公开(公告)号：US20110266050A1

公开(公告)日：2011-11-03

申请号：US12848390

申请日：2010-08-02

Applicant: KUO-FU SU ,  GWUN-JIN LIN ,  CHIH-HENG CHUO

Inventor： KUO-FU SU ,  GWUN-JIN LIN ,  CHIH-HENG CHUO

IPC: H01R9/03 ,  H02G3/00

CPC classification number: H02G3/0481

Abstract: A cable bundling structure is provided for being set in slidable engagement with a target cable. The cable bundling structure includes a helical wrap member, which wraps around a wrapped section of the target cable. The helical wrap member is selectively composed of one or more sections of wrapping turns and each section is made in a one-piece form having a predetermined wrap width, a predetermined helix angle, and a predetermined wrap diameter and extending a predetermined length in a wrapping direction. The helical wrap member helically wraps around the target cable in such a way that the helical wrap member is in slidable engagement with the target cable and serves as an external protection for the cable. The helical wrap member can be made of an insulation material or an electromagnetic shielding material, whereby besides structural protection of the cable for improving resistance against bending, the external protection formed by the helical wrap member also provides protection against electromagnetic interference (EMI).

Abstract translation: 电缆捆绑结构被设置成与目标电缆滑动接合。 电缆捆扎结构包括螺旋状卷绕部件，该螺旋卷绕部件卷绕目标缆线的包裹部分。 螺旋卷绕构件选择性地由一个或多个包裹圈的部分组成，并且每个部分制成具有预定卷绕宽度，预定螺旋角和预定卷绕直径并且在包装中延伸预定长度的单件形式 方向。 螺旋卷绕构件以目标电缆可滑动地接合并且用作电缆的外部保护的方式螺旋地卷绕目标电缆。 螺旋卷绕构件可以由绝缘材料或电磁屏蔽材料制成，除了用于提高抗弯曲性能的电缆的结构保护之外，由螺旋卷绕构件形成的外部保护也提供了抵抗电磁干扰（EMI）的保护。

公开(公告)号：US07993151B2

公开(公告)日：2011-08-09

申请号：US12588279

申请日：2009-10-09

Applicant: Chih-Heng Chuo ,  Gwun-Jin Lin ,  Kuo-Fu Su

Inventor： Chih-Heng Chuo ,  Gwun-Jin Lin ,  Kuo-Fu Su

IPC: H01R12/24

CPC classification number: H01R12/88 ,  H01R13/6593 ,  H01R13/6597

Abstract: A shielded insertion and connection structure for a flat cable connector includes a receiving housing and a hold-down member. The receiving housing forms a receiving compartment and two side walls formed at opposite ends of the receiving compartment. The hold-down member has opposite ends that respectively form pivot structures for pivotal coupling to the side walls and rotation between an open position and a holding position. The hold-down member is made of metal and the receiving housing is at least partly made of metal to form a conduction section, which is connected to a grounding terminal. When the hold-down member is at the open position and a circuit flat cable is inserted into the receiving compartment, the hold-down member is operated to depress and hold the circuit flat cable and the hold-down member is put in electrical connection with the grounding terminal through the conduction section.

Abstract translation: 用于扁平电缆连接器的屏蔽插入和连接结构包括接收壳体和压紧构件。 接收壳体形成容纳室，并且形成在接收室的相对端的两个侧壁。 压紧构件具有分别形成用于枢转地连接到侧壁并且在打开位置和保持位置之间的旋转的枢转结构的相对端。 压紧构件由金属制成，并且接收壳体至少部分地由金属制成，以形成连接到接地端子的导电部分。 当压紧构件处于打开位置并且电路扁平电缆插入容纳室中时，压紧构件被操作以按压并保持电路扁平电缆，并且压紧构件与 接地端子通过导电部分。

公开(公告)号：US20110159724A1

公开(公告)日：2011-06-30

申请号：US12729623

申请日：2010-03-23

Applicant: GWUN-JIN LIN ,  KUO-FU SU ,  CHIH-HENG CHUO

Inventor： GWUN-JIN LIN ,  KUO-FU SU ,  CHIH-HENG CHUO

IPC: H01R12/24

CPC classification number: H01R13/4367 ,  H01R12/771 ,  H01R12/88

Abstract: A wire insertion and connection structure includes a plurality of wires that extends in a substantially parallel manner. Each wire includes a conductor and an insulation layer enclosing the conductor. Each wire has an end forming an insertion end, and each conductor has a portion exposed outside the respective insertion end to form a conductive engagement section. The insertion ends of the wires are coupled to an insertion assisting unit. The insertion assisting unit forms a plurality of positioning slots, which is distributed in a surface of the insertion assisting unit in a substantially parallel manner and spaced from each other by insulation sections. The conductive engagement sections of the conductors are respectively positionable in the positioning slots, whereby when the insertion ends of the wires and the insertion assisting unit are inserted into a receiving compartment defined in a connector, the conductive engagement sections of the conductors of the wires are respectively positioned on and engaging metal conductive elements received and set inside the receiving compartment of the connector.

