公开(公告)号：US08376303B2

公开(公告)日：2013-02-19

申请号：US13111929

申请日：2011-05-19

Applicant: Zhi-Gang Yang ,  Hui Yuan ,  Ping Yu

Inventor： Zhi-Gang Yang ,  Hui Yuan ,  Ping Yu

IPC: A47G29/00

CPC classification number: H04M1/04 ,  F16M11/22 ,  F16M13/00

Abstract: A support includes a base, an upper cover connected to the base, a support plate, and a base. The upper cover includes a recess for receiving a bottom of an electronic device, and two openings defined in a bottom of the recess at two opposite ends of the recess for movably receiving pressing members. A pair of pressing members are respectively moveably received in the two openings. Each of the pair of pressing members includes a protruding post rotatably connected to the base. Two elastic members arrange in the base to respectively apply a recoiling, spring force to the pressing members when compressing and releasing. When urged by an electronic device, the pressing members deflect downward to form a first receiving space; and when the electronic device is removed, the pressing members are recoiled by the elastic members and forms a second receiving space.

Abstract translation: 支撑件包括基座，连接到基座的上盖，支撑板和基座。 上盖包括用于容纳电子装置的底部的凹部和限定在凹部的底部中的凹部的两个开口，用于可移动地接收按压构件。 一对按压构件分别可移动地容纳在两个开口中。 一对按压构件中的每一个包括可旋转地连接到基部的突出柱。 两个弹性构件布置在基座中，以分别在压缩和释放时分别对压制构件施加回弹力。 当被电子装置推动时，按压构件向下偏转以形成第一容纳空间; 并且当电子设备被移除时，按压构件被弹性构件抵抗并形成第二容纳空间。

公开(公告)号：US08238679B1

公开(公告)日：2012-08-07

申请号：US12481207

申请日：2009-06-09

Applicant: Leonid I. Rudin ,  Ping Yu

Inventor： Leonid I. Rudin ,  Ping Yu

IPC: G06K9/46

CPC classification number: H04N19/13 ,  H04N19/136 ,  H04N19/176 ,  H04N19/182 ,  H04N19/593 ,  H04N19/91

Abstract: Lossless video data compression is performed in real time at the data rate of incoming real time video data in a process employing a minimum number of computational steps for each video pixel. A first step is to convert each pixel 8-bit byte to a difference byte representing the difference between the pixel and its immediate predecessor in a serialized stream of the pixel bytes. Thus, each 8-bit pixel byte is subtracted from its predecessor. This step reduces the dynamic range of the data. A next step is to discard any carry bits generated in the subtraction process of two's complement arithmetic. This reduces the data by a factor of two. Finally, the 8-bit difference pixel bytes thus produced are subject to a maximum entropy encoding process. Such a maximum entropy encoding process may be referred to as a minimum length encoding process. One example is Huffman encoding. In such an encoding process, a code table for the entire video frame is constructed, in which a set of minimum length symbols are correlated to the set of difference pixel bytes comprising the video frame, the more frequently occurring bytes being assigned to the shorter minimum length symbols. This code table is then employed to convert the all of the difference pixel bytes of the entire video frame to minimum length symbols.

Abstract translation: 在采用每个视频像素的最小数量的计算步骤的过程中，以传入的实时视频数据的数据速率实时地执行无损视频数据压缩。 第一步是将每个像素8位字节转换为表示像素字节的串行化流中像素与其直接前导之间的差异的差异字节。 因此，每个8位像素字节从其前身中减去。 此步骤减少了数据的动态范围。 下一步是丢弃在二进制补码运算的减法过程中产生的进位位。 这将数据减少一倍。 最后，由此产生的8位差分像素字节经受最大熵编码处理。 这样的最大熵编码处理可以被称为最小长度编码处理。 一个例子是霍夫曼编码。 在这样的编码处理中，构成整个视频帧的码表，其中一组最小长度符号与包括视频帧的差分像素字节集合相关，更频繁地发生的字节被分配给较短的最小值 长度符号。 然后使用该代码表将整个视频帧的所有差异像素字节转换为最小长度符号。

公开(公告)号：US20100154432A1

公开(公告)日：2010-06-24

申请号：US12341249

申请日：2008-12-22

Applicant: Ping Yu

Inventor： Ping Yu

IPC: F02C6/08 ,  F02C9/18

CPC classification number: F02C3/28 ,  F01K23/068 ,  F02C6/18 ,  F25J3/04018 ,  F25J3/04115 ,  F25J3/04139 ,  F25J3/04545 ,  F25J3/04575 ,  F25J3/046 ,  F25J3/04781 ,  F25J2230/40 ,  Y02E20/16 ,  Y02E20/18

Abstract: An embodiment of the present invention may provide a variable speed booster, which receives air from a compressor of a gas turbine through an intercooler, to supply air at a relatively constant pressure to an air processing unit. An embodiment of the present invention may provide an external power source to energize the variable speed booster; which provides air at a relatively constant pressure to an air processing unit.

