Automatic testing apparatus
    1.
    发明授权
    Automatic testing apparatus 失效
    自动检测仪器

    公开(公告)号:US06673317B2

    公开(公告)日:2004-01-06

    申请号:US09202806

    申请日:1998-12-22

    IPC分类号: G01N3500

    摘要: In order to provide an automatic testing apparatus with improved reliability of test results, capable of conducting automatically such operations as sterile testing, microorganism limit testing, insoluble particulate measurement testing, divided portion testing for chemical analysis and chemical reaction testing, etc., and capable of accommodating changes in the specimen or the test container with each sample as well as changes in operating procedures with each sample so as to eliminate the possibility of human error and prevent contamination of the operating environment by human hands, the automatic testing apparatus of the present invention prepares a sample by mounting a set of various pieces of equipment including the specimen or test containers required to be changed with every sample atop a same work base and providing that work base as a unit to within the operating range of a robot, with the robot then handling the various pieces of equipment atop the work base to prepare the sample.

    摘要翻译: 为了提供具有提高的测试结果可靠性的自动测试装置,能够自动执行无菌测试,微生物极限测试,不溶性颗粒物测量测试,化学分析和化学反应测试的分割部分测试等操作,并具有能力 容纳每个样品的样品或测试容器的变化以及每个样品的操作过程的变化,以消除人为错误的可能性并且防止人手对操作环境的污染,本发明的自动测试装置 本发明通过将一组各种设备安装在一起,其中包括将需要改变的样本或测试容器的各种设备安装在相同工作台的顶部,并将该工作台作为单元提供到机器人的操作范围内,其中 机器人然后在工作台顶部处理各种设备以准备 充足。

    Medium dispensing apparatus and a method for the same
    2.
    发明授权
    Medium dispensing apparatus and a method for the same 失效
    中分配装置及其方法

    公开(公告)号:US06199605B1

    公开(公告)日:2001-03-13

    申请号:US09446664

    申请日:1999-12-23

    IPC分类号: B65B4342

    CPC分类号: C12M29/06 C12M23/10 C12M23/50

    摘要: A dispensing apparatus is which, even when a small amount of a medium is to be dispensed, can satisfactorily dispense the medium. The medium dispensing apparatus (1) has: a laboratory dish transporting mechanism (20) which transports a laboratory dish (10) along a predetermined path; a movable table (30) which is disposed in the laboratory dish transportation path by the laboratory dish transporting mechanism (20), with being upward inclined by a given angle &thgr; toward a downstream side in a transportation direction of the laboratory dish (10), and which moves in circular motion in a horizontal plane along predetermined forward and backward directions, thereby moving the laboratory dish (10) placed on the table in circular motion along a horizontal direction, and in the forward and backward directions, in a state where the laboratory dish is upward inclined toward the downstream side in the transportation direction; and a medium dispensing mechanism (50) for dispensing a given amount of a medium to a portion in the laboratory dish (10) placed on the movable table (30), in a manner that at least part of the dispensed medium makes contact with the inner face of the side wall of the laboratory dish (10), the portion being on the downstream side in the transportation direction with respect to the center of the laboratory dish.

    摘要翻译: 即使在要分配少量介质的情况下也可以令人满意地分配介质。 介质分配装置(1)具有:沿着预定路径输送实验室皿(10)的实验室盘输送机构(20) 一个由实验室盘传送机构(20)设置在实验室盘传送路径中的可移动台(30),向着实验室皿(10)运送方向的下游侧向上倾斜给定角度θ, 并且沿着预定的前后方向在水平面内以圆周运动的方式移动,从而沿着水平方向移动放置在桌子上的实验室皿(10),并且在向前和向后的方向上以 实验皿在运输方向向下倾斜向下游侧; 以及用于将给定量的介质分配到放置在可移动台(30)上的实验室皿(10)中的部分的介质分配机构(50),使得至少部分分配的介质与 实验室皿(10)的侧壁的内表面,该部分相对于实验室皿的中心在运输方向的下游侧。

    Heated medium supplying method and structure for secondary molding of resin molded component
    3.
    发明授权
    Heated medium supplying method and structure for secondary molding of resin molded component 失效
    加热介质供给方法和结构用于树脂模制部件的二次模塑

