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    • 1. 发明专利
    • Coat spray can
    • COAT喷雾罐
    • JP2009040464A
    • 2009-02-26
    • JP2007207290
    • 2007-08-08
    • Eiji Mori栄治 森
    • MORI EIJI
    • B65D83/38B05B7/26B05B9/04B65D81/32
    • PROBLEM TO BE SOLVED: To provide a portable coat spray can designed so as to make it possible even for a general user to easily apply high-quality silver mirror plating. SOLUTION: The coat spray can includes: a first bag 3 and a second bag 4 which are filled with a first painting liquid 12 and a second painting liquid 13 respectively and suspended in a container body 2 so as to communicate with a first valve 19 and a second valve 20 respectively; and a filler 11 injected in a space outside the first and second bag bodies 3 and 4 and within the container body 2. When the first and second valves 19 and 20 are simultaneously opened by an operating member 8, the first and second painting liquids 12 and 13 are simultaneously discharged from a first injection nozzle 9 and a second injection nozzle 10 respectively by the pressure of the filler 11. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供便携式喷涂可以设计成使得即使对于一般用户也可以容易地应用高品质的银镜电镀是可能的。 涂料喷雾剂可以包括:第一袋3和第二袋4,其分别填充有第一涂料液体12和第二涂布液体13,并悬浮在容器主体2中,以便与第一涂料液体12和第二涂料液体13连通。 阀19和第二阀20; 以及注入第一和第二袋体3和4外部以及容器主体2内的空间的填料11.当第一和第二阀19和20同时被操作构件8打开时,第一和第二涂液12 和13分别通过填料11的压力从第一注射喷嘴9和第二注射喷嘴10排出。(C)2009年,JPO和INPIT
    • 2. 发明专利
    • Coating spraying can
    • 涂层喷涂罐
    • JP2009023684A
    • 2009-02-05
    • JP2007188345
    • 2007-07-19
    • Eiji Mori栄治 森
    • MORI EIJI
    • B65D83/38B05B9/04B65D77/06B65D81/32
    • B65D83/62B65D83/68
    • PROBLEM TO BE SOLVED: To provide a coating spraying can capable of allowing a general user to easily perform a silver mirror plating maintaining high quality. SOLUTION: The coating spraying can includes a first flexible bag 3 and a second flexible bag 4 filled with a first liquid 12 and a second liquid 13, respectively, a first communication pipe 6 and a second communication pipe 7 whose lower ends are respectively communicated with the first bag 3 and the second bag 4 and whose upper ends are respectively communicated with the upper part 2c of a container body 2, a first jet nozzle 9 and a second jet nozzle 10 which are formed on an operation member 8 and communicated with the first communication pipe 6 and the second communication pipe 7 respectively via a valve means 5, and a filling agent 11 for pressing the first bag 3 and the second bag 4 from their peripheries. When the valve means 5 is opened, the first liquid 12 and the second liquid 13 are simultaneously discharged from the first and second jet nozzles 9 and 10 by the pressure of the filling agent 11. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供能够使一般用户容易地进行维持高质量的银镜电镀的喷涂喷涂。 解决方案:喷涂可以包括分别装有第一液体12和第二液体13的第一柔性袋3和第二柔性袋4,第一连通管6和第二连通管7,其下端是 分别与第一袋3和第二袋4连通,并且其上端分别与容器主体2的上部2c连通,第一喷嘴9和第二喷嘴10形成在操作构件8上, 分别经由阀装置5与第一连通管6和第二连通管7连通,以及用于从其周边按压第一袋3和第二袋4的填充剂11。 当阀装置5打开时,第一液体12和第二液体13由填充剂11的压力同时从第一和第二喷嘴9和10排出。版权所有:(C)2009,JPO&INPIT
    • 4. 发明专利
    • Measuring method of acoustic output
    • 声学输出的测量方法
    • JPS61129535A
    • 1986-06-17
    • JP25239884
    • 1984-11-29
    • Marine Instr Co LtdEiji MoriSadayuki Ueha
    • HASHIMOTO YOSHIKIUEHA SADAYUKIMORI EIJI
    • G01H3/10G01H1/00G01H3/12G01H11/00G01H11/02
    • G01H11/00
    • PURPOSE:To measure acoustic output power easily at a practical particle speed level in a short time by inserting a transmitter in which an annular electromagnetic oscillation detector is fitted into an ultrasonic oscillation system, and detecting data at a node position of the standing wave in the transmitter. CONSTITUTION:The transmitter 10 in which the annular electromagnetic oscillation detector 12 is fitted is interposed between an acoustic load 11 and an oscillator 8, and the detector 12 is fixed at a node position of the standing wave in the transmitter to measure acoustic output power through the operation of an acoustic output meter part 9 or 9'. Namely, the transmitter 10 is run through the hole 4 of the detector 12 of this structure or circuit to transmit oscillation, and then voltages proportional to the particle speed are induced across coils 3 and 3'. Therefore, the sum of the two voltages is also proportional to the particle speed, so when the position where the sum voltage is reduced to minimum is derived, the position is as the node of the standing wave. The differential electric power between the coils 3 and 3' at the node position is proportional to force F, so the acoustic output power is found by calculating the product of the difference voltage and sum voltage.
