gas supplied to the storage sections belonging to each of the plurality of monitoring areas satisfies a set restricting condition defined in advance.
摘要翻译: 存储设备包括用于监视用于多个存储部分的非活性气体的供应状态并用于控制多个供给量调节装置的控制器。 控制器被配置为通过将多个存储部分分成多个监视区域来监视多个存储部分的非活性气体的供应状态,并且控制多个供给量调节装置,使得供给状态 提供给属于多个监视区域中的每一个的存储部分的非活性气体满足预先定义的设定限制条件。
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公开(公告)号:US20170059089A1
公开(公告)日:2017-03-02
申请号:US15308170
申请日:2015-04-30
发明人: Hiroshi UCHIDA , Tomofumi YOSHINAGA
CPC分类号: F17C5/06 , F17C13/02 , F17C13/025 , F17C13/026 , F17C2221/012 , F17C2227/04 , F17C2250/03 , F17C2250/0434 , F17C2250/0439 , F17C2250/0694 , F17C2260/02 , F17C2270/0184 , Y02E60/321
摘要: A fuel gas filling system detects at least one of a pressure of fuel gas supplied from a filling device and a temperature of the fuel gas in a fuel tank of a vehicle and determines whether or not there is a gas state fluctuation in which the pressure or temperature of the fuel gas suddenly changes. The fuel gas filling system executes either one of a first filling control of filling the fuel gas into the vehicle on the basis of at least one of the fuel gas pressure and the fuel gas temperature and a second filling control according to the gas state fluctuation. This system executes the first filling control in normal time and executes the second filling control of filling the fuel gas without using a fuel gas pressure detected by fuel gas state detection unit or the second filling control of filling the fuel gas without using a fuel gas temperature detected by the fuel gas state detection unit when it is determined by gas state fluctuation determination unit that there is the gas state fluctuation.
摘要翻译: 燃料气体填充系统检测从填充装置供给的燃料气体的压力和车辆的燃料箱中的燃料气体的温度中的至少一种,并且确定是否存在气体状态波动,其中压力或 燃气的温度突然变化。 燃料气体填充系统基于气体状态波动,基于燃料气体压力和燃料气体温度中的至少一个和第二填充控制,执行将燃料气体填充到车辆中的第一填充控制中的一个。 该系统在正常时间执行第一填充控制,并且执行填充燃料气体的第二填充控制,而不使用由燃料气体状态检测单元检测到的燃料气体压力或者不使用燃料气体温度来填充燃料气体的第二填充控制 当由气体状态波动判定单元确定存在气体状态波动时,由燃料气体状态检测单元检测。
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公开(公告)号:US20160356420A1
公开(公告)日:2016-12-08
申请号:US15239159
申请日:2016-08-17
发明人: Dae Jun CHANG , Pal, G BERGAN
CPC分类号: F17C1/08 , F17C1/02 , F17C1/12 , F17C3/025 , F17C13/02 , F17C2201/0157 , F17C2201/0161 , F17C2201/0166 , F17C2201/0171 , F17C2201/052 , F17C2203/013 , F17C2203/0304 , F17C2203/0345 , F17C2203/0629 , F17C2209/221 , F17C2221/033 , F17C2223/0161 , F17C2223/033 , F17C2223/035 , F17C2250/04 , F17C2250/0452 , F17C2250/0491 , F17C2260/011 , F17C2260/016 , F17C2270/0105
摘要: Provided is a pressure tank having a lattice structure, including: a tank body that has a high-pressure fluid accommodated therein and is manufactured to have a prismatic shape; and cell structures that are disposed in the prismatic tank body, are manufactured in a lattice form, arrive from one side wall of the tank body to the other side wall thereof facing it, and are orthogonally arranged regularly.
摘要翻译: 本发明提供一种具有格子状结构的压力罐,其特征在于,包括容纳在其中并具有棱柱形状的高压流体的罐体, 并且设置在棱柱形箱体中的单元结构以格子形式制造,从罐体的一个侧壁到达面向其的另一个侧壁,并且正规布置。
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公开(公告)号:US20160348842A1
公开(公告)日:2016-12-01
申请号:US15168008
申请日:2016-05-28
申请人: SONICU, LLC
发明人: Kent Eldon CROUSE
IPC分类号: F17C13/00 , G01F23/284 , G06Q10/08 , F17C1/00
CPC分类号: G01F23/2966 , B67D1/008 , B67D1/0406 , B67D2001/0092 , F17C1/005 , F17C1/04 , F17C1/12 , F17C13/003 , F17C13/02 , F17C13/028 , F17C2201/0104 , F17C2201/032 , F17C2201/056 , F17C2203/0391 , F17C2203/0629 , F17C2205/058 , F17C2209/2163 , F17C2221/013 , F17C2223/0153 , F17C2223/033 , F17C2250/032 , F17C2250/034 , F17C2250/0417 , F17C2250/0426 , F17C2250/0465 , F17C2250/0491 , F17C2250/0495 , F17C2260/024 , F17C2270/0745 , G01F23/284 , G06Q10/087
摘要: A tank-in-tank fill level indicator, making use of noninvasive tank-in-tank measuring techniques. A vibration device, such as an exciter or resonator, vibrates the outer tank at its natural frequency of vibration, thereby inducing the vibration of the inner tank and a beating effect as a result of the interaction of the vibrations of the two tanks. A vibration detection device, such as an accelerometer, detects the resultant beating effect of the two tanks' induced vibrations. A data processing device, such as a microcontroller, processes the detection data to obtain the liquid volume. A display, wired or wireless data transmission device, or combination thereof, is then used to provide tank or container fill-level information.
摘要翻译: 罐内罐装液位指示器,利用无创油罐测量技术。 诸如励磁机或谐振器的振动装置以其固有的振动频率使外箱振动,从而引起内箱的振动和由于两个箱的振动的相互作用而产生的打击效果。 诸如加速度计的振动检测装置检测由于两个罐引起的振动产生的打击效应。 诸如微控制器的数据处理装置处理检测数据以获得液体体积。 然后使用显示器,有线或无线数据传输装置或其组合来提供罐或容器填充级信息。
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