    公开(公告)号:US07459118B2

    公开(公告)日:2008-12-02

    申请号:US11086218

    申请日:2005-03-22

    IPC分类号: B29C45/73

    摘要: A hot-air supply structure (1) comprises a hot air generator (20) and a housing (15) formed in the neighborhood of a hot-air inlet (81) of a molded component M in a die (10). A nozzle (21) is formed at the forward end of the hot-air generator, and an ejection port (211b) is formed on the side wall portion of the forward end needle unit (211) of the nozzle. The housing includes a support hole (151) in the nozzle, a relief hole (152), a flow path communication passage (153) and a bypass (154). The ejection port is movable between a first position to discharge the cool or warm air into the atmosphere through the bypass from the relief hole and a second position to introduce hot air into the flow path (8) of the molded component through the inlet (81) and the passage (153).

    摘要翻译: 热空气供给结构(1)包括在模具(10)中形成在模制部件M的热空气入口(81)附近的热空气发生器(20)和壳体(15)。 喷嘴(21)形成在热风发生器的前端,喷嘴(211b)形成在喷嘴的前端针单元(211)的侧壁部上。 壳体包括喷嘴中的支撑孔(151),释放孔(152),流路连通通道(153)和旁路(154)。 喷射口可以在第一位置和第二位置之间移动,第一位置通过旁路将冷空气或暖空气从释放孔排出到第二位置,以便通过入口(81)将热空气引入模制部件的流动路径(8) )和通道(153)。

    Residual pressure sensor and residual pressure sensor monitoring
apparatus
    4.
    发明授权
    Residual pressure sensor and residual pressure sensor monitoring apparatus 失效
    残压传感器和残余压力传感器监控装置

    公开(公告)号:US5675317A

    公开(公告)日:1997-10-07

    申请号:US591444

    申请日:1996-01-29

    IPC分类号: G01L9/00 G01L19/12 G08B29/00

    CPC分类号: G01L19/12 G01L9/0032

    摘要: A residual pressure sensor for verifying that a residual pressure is zero, and to a monitoring apparatus for monitoring for faults in the residual pressure sensor. In order to detect that a residual pressure has completely gone, the residual pressure sensor detects change conditions in the output therefrom, and an output for no residual pressure is not generated while there are changes. Moreover, an electrical power supply condition to a drive solenoid (21) of a solenoid valve for opening/closing a pressure supply line, is monitored using a fail-safe current sensor (21) which outputs a logic value "0" when the presence of a current is detected, and which outputs a logic value "1" when the presence of a current is not detected. Fault monitoring of the residual pressure sensor is then carried out based on the monitoring output conditions of the current sensor and the output conditions of the residual pressure sensor.

    摘要翻译: PCT No.PCT / JP94 / 00858 Sec。 371日期1996年1月29日 102(e)日期1996年1月29日PCT 1994年5月30日PCT PCT。 出版物WO95 / 33190 日期1995年12月7日用于验证残留压力为零的残余压力传感器以及用于监测残余压力传感器中的故障的监视装置。 为了检测残留压力已经完全消失,残留压力传感器检测其输出中的变化条件,并且在存在变化的情况下不产生无残留压力的输出。 此外,使用故障安全电流传感器(21)来监控向用于打开/关闭压力供应线路的电磁阀的驱动电磁阀(21)的电力供应状态,当故障安全电流传感器(21)出现逻辑值“0”时, 检测到电流,并且当没有检测到电流的存在时,其输出逻辑值“1”。 然后根据电流传感器的监测输出条件和剩余压力传感器的输出条件进行残压压力传感器的故障监测。

    Heated medium supplying method and structure for secondary molding of resin molding component
    6.
    发明申请
    Heated medium supplying method and structure for secondary molding of resin molding component 失效
    加热介质供应方法和结构,用于树脂成型部件的二次成型

    公开(公告)号:US20050212176A1

    公开(公告)日:2005-09-29

    申请号:US11086218

    申请日:2005-03-22

    摘要: A hot-air supply structure (1) comprises a hot air generator (20) and a housing (15) formed in the neighborhood of a hot-air inlet (81) of a molded component M in a die (10). A nozzle (21) is formed at the forward end of the hot-air generator, and an ejection port (211b) is formed on the side wall portion of the forward end needle unit (211) of the nozzle. The housing includes a support hole (151) in the nozzle, a relief hole (152), a flow path communication passage (153) and a bypass (154). The ejection port is movable between a first position to discharge the cool or warm air into the atmosphere through the bypass from the relief hole and a second position to introduce hot air into the flow path (8) of the molded component through the inlet (81) and the passage (153).