Abstract translation: 电线插入和连接结构包括以基本上平行的方式延伸的多根电线。 每条导线包括一个导体和一个封闭导体的绝缘层。 每根线具有形成插入端的端部，并且每个导体具有暴露在相应插入端的外侧的部分以形成导电接合部分。 导线的插入端连接到插入辅助单元。 插入辅助单元形成多个定位槽，其以基本上平行的方式分布在插入辅助单元的表面中并且通过绝缘部彼此间隔开。 导体的导电接合部分分别可定位在定位槽中，由此当线和插入辅助单元的插入端插入连接器中限定的接收室中时，导线的导体的导电接合部分 分别定位在接纳和设置在连接器的容纳室内部的金属导电元件上。

公开(公告)号：US20110114210A1

公开(公告)日：2011-05-19

申请号：US12743926

申请日：2009-12-30

Applicant: Zhongxia Zhang ,  Hui Li ,  Yangtian Zhang ,  Jin Lin ,  Jianhua Liu

Inventor： Zhongxia Zhang ,  Hui Li ,  Yangtian Zhang ,  Jin Lin ,  Jianhua Liu

IPC: F16K11/00

CPC classification number: G01N27/622 ,  Y10T137/3112 ,  Y10T137/4891 ,  Y10T137/6606 ,  Y10T137/87346 ,  Y10T137/87571

Abstract: The present invention relates to a dopant gas generating device for supplying the dopant gas to the ion mobility spectrometry instrument, comprising: a doping container; an air inlet having an inlet end connecting with an upstream side of a carrier gas passage and an outlet end connecting with the doping container; an air outlet having an entrance end connecting with the doping container and an exit end connecting with an downstream side of the carrier gas passage; a dopant gas generating unit for releasing the dopant gas, wherein the dopant gas generating unit is disposed within the doping container. Through disposing the dopant gas generating unit, which is used for releasing the dopant gas, within the doping container, the dopant gas in the present invention is applicable with not only a solid state dopant, but also a liquid state dopant.

Abstract translation: 本发明涉及一种用于将掺杂剂气体供给到离子迁移率光谱仪器的掺杂剂气体产生装置，包括：掺杂容器; 空气入口，其具有与载气通道的上游侧连接的入口端和与所述掺杂容器连接的出口端; 具有与所述掺杂容器连接的入口端的出气口和与所述载气通道的下游侧连接的出口端; 用于释放掺杂气体的掺杂剂气体发生单元，其中所述掺杂剂气体发生单元设置在所述掺杂容器内。 通过在掺杂容器内设置用于释放掺杂剂气体的掺杂剂气体发生单元，本发明中的掺杂气体不仅可以应用于固态掺杂剂，而且也可应用于液态掺杂剂。

公开(公告)号：US20110028017A1

公开(公告)日：2011-02-03

申请号：US12588278

申请日：2009-10-09

Applicant: Chih-Heng Chuo ,  Gwun-Jin Lin ,  Kuo-Fu Su

Inventor： Chih-Heng Chuo ,  Gwun-Jin Lin ,  Kuo-Fu Su

IPC: H01R13/62

CPC classification number: H01R12/79 ,  H05K1/0218 ,  H05K1/117 ,  H05K1/141 ,  H05K2201/0715 ,  H05K2201/10189 ,  H05K2201/10356 ,  H05K2201/2036

Abstract: Provided is a circuit board based connector with raised projection section, which is formed by applying substrate bonding and formation techniques to make a connector that features a raised projection section. The circuit substrate has an end that is provided with conductive terminals and an opposite end that is provided with flat cable connection terminals for connection with a flat cable. The circuit substrate has a first surface on which the projection section is formed. A shielding layer covers the projection section and a portion of the first surface. The circuit substrate has a second surface on which a second shielding layer is selectively formed. When the circuit substrate is inserted into an insertion space defined in a connection socket with the conductive terminals thereof, the shielding layer and the projection section of the circuit substrate are put into engagement with and thus retained by the insertion space of the connection socket to thereby fix within the connection socket.

