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    • 2. 发明专利
    • Independent air-conditioner for freight car
    • 独立的空调调节器
    • JP2005349891A
    • 2005-12-22
    • JP2004171068
    • 2004-06-09
    • Yoshio Yamada芳生 山田
    • YAMADA YOSHIO
    • B60H1/32
    • PROBLEM TO BE SOLVED: To provide an independent air-conditioner for a freight car which is operated without being affected even when an engine is stopped in the present state in which the air-conditioner is operated while the engine is stopped in an idling state since the air-conditioner interlocked with the engine is stopped when the engine of a freight car is stopped.
      SOLUTION: A vehicular air-conditioner for a freight car with a compressor built therein is attached to a place outside a cabin as an air-conditioner independent from an engine, and controlled from the inside of the cabin to supply conditioned air into the cabin. A power source is a generator using on-vehicle fuel or an exclusive battery.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于货车的独立空调机,即使当在发动机停止时在空调器操作的当前状态下发动机停止时也不受影响 当货车的发动机停止时,与发动机联动的空调停止的空转状态。 解决方案:一种用于内置压缩机的货车的车辆空调机,作为独立于发动机的空调机,安装在机舱外部的地方,并从机舱内部进行控制,以供应调节空气 机舱。 电源是使用车载燃料或专用电池的发电机。 版权所有(C)2006,JPO&NCIPI
    • 3. 发明专利
    • Injection molding method and apparatus for resin molded article containing metal and/or alloy powder as filler
    • 含有金属和/或合金粉末的树脂模制品的注塑成型方法和装置作为填料
    • JP2003062852A
    • 2003-03-05
    • JP2001252558
    • 2001-08-23
    • Fujisawa TakashiYoshio Yamada良雄 山田藤澤 孝志
    • YAMADA YOSHIO
    • B29C45/26B29C45/00B29C45/56B29K105/16B29K505/00
    • PROBLEM TO BE SOLVED: To provide an injection molding method and apparatus capable of controlling the exposure of a filler.
      SOLUTION: A resin compound having a metal powder added thereto as the filler is melted to be plasticized and this molten material is temporarily metered so as to become a volume more than that of a resin molded article to be manufactured and the temporarily metered molten material is injected in a mold to be introduced into a cavity while increasing and changing the internal volume of the cavity corresponding to the volume of the injected molten material. The internal volume of the cavity is reduced and changed to discharge the molten material excessively introduced into the cavity to the outside of the cavity. When the internal volume of the cavity becomes an internal volume calculated by adding the volume corresponding to the shrink quantity at the time of cooling of the molten material to the volume of the resin molded article to be manufactured, the cavity is closed. Thereafter, the volume of the cavity is further reduced down to the volume of the resin molded article to be manufactured not only to pressurize the molten material but also to cool the molten material under pressure to solidify the same.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供能够控制填料曝光的注射成型方法和装置。 解决方案:将作为填料的添加有金属粉末的树脂化合物熔化以塑化,并将该熔融材料暂时计量成为比要制造的树脂模制品的体积更大的体积,并且临时计量的熔融材料为 注入到模具中以引入空腔,同时增加和改变对应于注入的熔融材料的体积的腔的内部体积。 空腔的内部体积减小并改变以将过度引入空腔的熔融材料排出到空腔外部。 当通过将熔融材料冷却时的收缩量相对应的体积相对于待制造的树脂成形品的体积相加而将空腔的内部体积变为内部容积时,关闭空腔。 此后,空腔的体积进一步减小到要制造的树脂模塑制品的体积,不仅对熔融材料加压,而且还在压力下冷却熔融材料以使其固化。
    • 4. 发明专利
    • Damper
    • JP2004138099A
    • 2004-05-13
    • JP2002301261
    • 2002-10-16
    • Yoshio Yamada山田 良雄
    • YAMADA YOSHIO
    • F16F15/023F16F9/54F16F15/02
    • PROBLEM TO BE SOLVED: To provide a damper in which size of amplitude of vibration and/or impact that can be coped with is unchanged to achieve higher damping efficiency, in which damping performance capable of coping with vibration and/or impact added in a desired direction in two or three dimensions can be achieved, and in which compactness and economy are achieved.
