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    • 3. 发明授权
    • Back pressure control for an injection molding machine
    • 注塑机的背压控制
    • US06371748B1
    • 2002-04-16
    • US09340503
    • 1999-07-01
    • Hitoshi Hara
    • Hitoshi Hara
    • B29C4577
    • B29C45/77B29C2045/1792B29C2045/5032B29C2945/76006B29C2945/76083B29C2945/76187B29C2945/76287B29C2945/76367B29C2945/76498B29C2945/76665B29C2945/76846B29C2945/76943
    • In a back pressure control apparatus for controlling back pressure in an injection molding machine comprising an injection device which comprises a heating cylinder, a screw, and an injection actuator and which is provided with a back pressure detector for producing a pressure detected signal and with a screw position detector for producing a screw position detected signal, the back pressure control apparatus comprises a level setting section for setting a back pressure control level with respect to back pressure. A sharpness selecting section selects, as a selected sharpness, one of a plurality of sharpnesses in transition up to a maximum back pressure command value. On the basis of the back pressure control level, a determining section determines a back pressure pattern having a variable back pressure command value which continuously changes with respect to a retreat position of the screw. The back pressure pattern has a mountain-shaped portion defined by the selected sharpness. Responsive to the pressure detected signal and the screw position detected signal, a controller controls the back pressure in accordance with the back pressure pattern by means of the injection actuator.
    • 一种用于控制注射成型机中的背压的背压控制装置,包括:注射装置,该注射装置包括加热缸,螺杆和注射致动器,并且设置有用于产生压力检测信号的背压检测器, 用于产生螺杆位置检测信号的螺杆位置检测器,所述背压控制装置包括用于设定相对于背压的背压控制水平的液位设定部。 锐度选择部分选择转换中的多个锐度中的一个直到最大背压指令值为选择的锐度。 基于背压控制水平,确定部确定具有相对于螺杆的后退位置连续变化的可变背压指令值的背压模式。 背压图案具有由所选锐度限定的山形部分。 响应于压力检测信号和螺杆位置检测信号,控制器通过注射致动器根据背压图案来控制背压。
    • 4. 发明授权
    • Injection molding method
    • 注塑法
    • US5049327A
    • 1991-09-17
    • US360933
    • 1989-03-17
    • Hitoshi HaraYorikazu Takeichi
    • Hitoshi HaraYorikazu Takeichi
    • B29C44/04B29C44/34
    • B29C44/0407B29C44/34
    • An injection molding method for forming molded products of foamed plastics, in which molten resin mixed with foaming agent which begins foaming after being kept at a required temperature for a required time is injected into a metal mold wherein the foaming agent mixed together with the molten resin is solidified in a body in the metal mold under such conditions that the portion of the foaming agent molten resin mixture which is in contact with the inner surface of the metal mold is accordingly cooled rapidly such as to substantially prevent foaming thereof, so that the appearance of the molded product is finished neatly, while the foaming agent/molten resin mixture in the inner part of the mold is cooled gradually so that the temperature thereof is not rapidly decreased, under conditions wherein the foaming agent begins foaming and the inner portion of the molten resin is therefore expanded from inside owing to the foaming pressure, which expansion substantially prevents the occurrence of depressions in the surface of the molded product which might otherwise be caused due to shrinkage upon cooling of the resin.
    • 5. 发明申请
    • THERMAL CONDUCTIVITY DETECTOR AND GAS CHROMATOGRAPH USING SAME
    • 热导率检测器和使用相同的气相色谱仪
    • US20120042712A1
    • 2012-02-23
    • US13211753
    • 2011-08-17
    • Naoki KishiHitoshi HaraTetsuya WatanabeKentaro Suzuki
    • Naoki KishiHitoshi HaraTetsuya WatanabeKentaro Suzuki
    • G01N30/02G01N25/18
    • G01N30/66G01N27/18G01N30/6095
    • The present invention provides a thermal conductivity detector capable of realizing high detection performance even with the use of a miniaturized heating element, and expanding an effective applicable temperature range of a heating element, and to provide a gas chromatograph using the same. The thermal conductivity detector comprises a flow-path through which a measurement gas is caused to flow, a heating element disposed inside the flow-path, the heating element being formed on the substrate, for detecting thermal conductivity of the measurement gas according to magnitude of an amount of heat taken away from the heating element by the measurement gas, wherein said heating element is provided with a beam including a part where the beam is folded at a predetermined angle, the part being formed at the central part of the beam.