    • 目的:通过将其中安装有环形电磁振荡检测器的发射器插入到超声波振荡系统中,在短时间内以实际的粒子速度水平容易地测量声输出功率,并且检测驻波的节点位置的数据 发射机。 构成:其中安装有环形电磁振荡检测器12的发射器10介于声学负载11和振荡器8之间,并且检测器12固定在发射器中的驻波的节点位置,以测量声输出功率 声输出表部分9或9'的操作。 也就是说,发射机10穿过该结构或电路的检测器12的孔4以发射振荡,然后在线圈3和3'之间感应与粒子速度成比例的电压。 因此,两个电压的和也与粒子速度成比例,所以当得到和电压降至最小的位置时,该位置作为驻波的节点。 在节点位置处的线圈3和3'之间的差分电力与力F成比例,因此通过计算差电压和和电压的乘积来发现声输出功率。
    • 5. 发明专利
    • Type head for impact printer
    • 冲击打印机类型头
    • JPS5734978A
    • 1982-02-25
    • JP10917780
    • 1980-08-11
    • Eiji MoriOki Electric Ind Co Ltd
    • NAKAYA SHIGENAGAHONMA ROKUROUKAZAMA MUNETADAKURIHARA TSUTOMUMORI EIJI
    • B41J2/225B41J2/27B41J9/38
    • B41J2/27
    • PURPOSE:To obtain a type head having a simple structure and enabling high speed printing by providing a type needle so as to be protruded by an electromagnetic force acting between a flat plate like wound coil and a leaf spring comprising a good electric conductor adjacent thereto. CONSTITUTION:When impulse electric current is applied to a wound coil from a curent passing terminal 9, secondary current due to electromagnetic induction action is induced to a leaf spring 3 comprising a good electric conductor through a thin insulator 6. If said insulator 6 is extremely thin, said secondary current is formed into current distribution almost equal to that of the wound coil 1 and, moreover, because a direction thereof is reverse, an electromagnetic repelling force is generated between the wound coil 1 and the leaf spring 3 and a type needle 5 attached to a free end of the leaf spring 3 is protruded from a window 8 of a cover 7 to carry out printing. In this case, by selecting the leaf spring 3 from a material with high conductivity and good spring characteristics, a large driving force is instantaneously obtained and, because there is no staturation of the electromagnetic force, high speed printing is enabled.
    • 目的:为了获得具有简单结构的头型,通过提供一种类型的针来实现高速印刷,以便通过作用在平板状卷绕线圈之间的电磁力和包括与其相邻的良好电导体的板簧弹出。 构成:当从通过端子9向绕线线圈施加脉冲电流时,由电磁感应作用引起的二次电流通过薄型绝缘体6被引导到包括良好的导电体的板簧3上。如果所述绝缘体6非常 所述二次电流形成与绕组线圈1几乎相等的电流分布,此外,由于其方向相反,所以在绕线线圈1和板簧3之间产生电磁排斥力,而型针 附接到板簧3的自由端的5从盖7的窗口8突出以进行打印。 在这种情况下,通过从具有高导电性和良好的弹簧特性的材料中选择板簧3,立即获得大的驱动力,并且由于电磁力没有稳定,因此能够进行高速打印。
    • 6. 发明专利
    • Measuring method of acoustic output
    • 声学输出的测量方法
    • JPS61129534A
    • 1986-06-17
    • JP25239784
    • 1984-11-29
    • Marine Instr Co LtdEiji MoriSadayuki Ueha
    • HASHIMOTO YOSHIKIUEHA SADAYUKIMORI EIJI
    • G01H3/10G01H1/00G01H11/00G01H11/02
    • G01H11/00
    • PURPOSE:To measure easily acoustic output power at a practical particle speed level in a short time by moving an annular electromagnetic type oscillation detector along a transmitter and obtaining a maximum and a minimum output values. CONSTITUTION:The transmitter 10 in which the annular electromagnetic oscillation detector 12 is fitted movably is inserted into an ultrasonic oscillation system for outputting oscillation power generated by an oscillator 8 to an acoustic load 1. While the annular electromagnetic oscillation detector 12 is moved along the axis of the transmitter 10, the maximum value Vmax and minimum value Vmin of the ultrasonic particle speed in the transmitter 10 are measured to calculate an acoustic output Pa sent to the acoustic load from an equation. Further, a standing wave ratio SWR is calculated from Vmax/Vmin and the acoustic output Pa is calculated from an equation II. In the equations, K is a constant of proportion, rho the density of the transmitter, C the acoustic velocity in the transmitter, and S the sectional area of the transmitter.
