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    • 65. 发明授权
    • Method of making an outer cannula for an intravenous cannula and a
cannula made by the method
    • 制造用于静脉插管的外套管和由该方法制成的插管的方法
    • US6083440A
    • 2000-07-04
    • US766663
    • 1996-12-04
    • Takashi MatsumotoTakahito WakabayashiHiroshi Okada
    • Takashi MatsumotoTakahito WakabayashiHiroshi Okada
    • A61M5/158A61M25/00A61M25/16B29C57/00
    • A61M25/001B29C57/00B29L2031/7542
    • A method for making an outer cannula of an intravenous cannula. An insert pin (3) is inserted into an outer cannula (1) having a hub (12) and a tube (11) made of a shape memory polyurethane resin and having an untreated distal end portion, until a tip end of the insert pin (3) reaches a position retracted from a distal end of the tube (11). While holding the position of the insert pin (3), the tube (11) with the insert pin (3) is forced into a cavity in a mold (4) heated to a temperature of 120.degree. C. to 180.degree. C. until the insertion of the tube into the cavity is obstructed. Subsequently, the insert pin (3) is moved within the tube (11) toward the extremity of the tube until the tip end of insert pin (3) reaches a first predetermined position in the mold (4). After maintaining the tube at the mold temperature until the tube is softened, the insert pin is further moved within the tube toward the extremity thereof and held in position for a certain period of time. The mold (4) is then cooled for a certain period of time. Then, the tube (11) is removed from the mold (4) together with insert pin (3), and subsequently the insert pin (3) is removed from the tube (11). Finally, the distal end portion of the tube (11) is cut to a desired length.
    • 一种用于制造静脉插管的外套管的方法。 插入销(3)插入到具有轮毂(12)的外套管(1)和由形状记忆聚氨酯树脂制成的具有未处理的远端部分的管(11),直到插入销的顶端 (3)到达从管(11)的远端缩回的位置。 在保持插销(3)的位置的同时,具有插销(3)的管(11)被迫进入加热到120℃至180℃的模具(4)中的空腔中,直到 将管插入空腔被阻塞。 随后,插入销(3)在管(11)内朝向管的末端移动,直到插入销(3)的末端到达模具(4)中的第一预定位置。 在将管保持在模具温度直到管软化之后,插入销进一步在管内向其末端移动并保持在一定时间段内。 然后将模具(4)冷却一定时间。 然后,与插入销(3)一起从模具(4)中取出管子(11),随后从管子(11)上取下插入销钉(3)。 最后,将管(11)的远端部分切割成期望的长度。
    • 66. 发明授权
    • Method for growing single crystal
    • 生长单晶的方法
    • US5679151A
    • 1997-10-21
    • US604663
    • 1996-02-21
    • Seiichiro OhmotoKatsuhiro UeharaHiroshi OkadaYoshihiko SakashitaTakao Kawanaka
    • Seiichiro OhmotoKatsuhiro UeharaHiroshi OkadaYoshihiko SakashitaTakao Kawanaka
    • C30B11/00C30B15/00C30B11/12
    • C30B11/00C30B15/00C30B29/48Y10T117/1016Y10T117/1024
    • Method of forming a single crystal of ZnSe. A charge of material is loaded in a container. The charge of material is melted to create a melt of material. A single crystal is grown from the melt of material. Then, the grown crystal is brought out of contact with the wall surface of the container. The temperature of the crystal is varied across its phase transition temperature range while establishing a temperature gradient from one end of the grown crystal to the other end. This method is carried out, using a crystal grower comprising the container and an elevation member. The container is disposed inside a high-pressure vessel. The container tapers off downward and is provided with a hole extending from its lower end. The elevation member is inserted into the hole from below to push the grown crystal in a crucible upward. The container is composed of plural separable parts. After the growth of the crystal, the assembled parts are moved substantially horizontally outwardly so that the parts are separated from each other.
    • 形成ZnSe单晶的方法。 物料装入容器中。 材料的充电被熔化以产生材料熔体。 从材料的熔体中生长单晶。 然后,将生长的晶体与容器的壁表面脱离接触。 晶体的温度在其相变温度范围内变化,同时建立从生长晶体的一端到另一端的温度梯度。 使用包括容器和升降构件的结晶器进行该方法。 容器设置在高压容器内。 容器向下逐渐变细并且设有从其下端延伸的孔。 升降构件从下方插入孔中,将生长的晶体向上推入坩埚中。 容器由多个可分离部分组成。 在晶体生长之后,组装的部件基本上水平地向外移动,使得部件彼此分离。
    • 68. 发明授权
    • Method for producing high density sintered silicon nitride (SI.sub.3 N.sub.