Abstract translation: 提供一种具有凸起部分的基于电路板的连接器，其通过施加基板接合和形成技术来形成具有凸起部分的连接器。 电路基板具有设置有导电端子的一端和设置有用于与扁平电缆连接的扁平电缆连接端子的相对端。 电路基板具有形成突出部的第一表面。 屏蔽层覆盖突出部分和第一表面的一部分。 电路基板具有选择性地形成第二屏蔽层的第二表面。 当电路基板被插入到与其导电端子连接的插座中的插入空间中时，电路基板的屏蔽层和突出部分与连接插座的插入空间接合并由此被保持，由此 修复连接插座。

公开(公告)号：US20100315497A1

公开(公告)日：2010-12-16

申请号：US12253939

申请日：2008-10-17

Applicant: JIN-LIN JIANG

Inventor： JIN-LIN JIANG

IPC: H04N7/18 ,  G06K9/00

CPC classification number: G06K9/00771 ,  G06K9/00221 ,  G06K9/00677

Abstract: A monitoring system includes an image capturing module, a displaying module, a face recognition module, a memory module, and a searching module. The image capturing module is configured for capturing images and videos. The face recognition module is configured for recognizing a number of human faces in the captured videos, and generating a number of groups of profile information each associated with a recognized face when the image capturing module captures the video. The memory module is configured for storing the captured videos and the profile information. The searching module is configured for receiving a group of input profile information, and searching whether a group of profile information stored in the memory module matches the group of the input information. The displaying module is configured for displaying the group of captured images associated with the group of profile information matched the group of input profile information.

Abstract translation: 监视系统包括图像捕获模块，显示模块，人脸识别模块，存储模块和搜索模块。 图像拍摄模块被配置用于捕获图像和视频。 面部识别模块被配置用于识别所捕获的视频中的人脸数量，并且当图像拍摄模块捕获视频时，生成每个与识别的脸部相关联的个人资料组的数量组。 存储器模块被配置用于存储所捕获的视频和简档信息。 搜索模块被配置为用于接收一组输入简档信息，并且搜索存储在存储器模块中的一组简档信息是否与输入信息的组匹配。 显示模块被配置为显示与与输入简档信息组匹配的简档信息组相关联的捕获图像组。

公开(公告)号：US07851747B2

公开(公告)日：2010-12-14

申请号：US12455029

申请日：2009-05-27

Applicant: Zhiqiang Chen ,  Yuanjing Li ,  Hua Peng ,  Qingjun Zhang ,  Jin Lin ,  Shaoji Mao ,  Zhude Dai ,  Shiping Cao ,  Zhongxia Zhang ,  Yangtian Zhang ,  Dexu Lin ,  Qinghua Wang ,  Shaofeng Wang ,  Hui Li

Inventor： Zhiqiang Chen ,  Yuanjing Li ,  Hua Peng ,  Qingjun Zhang ,  Jin Lin ,  Shaoji Mao ,  Zhude Dai ,  Shiping Cao ,  Zhongxia Zhang ,  Yangtian Zhang ,  Dexu Lin ,  Qinghua Wang ,  Shaofeng Wang ,  Hui Li

IPC: H01J49/40

CPC classification number: G01N27/622

Abstract: Disclosed is an electrode structure for a drift tube in IMS comprising a ring electrode, for each of two surfaces of the ring electrode, at least a part adjacent to the inner radius is formed into a cone, and the angles formed between the cones and the axis of the ring electrode are different from each other. The electrode structure of the present invention can alleviate, even eliminate, the accumulation of space charges in the drift tube. Such structure is particularly suitable when the electric field in the drift tube is low in strength or a great number of ions pass through. Meanwhile, the structure allows a significant decrease in the size of the outer radius of the electrode, while the inner radius remains constant. In this way, it is possible to effectively reduce the outline size of the drift tube and thus make the IMS compact.