    • 目的:通过沿着发射器移动环形电磁型振荡检测器,获得最大和最小输出值,在短时间内以实际的粒子速度水平轻松测量声输出功率。 构成:将环形电磁振动检测器12可移动地安装的发送器10插入到用于将由振荡器8产生的振荡电力输出到声学负载1的超声波振荡系统中。当环形电磁振荡检测器12沿轴线 测量发射机10中的超声波粒子速度的最大值Vmax和最小值Vmin,以从等式计算发送到声学负载的声学输出Pa。 此外,根据Vmax / Vmin计算驻波比SWR,并且根据等式II计算声输出Pa。 在等式中,K是比例常数,rho是发射机的密度,C是发射机的声速,S是发射机的截面积。
    • 7. 发明专利
    • Tool horn for ultrasonic welder
    • 超声波焊机工具
    • JPS59174317A
    • 1984-10-02
    • JP4852183
    • 1983-03-22
    • Eiji MoriSeidensha Denshi Kogyo Kk
    • MORI EIJIUEHA SADAYUKITSUDA YONEO
    • B29C65/00B06B3/02B29C53/00B29C65/08
    • B29C65/08B06B3/02B29C66/80
    • PURPOSE:To provide a tool horn that can be used by even one point driving and can form an elongate machined band having the same phase and displacement, by combining a square bar that can produce flexure vibrations with vertical vibration resonators that can produce vertical vibrations. CONSTITUTION:A columnar vertical vibration resonator 15 has a vibration producing smaller surface 18 at one end, a machining wider surface 12 at the other end and a section located intermediate between the surfaces 18 and 12 and having a width intermediate between them is used as a unit. A plurality of such resonators 15 are arranged in a row. The vibration producing surfaces 18 of the resonators 15 are connected normally to the same phase loop points 5 of the vibrations of the square bar 16 that can resonate in a flexible manner as shown by a vibration displacement curve 3 in an integral mode at or over secondary mode, the other ends of the resonators 15 are connected to be made continuous, the side surface of the square bar 16 opposite the side surface where the resonatores are connected is to serve as vibration producing points, and the other side surfaces of the resonators 15 are to serve as a machining surface 12.
    • 目的:提供一个可以通过甚至一点驱动使用的工具喇叭,并可以形成具有相同相位和位移的细长机械加工带,通过组合可产生弯曲振动的方形杆与可产生垂直振动的垂直振动谐振器。 构成:柱状垂直振动谐振器15在一端具有振动产生较小的表面18,另一端的加工较宽的表面12和位于表面18和12之间的具有在它们之间的宽度中间的部分用作 单元。 多个这样的谐振器15排列成一行。 谐振器15的振动产生表面18正常连接到方棒16的振动的相同相位点5,该相位回路点可以灵活的方式共振,如振荡位移曲线3所示的积分模式或二次以上 模式中,谐振器15的另一端被连接成方形棒16的与谐振器连接的侧面相对的侧面作为振动产生点,并且谐振器15的另一侧面 用作加工面12。
    • 9. 发明授权
    • Valve assembly for use in a fuel tank of a vehicle
    • 用于车辆燃料箱的阀组件
    • US4781218A
    • 1988-11-01
    • US149947
    • 1988-01-29
    • Eiji MoriHitoshi Ohkubo
    • Eiji MoriHitoshi Ohkubo
    • B60K15/035F16K17/196F16K17/36B01D45/08F16K24/04
    • F16K17/196B60K15/03519F16K17/36Y10T137/3099Y10T137/7779
    • A valve assembly for use in a fuel tank of a vehicle which includes a first valve mechanism and a dust preventing member. The valve assembly is secured to the fuel tank and the valve assembly allows selective communication between the inside of the fuel tank and the outside of the fuel tank. The first valve mechanism includes a valve casing and a valve body. When the valve body is positioned at a first position, the valve body is positioned apart from an aperture of the valve casing. As a result, the valve assembly allows the communication between the inside of the fuel tank and the outside of the fuel tank through the aperture of the valve casing. On the other hand, when the valve body is positioned at a second position, the valve body covers the aperture of the valve casing. As a result, the valve assembly prevents communication between the inside of the fuel tank and the outside of the fuel tank. A dust preventing member is secured to an outer surface of the valve casing and includes a wall member. Accordingly, substantially all of minute dust particles and water vapor in the air flow are forced down by the wall member of the dust preventing means. Therefore, the dust preventing means substantially prevents the introduction of minute dust particles and water vapor into the fuel tank.
    • 一种用于车辆的燃料箱的阀组件,包括第一阀机构和防尘构件。 阀组件被固定到燃料箱,并且阀组件允许燃料箱的内部和燃料箱的外部之间的选择性连通。 第一阀机构包括阀壳体和阀体。 当阀体位于第一位置时,阀体定位成与阀壳体的孔分开。 结果,阀组件允许燃料箱的内部和燃料箱的外部之间通过阀壳的孔连通。 另一方面,当阀体位于第二位置时,阀体覆盖阀壳体的孔。 结果,阀组件防止燃料箱内部和燃料箱外部之间的连通。 防尘构件固定在阀壳体的外表面上并且包括壁构件。 因此,空气流中的大部分微小尘埃颗粒和水蒸气都被防尘装置的壁部件压下。 因此,防尘装置基本上防止了将微小的尘埃颗粒和水蒸汽引入燃料箱。