Abstract translation: 本发明的实施例可以提供一种变速助力器，其通过中间冷却器从燃气轮机的压缩机接收空气，以相对恒定的压力向空气处理单元供应空气。 本发明的一个实施例可以提供一个外部电源来激励可变速度助力器; 其以相对恒定的压力向空气处理单元提供空气。

公开(公告)号：US20100154428A1

公开(公告)日：2010-06-24

申请号：US12341211

申请日：2008-12-22

Applicant: Ping Yu

Inventor： Ping Yu

IPC: F02C6/08 ,  F02C6/00 ,  F02C3/20 ,  F02C6/18 ,  F04C27/00

CPC classification number: F02C3/28 ,  F01K23/068 ,  F02C6/08 ,  F02C6/18 ,  F05D2220/722 ,  Y02E20/16 ,  Y02E20/18

Abstract: An embodiment of the present invention may provide a variable speed booster, which receives air from a compressor of a gas turbine through an intercooler, to supply air at a relatively constant pressure to an air processing unit. An embodiment of the present invention may provide a speed adjustable booster turbine to energize a variable speed booster; which provides air at a relatively constant pressure to an air processing unit.

Abstract translation: 本发明的实施例可以提供一种变速助力器，其通过中间冷却器从燃气轮机的压缩机接收空气，以相对恒定的压力向空气处理单元供应空气。 本发明的一个实施例可以提供一种速度可调节的增压涡轮，以给可变速度增压器通电; 其以相对恒定的压力向空气处理单元提供空气。

公开(公告)号：US07442453B1

公开(公告)日：2008-10-28

申请号：US11023148

申请日：2004-12-27

Applicant: Timothy W. Patterson, Jr. ,  Michael L. Perry ,  Tommy Skiba ,  Ping Yu ,  Thomas D. Jarvi ,  James A. Leistra ,  Hiroshi Chizawa ,  Tsutomu Aoki

Inventor： Timothy W. Patterson, Jr. ,  Michael L. Perry ,  Tommy Skiba ,  Ping Yu ,  Thomas D. Jarvi ,  James A. Leistra ,  Hiroshi Chizawa ,  Tsutomu Aoki

IPC: H01M8/10

CPC classification number: H01M16/006 ,  H01M8/04097 ,  H01M8/04223 ,  H01M8/04238 ,  H01M8/043 ,  H01M8/04559 ,  H01M8/04679 ,  H01M8/04708 ,  H01M8/04731 ,  H01M8/04753 ,  H01M8/0488 ,  H01M8/0491 ,  H01M2250/10 ,  H01M2250/20 ,  H01M2250/30 ,  Y02B90/14 ,  Y02B90/18 ,  Y02P70/56 ,  Y02T90/32

Abstract: A decontamination procedure for a fuel cell power plant (10) includes operating the plant to produce electrical power for an operating period, and then terminating operation of the plant (10) for a decontamination period, and then, whenever optimal electrical production of a plant fuel cell (12) is reduced by at least 5% by contaminants adsorbed by fuel cell electrodes (24, 42), decontaminating the fuel cell (12) of the plant (10) during the decontamination period by oxidizing contaminants adsorbed by electrodes (24, 42) of the fuel cell. Oxidizing the contaminants may be accomplished by various steps including exposing the electrodes (24, 42) to flowing oxygen; to heated flowing oxygen; to a sequence of start-stop cycles; and, to varying controlled potentials.

Abstract translation: 燃料电池发电厂（10）的净化程序包括操作工厂以在运行期间产生电力，然后终止工厂（10）的去污时间段的操作，然后在工厂的最佳电力生产 燃料电池（12）通过被燃料电池电极（24,42）吸附的污染物减少至少5％，在净化期间通过氧化被电极吸附的污染物（24）净化植物（10）的燃料电池（12） ，42）燃料电池。 可以通过包括将电极（24,42）暴露于氧气的各种步骤来实现氧化污染物; 加热流动的氧气; 到一个开始 - 停止循环的序列; 并改变受控电位。

公开(公告)号：USD968679S1

公开(公告)日：2022-11-01

申请号：US29823979

申请日：2022-01-21

Applicant: Ping Yu

Designer： Ping Yu

公开(公告)号：US09653959B2

公开(公告)日：2017-05-16

申请号：US13822488

申请日：2010-11-16

Applicant: Ping Yu ,  Zhenjun Zhang ,  Wei Cai

Inventor： Ping Yu ,  Zhenjun Zhang ,  Wei Cai

IPC: B60K6/26 ,  H02K5/06 ,  H02K5/04 ,  H02K23/52 ,  H02K7/00 ,  B60K6/48

CPC classification number: H02K5/04 ,  B60K6/26 ,  B60K2006/4825 ,  H02K5/06 ,  H02K7/003 ,  H02K7/006 ,  H02K23/52

Abstract: A rotor device of an integrated starter-generator motor and a rotor working system are disclosed in the present invention. The rotor device is a monobloc cast, that is machined, to form an inseparable one-piece structure. The rotor device takes the shape of a straw hat and is provided with an external side surface of a hat top being surface (11), an external side surface of a hat brim being surface (13), an inner side surface of the hat brim being surface (12) and a surface (14) which connects the surface (11) with the surface (13). The surface (11) of the rotor device is provided with multiple through holes (1) used for fixing with a crankshaft (82). The surface (12) of the rotor device is provided with multiple threaded holes (2) used for connecting with a clutch. The threaded holes (2) pass through the surface (13) corresponding to the surface (12).