Abstract translation: 公开了一种用于IMS中的漂移管的电极结构，包括环形电极，对于环形电极的两个表面中的每一个，至少与内半径相邻的部分形成为锥体，并且在锥体和 环电极的轴线彼此不同。 本发明的电极结构可以减轻甚至消除漂移管中空间电荷的累积。 当漂移管中的电场强度低或大量离子通过时，这种结构特别合适。 同时，结构允许电极的外半径的大小显着减小，而内半径保持恒定。 以这种方式，可以有效地减小漂移管的轮廓尺寸，从而使得IMS紧凑。

公开(公告)号：US20100269930A1

公开(公告)日：2010-10-28

申请号：US12747476

申请日：2008-12-23

Applicant: Jin Lin ,  Wen He ,  Ping'an Luo ,  Xiaoti Yin ,  Xinmin Liu

Inventor： Jin Lin ,  Wen He ,  Ping'an Luo ,  Xiaoti Yin ,  Xinmin Liu

IPC: F15B13/00

CPC classification number: G01N1/2202 ,  B08B5/02 ,  G01N2001/024 ,  G01N2001/028 ,  Y10T137/8376

Abstract: A device for intermittently jetting gas includes a gas source, a gas conduit with one end being communicated with the gas source and the other end being in communication with a nozzle, a rotary disc and a motor, the disc being mounted on a rotating shaft of the motor for rotating along with the shaft, wherein the rotary disc is provided with at least one opening through which a gas in the gas conduit is jetted when the opening is aligned with the outlet of the gas conduit. The device can freely adjust the gas jetting frequency by adjusting the rotation speed of the motor, and thus increase the gas jetting frequency and effectively flow off the suspicious particles carried in the human clothes.

Abstract translation: 用于间歇喷射气体的装置包括气体源，气体导管，其一端与气体源连通，另一端与喷嘴，旋转盘和马达连通，该盘安装在 所述马达与所述轴一起旋转，其中所述旋转盘设置有至少一个开口，当所述开口与所述气体导管的出口对准时，所述至少一个开口喷射所述气体导管中的气体。 该装置可以通过调节电机的转速来自由调节气体喷射频率，从而增加气体喷射频率，有效地流出人体携带的可疑颗粒。

公开(公告)号：US07654096B2

公开(公告)日：2010-02-02

申请号：US10580917

申请日：2005-01-20

Applicant: Mingyao Xu ,  Jin Lin Gao ,  Eric Seitz ,  Motokazu Saito

Inventor： Mingyao Xu ,  Jin Lin Gao ,  Eric Seitz ,  Motokazu Saito

IPC: F25B9/00 ,  F16K11/074 ,  F16K31/02

CPC classification number: F25B9/14 ,  F16K11/074 ,  F16K31/041 ,  F25B9/145 ,  F25B2309/006 ,  F25B2309/1408 ,  F25B2309/14181 ,  F25B2309/14241 ,  Y10T137/86863

Abstract: A rotary valve unit which reduces the torque required to turn the valve disc, and the amount of wear dust that is blown into the cold head, using differential gas forces to keep the valve disc in contact with the valve seat, and which enables larger diameter valve discs to be utilized for multi-ported pulse tubes that have less force on the face of the valve disc, resulting in reduced torque and reduced wear rate.

Abstract translation: 一种旋转阀单元，其减小了转动阀盘所需的扭矩以及吹入冷头中的磨损粉尘的量，使用差分气体力来保持阀盘与阀座接触，并且使得能够更大直径 用于多孔脉冲管的阀盘，其在阀盘的表面上具有较小的力，导致减小的转矩和降低的磨损率。

公开(公告)号：US20090199169A1

公开(公告)日：2009-08-06

申请号：US12023061

申请日：2008-01-31

Applicant: Jin Lin

Inventor： Jin Lin

IPC: G06F9/45

CPC classification number: G06F8/443 ,  G06F8/425 ,  G06F8/427 ,  G06F8/434

Abstract: A method for transforming access to a structure array, that includes compiling source code, wherein compiling the source code includes identifying the structure array in the source code, performing an object safety analysis to determine whether the structure array is safe for transformation, wherein the object safety analysis includes an inter-procedural alias class analysis, performing a profitability analysis on the structure array when the structure array is safe for transformation, wherein the profitability analysis includes selecting a transformation from a plurality of transformations, wherein the plurality of transformations includes a pointer based fully splitting transformation, a pointer based partially splitting transformation, and an address based fully splitting transformation, and performing the selected transformation on the structure array, and storing the compiled code.

Abstract translation: 一种用于转换对结构数组的访问的方法，包括编译源代码，其中编译源代码包括识别源代码中的结构数组，执行对象安全性分析以确定结构数组是否对转换是安全的，其中对象 安全性分析包括程序间别类分析，当结构阵列对于转换是安全的时，对结构阵列执行盈利能力分析，其中所述盈利能力分析包括从多个变换中选择变换，其中所述多个变换包括指针 基于指针的全部分割变换，基于指针的部分分割变换，以及基于地址的完全分割变换，以及对所述结构数组执行所选择的变换，以及存储所编译的代码。