      SOLUTION: In this device, a plurality of oil dampers are provided in parallel, piston rods for part of oil dampers are set in opposite directions to directions of the other piston rods, and cylinders are integrated. An intermediate plate 46 is provided between installation bases 2 and 3. Oil damper devices 1a and 1b in Z-axis directions are installed between the installation base 2 and the intermediate plate 46. For oil damper devices 7a and 7b in X-axis directions and an oil damper device 7c in a Y-axis direction, their piston rods are installed on the intermediate plate 46 and the installation base 3 through mechanisms 41a-41c and 42a-42c which slide perpendicularly to respective action axes.
      COPYRIGHT: (C)2004,JPO
    • 5. 发明授权
    • Method and apparatus for producing frozen products
    • 用于生产冷冻产品的方法和设备
    • US08671709B2
    • 2014-03-18
    • US12736107
    • 2008-08-11
    • Yoshio Yamada
    • Yoshio Yamada
    • F25D17/02
    • F25D13/065A23L3/364F25B2500/24
    • The invention provides a method and an apparatus for producing frozen products using a liquid cooling freezing method, enabling the number of times for replenishing a freezing solvent to be reduced and completely preventing alcoholic odor from occurring. The apparatus 1 for producing frozen products according to the invention includes, in a freezing chamber 2, a freezing tank 3 having a freezing solvent 30 stored therein for immersing therein products and freezing them, gas jetting units 4 for jetting a gas having a temperature of 0° C. or below against the products frozen in the freezing tank 3 to remove the freezing solvent adhering to the products, and a transferring device 5 for transferring the products to be frozen in the freezing chamber 2 in a manner that the products to be frozen are immersed in the freezing solvent 30 in the freezing tank 3 and then lifted from the freezing tank 3 and further the freezing solvent adhering to the products is removed by the gas jetting units 4.
    • 本发明提供一种使用液体冷冻冷冻方法生产冷冻产品的方法和装置,能够减少补充冷冻溶剂的次数并完全防止发生醇味。 根据本发明的用于生产冷冻产品的装置1在冷冻室2中包括冷冻罐3,其中存储有冷冻溶剂30,用于将产品冷冻并冷冻,用于喷射具有温度的气体的气体喷射单元4 0℃或更低的温度对抗在冷冻罐3中冷冻的产品,以除去附着在产品上的冷冻溶剂;以及转移装置5,用于将要冷冻的产品转移到冷冻室2中, 将冷冻的冷冻水浸入冷冻罐3中的冷冻溶剂30中,然后从冷冻罐3中取出,并通过气体喷射单元4除去附着在产品上的冷冻溶剂。
    • 7. 发明申请
    • Probe Card
    • 探头卡
    • US20090219043A1
    • 2009-09-03
    • US12086031
    • 2006-12-04
    • Hiroshi NakayamaMitsuhiro NagayaYoshio Yamada
    • Hiroshi NakayamaMitsuhiro NagayaYoshio Yamada
    • G01R1/073
    • G01R31/2889G01R1/07378
    • A probe card includes probes that are made of a conductive material and come into contact with a semiconductor wafer to receive or output an electric signal; a probe head that holds the probes; a substrate that has a wiring pattern corresponding to a circuit structure for generating a signal for a test; a reinforcing member that reinforces the substrate; an interposer that is stacked on the substrate for connection of wires of the substrate; a space transformer that is stacked between the interposer and the probe head and transforms intervals among the wires; and a plurality of first post members that have a height greater than the thickness of the substrate, and are embedded in a portion of the substrate on which the interposer is stacked.