4
    • 生产高密度烧结氮化硅(SI3N4)的方法
    • US5603876A
    • 1997-02-18
    • US251052
    • 1988-09-26
    • Katuhiko HonmaTsuneo TatsunoHiroshi OkadaMasato MoritokiTakao Fujikawa
    • Katuhiko HonmaTsuneo TatsunoHiroshi OkadaMasato MoritokiTakao Fujikawa
    • C04B35/593C04B35/584
    • C04B35/593C04B35/5935
    • The specification describes a method for producing high density sintered silicon nitride(Si.sub.3 N.sub.4) having a relative density of at least 98%. In a first step, silicon nitride powder is compacted into a desired shape. It is then presintered in a second step, generally, under normal pressure to obtain a presintered body having a relative density of at least 92%. In a third step, the presintered body is subjected to a hot isostatic pressing(HIP) in an inert gas atmosphere of 1500-2100.degree. C. and of nitrogen gas partial pressure of at least 500 atm. Since the presintering does not require any capsule, it is possible to produce high density sintered Si.sub.3 N.sub.4 of complex configurations. As a sintering aid, Y.sub.2 O.sub.3 -Al.sub.2 O.sub.3 -MgO system sintering aid is particularly effective. To improve the strength of sintered Si.sub.3 N.sub.4, it is effective to add a heat treatment step after the HIP and maintain the temperature of the sintered Si.sub.3 N.sub.4 above 500.degree. C. for a while. Between the second and third steps, the temperature of the presintered body is preferably maintained above 500.degree. C. These temperature controls are effective not only to improve the strength of sintered Si.sub.3 N.sub.4 but also to save the thermal energy and to shorten the production cycle.
    • 该说明书描述了一种生产相对密度至少为98%的高密度烧结氮化硅(Si3N4)的方法。 在第一步骤中,氮化硅粉末被压制成所需的形状。 通常在常压下第二步骤中预烧结,得到相对密度至少为92%的预烧结体。 在第三步骤中,在1500-2100℃的惰性气体气氛和至少500atm的氮气分压下对预烧结体进行热等静压(HIP)。 由于预烧结不需要任何胶囊,因此可以生产复合结构的高密度烧结Si 3 N 4。 作为烧结助剂,Y2O3-Al2O3-MgO体系的烧结助剂特别有效。 为了提高烧结Si3N4的强度,在HIP之后添加热处理步骤并将烧结的Si 3 N 4的温度保持在500℃以上一段时间是有效的。 在第二和第三步骤之间,预烧结体的温度优选保持在500℃以上。这些温度控制不仅有效地提高了烧结Si 3 N 4的强度,而且有效地节约了热能并缩短了生产周期。
    • 69. 发明授权
    • Printer having print data arithmetic logic
    • 具有打印数据运算逻辑的打印机
    • US5478156A
    • 1995-12-26
    • US106199
    • 1993-08-13
    • Hiroshi KikuchiKatsuyuki ItoShinichi KatakuraJiro TanumaHiroshi OkadaKazuhiko NagaokaAkira Nagumo
    • Hiroshi KikuchiKatsuyuki ItoShinichi KatakuraJiro TanumaHiroshi OkadaKazuhiko NagaokaAkira Nagumo
    • G06K15/00H04N1/387
    • G06K15/00G06K2215/006G06K2215/0071G06K2215/0077
    • A printer includes a controller for providing a sequence control for the printer in its entirety in response to a control signal and a video signal from another controller. A printer head is adapted for latching and printing a printing data signal transmitted from the controller. Print data arithmetic and logic circuitry provides a logical operation processing for video data signals, counting video clock signals transmitted from the controller, and includes storage for storing the video data signals transmitted from the controller, a selector responsive to reference line timing signals for selectively alternately outputting the video data signals, an additional line signal generator for generating from video signals received from the controller, a video data signal representing an additional line destined for between reference lines during an interval of timing, and logical operation circuitry for performing a logical operation for the video data signals read out from the storage and supplying to the printer head the video data signals subjected to the logical operation in the form of the printing data signal.
    • 打印机包括控制器,用于响应于来自另一个控制器的控制信号和视频信号而全面地为打印机提供序列控制。 打印机头适于锁定和打印从控制器发送的打印数据信号。 打印数据运算和逻辑电路为视频数据信号提供逻辑运算处理,对从控制器发送的视频时钟信号进行计数,并且包括用于存储从控制器发送的视频数据信号的存储器,响应于参考线定时信号的选择器, 输出视频数据信号,附加线路信号发生器,用于从在控制器接收的视频信号中生成代表在定时间隔期间指定给参考线路的附加行的视频数据信号;以及逻辑运算电路,用于执行逻辑运算 视频数据信号从存储器中读出并以打印数据信号的形式向经过了逻辑运算的视频数据信号提供给打印头。