公开(公告)号：US08867468B2

公开(公告)日：2014-10-21

申请号：US13501166

申请日：2010-10-13

Applicant: Karl D. Mann ,  Ping Yu ,  Jianguo Long ,  Donald Brinkhurst ,  Roger Mah

Inventor： Karl D. Mann ,  Ping Yu ,  Jianguo Long ,  Donald Brinkhurst ,  Roger Mah

IPC: H04W28/08 ,  H04W28/16 ,  H04W92/20 ,  H04W88/08

CPC classification number: H04W28/16 ,  H04B7/024 ,  H04B7/0404 ,  H04B7/0837 ,  H04L1/00 ,  H04L1/1819 ,  H04W72/1268 ,  H04W72/14 ,  H04W88/08 ,  H04W92/20

Abstract: Joint uplink processing by plural base stations includes sending, by a serving base station, a request for uplink resources of a second base station for receiving uplink data of a mobile station. The serving base station receives first uplink data from the mobile station, and the serving base station further receives (from the second base station) second uplink data of the mobile station received by the second base station using the uplink resources specified by the request.

Abstract translation: 多个基站的联合上行处理包括由服务基站发送用于接收移动台的上行链路数据的第二基站的上行链路资源的请求。 服务基站从移动站接收第一上行链路数据，服务基站使用由请求指定的上行链路资源，进一步接收（从第二基站）第二基站接收的移动站的第二上行数据。

公开(公告)号：US20140296546A1

公开(公告)日：2014-10-02

申请号：US14355427

申请日：2012-03-15

Applicant: Xiufeng Yan ,  Mingjiang Wu ,  Lihua Wang ,  Ping Yu ,  Nan Li

Inventor： Xiufeng Yan ,  Mingjiang Wu ,  Lihua Wang ,  Ping Yu ,  Nan Li

IPC: C07J53/00

CPC classification number: C07J53/002 ,  C07J63/00 ,  C07J63/008

Abstract: The invention discloses a method for producing 30-halogenated betulinic acid. Betulin is used as a raw material and selectively oxidized and halogenated to generate 30-betulinic acid, and the selected oxidation and halogenation agent has high selectivity and does not affect C-3 hydroxyl or carbon-carbon double bonds. Oxidation and halogenation are completed in one step, so the process route is short, the treatment method is simple, and the product is purified easily.

Abstract translation: 本发明公开了一种生产30-卤代桦木酸的方法。 桦木醇用作原料，并选择性氧化和卤化以产生30-桦木酸，所选择的氧化和卤化剂具有高选择性，不影响C-3羟基或碳 - 碳双键。 氧化和卤化一步完成，工艺路线短，处理方法简单，产品容易净化。

公开(公告)号：US20120204971A1

公开(公告)日：2012-08-16

申请号：US13236510

申请日：2011-09-19

Applicant: Wenjie Wu ,  Ping Yu ,  Yuan Tian ,  Zhiyong Chen

Inventor： Wenjie Wu ,  Ping Yu ,  Yuan Tian ,  Zhiyong Chen

IPC: F02B43/00

CPC classification number: F02C3/22 ,  F02C3/28 ,  F02C7/22 ,  F05D2220/722 ,  F05D2260/20 ,  F23K5/007 ,  F23K2401/10 ,  F23K2401/201 ,  F23K2900/05001 ,  Y02E20/16 ,  Y02E20/18 ,  Y02T50/675 ,  Y10T137/6416

Abstract: A system includes a cooler configured to cool a first gas portion of a compressed gas fuel and discharge a cooled fluid. The cooled fluid comprises a cooled gas portion and a cooled liquid portion. The system also includes a separator configured to separate the cooled fluid into the cooled gas portion and the cooled liquid portion and a mixing tank configured to mix a second gas portion of the compressed gas fuel with the cooled gas portion in direct contact with one another to produce a superheated gas fuel. The superheated gas fuel comprises a degree of superheat above a lower threshold for a combustion system.

Abstract translation: 系统包括冷却器，该冷却器构造成冷却压缩气体燃料的第一气体部分并排出冷却的流体。 冷却的流体包括冷却的气体部分和冷却的液体部分。 该系统还包括分离器，该分离器被构造成将冷却的流体分离成冷却的气体部分和冷却的液体部分;以及混合罐，其被配置成将压缩气体燃料的第二气体部分与冷却的气体部分彼此直接接触， 产生过热气体燃料。 过热气体燃料包括一个超过燃烧系统下限阈值的过热度。