    摘要翻译: 热空气供给结构(1)包括在模具(10)中形成在模制部件M的热空气入口(81)附近的热空气发生器(20)和壳体(15)。 在热风发生器的前端形成有喷嘴(21),在喷嘴的前端针单元(211)的侧壁部形成有喷出口(211b)。 壳体包括喷嘴中的支撑孔(151),释放孔(152),流路连通通道(153)和旁路(154)。 喷射口可以在第一位置和第二位置之间移动,第一位置通过旁路将冷空气或暖空气从释放孔排出到第二位置,以便通过入口(81)将热空气引入模制部件的流动路径(8) )和通道(153)。

    Ignition coil and method of manufacturing the same
    7.
    发明授权
    Ignition coil and method of manufacturing the same 失效
    点火线圈及其制造方法

    公开(公告)号:US5758624A

    公开(公告)日:1998-06-02

    申请号:US803533

    申请日:1997-02-20

    CPC分类号: F02P13/00 H01F2038/125

    摘要: An ignition coil is composed of a transformer, an igniter, a housing accommodating them and a fixing portion disposed at a place within easy access from an opening of the housing to fix the igniter, a terminal pin disposed at a place of the housing within easy access from the opening and connected to the control circuit and a connector pin fixed to the housing and connected to the terminal pin. The igniter and fixing portion have a member for adjusting relative location therebetween to connect the connector pin and terminal pin without stress.

    摘要翻译: 点火线圈由变压器,点火器,容纳它们的壳体和固定部分组成,该固定部分设置在从壳体的开口容易进入的位置以固定点火器;容易地将壳体的位置设置的端子销 从开口进入并连接到控制电路,以及连接器销固定到壳体并连接到端子销。 点火器和固定部分具有用于调节它们之间的相对位置的构件,以在不受应力的情况下连接连接器销和端子销。

    Maximum value storage sensor
    8.
    发明授权
    Maximum value storage sensor 失效
    最大值存储传感器

    公开(公告)号:US5633466A

    公开(公告)日:1997-05-27

    申请号:US622473

    申请日:1996-03-25

    IPC分类号: G01B7/16

    CPC分类号: G01B7/16

    摘要: The object of the present invention is to provide a maximum value storage sensor when detecting the maximum strain by generating an invariable electrical resistance change correlative to the strain of the detection object in a conductive body having a plurality of conductive elements. The maximum value storage sensor of the present invention has; a conductive body having a circuit which gives correlative resistance changes corresponding to the sequential cutoff of a plurality of conductive elements each having a given electrical resistance arrayed in parallel; a cutting means for cutting the conductive elements of the conductive body; and a structure for allowing one of the conductive bodies and the cutting means to move relatively to each other. The sensor is attached to an object component member in a structure so as to generate relative movements between the conductive body and the cutting means which correspond to any strains exerted upon the object component member, and it detects maximum strains in the object component member by allowing the cutting means to sequentially cut off the conductive elements of the conductive body corresponding to an amount of the relative movement.

    摘要翻译: 本发明的目的是提供一种最大值存储传感器,通过在具有多个导电元件的导电体中产生与检测对象的应变相关的不变电阻变化来检测最大应变。 本发明的最大值存储传感器具有: 具有电路的导电体,其给出相应的电阻变化,所述电阻变化对应于多个导电元件的顺序切断,所述多个导电元件具有并联排列的给定电阻; 用于切割导电体的导电元件的切割装置; 以及用于允许导电体和切割装置中的一个相对移动的结构。 传感器以结构附接到物体部件,以便在导电体和切割装置之间产生与施加在物体部件上的任何应变相对应的相对运动,并且通过允许在物体部件中允许 所述切割装置依次切断与所述相对移动量相对应的所述导电体的导电元件。