    • 本发明提供即使使用小型化的加热元件也能够实现高检测性能并且扩大加热元件的有效适用温度范围的热导率检测器,并且提供使用该热传导检测器的气相色谱仪。 热导率检测器包括流过测量气体的流路,设置在流路内部的加热元件,加热元件形成在基板上,用于根据测量气体的大小检测热传导率 通过所述测量气体从所述加热元件取走的热量,其中所述加热元件设置有梁,所述梁包括所述梁以预定角度折叠的部分,所述部分形成在所述梁的中心部分。
    • 6. 发明申请
    • Medical information management system for medical institution
    • 医疗机构医疗信息管理系统
    • US20090027164A1
    • 2009-01-29
    • US11878445
    • 2007-07-24
    • Hitoshi Hara
    • Hitoshi Hara
    • H04B7/00
    • G06K17/00
    • According to the present invention, a medical information management system comprises an IC tag reader terminal for information from an IC tag storing the information on the medical item delivered; a first IC tag reader-writer terminal for writing to the IC tag attached to the shipping medical item; an IC card reader-writer terminal for writing and/or reading to/from an IC card storing information on the patient or the medical staff a second IC tag reader-writer terminal for writing and/or reading to/from an IC tag of the medical item being disposed to the patient; an order server for receiving the information transmitted from the IC card reader-writer terminal and the second IC tag reader-writer terminal; and a SPD server for receiving the information transmitted from the IC tag reader terminal, the first IC tag reader-writer terminal, and the order server and summing up the respective inventory.
    • 根据本发明,医疗信息管理系统包括IC标签读取器终端,用于从存储关于所递送的医疗用品的信息的IC标签的信息; 第一IC标签读写器终端,用于写入附于运送医疗项目的IC标签; 用于向/从IC卡写入和/或读取存储关于患者或医务人员的信息的IC卡读写器终端,用于向/从IC卡的IC标签写入和/或读取的第二IC标签读写器终端 医疗用品被放置到患者身上; 用于接收从IC卡读写器终端和第二IC标签读写器终端发送的信息的订单服务器; 以及SPD服务器,用于接收从IC标签读取器终端,第一IC标签读写器终端和订单服务器发送的信息,并对相应的库存进行加总。
    • 8. 发明申请
    • Communication system for indemnification insurance service
    • 赔偿保险服务通信系统
    • US20080215375A1
    • 2008-09-04
    • US11907706
    • 2007-10-16
    • Nobutoshi NakanoHitoshi HaraMineaki MatsumuraShinsuke Kawaguchi
    • Nobutoshi NakanoHitoshi HaraMineaki MatsumuraShinsuke Kawaguchi
    • G06Q40/00G06Q90/00
    • G06Q40/00G06Q10/00G06Q40/08
    • The object of the present invention is to provide a communication system for indemnification insurance service; the system contributes to rapid procedures to be performed from the occurrence of an accident to the arrival of a staff to the accident scene, including notification to the company of the indemnification insurance service, and certification of the location of the accident scene and the content of the insurance service of the insured, performed inside the company. The communication system for indemnification insurance service 1 comprises: a cell phone 2 with a built-in IC tag reader and a server 3, which are communicably connected with each other over the internet 4; and a management terminal 5 communicably connected with the server 3; and wherein the cell phone 2 comprises: a means 21 operable to read out information from the insurance IC tag 8, which is provided with the insurance card 6 possessed by the policyholder and stores insurance information; a means 22 for transmitting its cell phone number and the policyholder's name read out from the insurance IC tag 8, to the server 3 at a URL read out form the insurance IC tag 8; and a means 23 for receiving an authentication result from the server 3. Here, the means 21 is operable to re-read out the policyholder's name and the insurance policy number from the insurance IC tag 8, when the authentication result indicates being authenticated.