    • 探针卡包括由导电材料制成并与半导体晶片接触以接收或输出电信号的探针; 保持探头的探针头; 具有对应于用于产生测试信号的电路结构的布线图案的基板; 增强基板的加强构件; 叠置在基板上用于连接基板的导线的插入件; 空间变换器,堆叠在插入器和探头之间,并且变换线间的间隔; 以及具有高于基板的厚度的高度的多个第一柱状构件,并且嵌入在其上堆叠有插入件的基板的一部分中。
    • 8. 发明申请
    • Quick-freezing method and device for food with liquid surface contact
    • 具有液面接触的食品快速冷冻方法和装置
    • US20050153041A1
    • 2005-07-14
    • US10928050
    • 2004-08-27
    • Yoshio Yamada
    • Yoshio Yamada
    • F25D9/00A23B4/06A23B4/09A23L3/36A23L3/375F25D11/00F25D11/02F25D31/00F25D15/00
    • A23L3/364A23B4/068F25D11/006F25D31/001F25D2303/082F25D2400/30
    • A nonfreezing liquid is hermetically enclosed in one or more brine bags of a flexible plastic material. In the case using an existing refrigerator equipped with a freezer compartment, the brine bags are placed in a brine bag receiving vessel adapted to be located in the freezer compartment, and a cooling plate is provided at a location at the uppermost one of the brine bags. In freezing, food to be frozen is inserted between the cooling plate and the brine bags or between the brine bags so that at least the greater part of outer peripheries of the food is surrounded by a low temperature environment to substantially the same extent as immersion of the food in the nonfreezing liquid, thereby substantially realizing the liquid surface contact freezing. In the case of a newly fabricated refrigerator, the brine bags are directly placed in an exclusive freezer compartment and further cold air is forced against the cooling plate, thereby obtaining more complete frozen food. In this manner, according to the invention frozen food of high quality can be obtained for a very short period of time.
    • 非冻结液体气密地封装在柔性塑料材料的一个或多个盐水袋中。 在使用装有冷冻室的现有冰箱的情况下,将盐水袋放置在适于位于冷冻室中的盐水袋接收容器中,并且在最上面的一个盐水袋的位置处设置冷却板 。 在冷冻时,待冷冻的食物插入冷却板和盐水袋之间或盐水袋之间,使得食物的外围的至少大部分被低温环境包围,基本上与浸渍 在非冻结液体中的食物,从而基本上实现了液面接触冻结。 在新制造的冰箱的情况下,将盐水袋直接放置在专用的冷冻室中,并且将冷空气强制抵靠冷却板,从而获得更完整的冷冻食品。 以这种方式,根据本发明,可以在非常短的时间内获得高质量的冷冻食品。
    • 9. 发明授权
    • Holder of electroconductive contactor, and method for producing the same
    • 导电接触器的支架及其制造方法
    • US06642728B1
    • 2003-11-04
    • US09744825
    • 2001-05-11
    • Masami KudoToshio KazamaYoshio YamadaKazushi Watanabe
    • Masami KudoToshio KazamaYoshio YamadaKazushi Watanabe
    • G01R3102
    • H01L21/67242G01R1/067
    • The holder for an electroconductive contact unit according to the present invention uses a silicon wafer having a laminated structure including a first silicon layer, second silicon layer and silicon oxide film which is disposed between the two silicon layers. A small hole is formed in the first silicon layer for coaxially and slidably guiding a head portion of an electroconductive needle member, and a large hole is formed in the second silicon layer for receiving a flange portion of the needle member and a compression coil spring so that the silicon oxide film serves as a stopper for the flange member. Thus, by finishing the surface of the first silicon layer by lapping, the projecting length of the electroconductive needle member can be defined at a high precision. When the object to be tested consists of a silicon wafer, because the holder is made of the same material as the object to be tested, and they undergo a substantial identical thermal expansion, there is no positional shifting of each electroconductive needle member in simultaneously accessing a plurality of points.
    • 根据本发明的用于导电接触单元的保持器使用具有层叠结构的硅晶片,其包括设置在两个硅层之间的第一硅层,第二硅层和氧化硅膜。 在第一硅层中形成一个小孔,用于同轴且可滑动地引导导电针构件的头部,并且在第二硅层中形成大孔,用于容纳针构件的凸缘部分和压缩螺旋弹簧 氧化硅膜用作凸缘构件的止动件。 因此,通过研磨完成第一硅层的表面,可以高精度地定义导电针构件的突出长度。 当要测试的对象由硅晶片组成时,由于保持器由与被测试对象相同的材料制成,并且它们经历基本上相同的热膨胀,所以每个导电针构件不会同时进入位置移动 多个点。