    • 本发明的目的是提供一种用于赔偿保险服务的通信系统; 该制度有助于从事故发生到工作人员到达事故现场的快速程序,包括通知赔偿保险服务公司,以及对事故现场的位置和内容的认证 被保险人的保险服务,在公司内进行。 赔偿保险服务通信系统1包括:具有内置IC标签读取器的手机2和通过因特网4彼此可通信地连接的服务器3; 以及与服务器3可通信地连接的管理终端5; 并且其中手机2包括:可操作用于从保险IC标签8读出信息的装置21,保险IC标签8设置有保单持有者拥有的保险卡6并存储保险信息; 将从保险IC标签8读出的手机号码和保单持有人的姓名传送到保险IC标签8读出的URL的服务器3的装置22; 以及用于从服务器3接收认证结果的装置23。 这里,当验证结果指示被认证时,装置21可操作以从保险IC标签8重新读出保单持有者的姓名和保险单号。
    • 9. 发明授权
    • Injection molding method using a plurality of control parameters
    • 使用多个控制参数的注射成型方法
    • US5346657A
    • 1994-09-13
    • US53651
    • 1993-04-29
    • Hitoshi HaraToru Okuda
    • Hitoshi HaraToru Okuda
    • B29C45/50B29C45/70B29C45/76B29C45/77
    • B29C45/76
    • An injection molding method using an injection molding machine in which a plurality of control parameters including the injection speed, injection pressure and the mold opening degree are controlled, from a moment immediately before filling up of the mold cavity with the resin, setting the parameters in an order determined in accordance with the characteristics demanded by the resin, such that, when the injection pressure is controlled as a commanding parameter, the injection speed is controlled as a subordinate parameter under a given restriction and, when the mold opening degree is controlled as the commanding parameter, the injection pressure is controlled as a subordinate parameter under a given restriction. According to this method, it is possible to control the injection molding operation on the basis of a plurality of control parameters in accordance with characteristics demanded by the resin in the mold which varies time to time, thus making it possible to maximize the packing degree while minimizing burrs and short shot.
    • 使用注射成型机的注射成型方法,其中从刚从树脂填充模腔之前的那一刻起控制包括注射速度,注射压力和模具开度的多个控制参数,将参数设置在 根据树脂要求的特性确定的顺序,使得当注射压力被控制为指令参数时,在给定的限制下将注射速度控制为下属参数,并且当将开模度控制为 指令参数,注射压力作为下属参数被控制在给定的限制之下。 根据该方法,可以根据多个控制参数来控制注射成型操作,这些控制参数根据模具中树脂所要求的特性随时间变化,从而使包装程度最大化 减少毛刺和短射。
    • 10. 发明授权
    • Living-body component measuring apparatus
    • 生物体成分测量装置
    • US08958858B2
    • 2015-02-17
    • US13041105
    • 2011-03-04
    • Shin-ichiro TezukaHitoshi Hara
    • Shin-ichiro TezukaHitoshi Hara
    • A61B5/1455A61B5/145G01N21/49
    • A61B5/1455A61B5/14532A61B2562/0242G01N21/49
    • A living-body component measuring apparatus measures a component of an inner tissue of a living body serving as an object to be measured by emitting laser light having two or more wavelengths from a light source and measuring reflected light of the laser light from the inner tissue of the living body. The living-body component measuring apparatus includes a beam splitter that changes optical paths of a part of the laser light and the reflected light, a reference-light measuring unit that measures, as reference light, the part of the laser light having the optical path changed by the beam splitter, a reflected-light measuring unit that measures the reflected light having the optical path changed by the beam splitter, and an analysis unit that analyzes the inner tissue by measuring a spectrum of the reflected light or the reference light.
    • 生物体成分测量装置通过从光源发射具有两个或更多个波长的激光并测量来自内部组织的激光的反射光来测量用作待测物体的生物体的内部组织的成分 的生物体。 生物体成分测量装置包括:分束器,其改变激光的一部分和反射光的光路;参考光测量单元,其测量具有光路的激光的一部分作为参考光; 由分束器改变的反射光测量单元,其测量具有由分束器改变的光路的反射光;以及分析单元,其通过测量反射光或参考光的光谱来分析内部组织。