会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Compound-Eye Unit
    • 复眼单位
    • US20140118834A1
    • 2014-05-01
    • US14123507
    • 2012-05-24
    • Naoyuki InoueTakashi KawasakiSusumu Yamaguchi
    • Naoyuki InoueTakashi KawasakiSusumu Yamaguchi
    • G02B3/00
    • G02B3/0075C03B11/082C03B23/22C03B2215/414C03B2215/76G02B3/0006G02B3/0031G02B7/022H04N5/2254H04N5/2257Y02P40/57
    • A highly accurate compound-eye unit is provided, which can assemble a compound-eye lens member to a lens holder with high positional accuracy even when using the compound-eye lens member that is unsatisfactory in dimensional accuracy of an external shape. A highly accurate compound-eye unit is provided, which can assemble a light shielding member having a plurality of apertures with high positional accuracy. A distance W2 between centers of apertures AP2, AP3 is smaller than a distance W1 between optical axes of convex lens units PL2, PL3, and hence, as illustrated in FIG. 13, when a lens member IM3 is made to approach a lens holder LH along an optical-axis direction, optical surfaces or external portions of peripheral surfaces of convex lens units PL2, PL3 abut on edge portions of the apertures AP2, AP3 at two points P, Q, and a flat surface FP abuts on an abutting portion CT. At this time, the flat surface FP abuts on the abutting portion CT, whereby the lens member IM3 and the lens holder LH are positioned in the optical-axis direction. On the other hand, the optical surfaces or the peripheral surfaces of the convex lens units PL2, PL3 abut on the apertures AP2, AP3, thereby attaining the positioning in an optical-axis orthogonal direction and the positioning around a Z-axis.
    • 提供了一种高精度的复眼单元,其即使使用不满意外形尺寸精度的复眼透镜构件,也可以以高位置精度将复眼透镜构件组装到透镜架上。 提供了一种高精度的复眼单元,其可以以高位置精度组装具有多个孔的遮光构件。 孔AP2,AP3的中心之间的距离W2小于凸透镜单元PL2,PL3的光轴之间的距离W1,因此如图1所示。 如图13所示,当使透镜构件IM3沿着光轴方向接近透镜架LH时,凸透镜单元PL2,PL3的外周面的光学面或外部部分在两点处抵接孔AP2,AP3的边缘部分 P,Q,平面FP与邻接部CT邻接。 此时,平坦面FP与抵接部CT抵接,透镜构件IM3和透镜保持架LH位于光轴方向。 另一方面,凸透镜单元PL2,PL3的光学面或圆周面与孔AP2,AP3抵接,从而实现光轴正交方向的定位和围绕Z轴的定位。
    • 3. 发明申请
    • Absorption refrigerating machine
    • 吸收式制冷机
    • US20060144078A1
    • 2006-07-06
    • US10529438
    • 2003-09-25
    • Naoyuki InoueKiichi IrieYukihiro Fukusumi
    • Naoyuki InoueKiichi IrieYukihiro Fukusumi
    • F25B15/00F25B15/12F25B37/00
    • F25B15/008F25B27/02Y02A30/274Y02B30/625
    • To provide a highly efficient and compact absorption refrigerating machine with water heated from 60 to 70 degrees Celsius as the heat source. In an absorption refrigerating machine including a regenerator G, condenser C, an absorber A, an evaporator E, an auxiliary regenerator GX and an auxiliary absorber AX, the concentrated solution from G is heated and further concentrated in GX, while the diluted solution from A is cooled in AX, the refrigerant vapor from GX is absorbed. A low temperature heat exchanger XL is provided for heat exchange between the concentrated solution supplied from GX to A, and the diluted solution sent from AX to G, and a high temperature heat exchanger XH is provided for heating the diluted solution leaving from XL and sent to G with the concentrated solution supplied from G to GX.
    • 为了提供一种高效紧凑的吸收式制冷机,以60〜70摄氏度的水作为热源。 在包括再生器G,冷凝器C,吸收器A,蒸发器E,辅助再生器GX和辅助吸收器AX的吸收式制冷机中,将来自G的浓缩溶液加热并进一步浓缩在GX中,而来自A的稀释溶液 在AX中冷却,来自GX的制冷剂蒸气被吸收。 提供了一种低温热交换器XL,用于从GX向A供应的浓缩溶液与从AX发送至G的稀释溶液之间进行热交换,并提供高温热交换器XH,用于加热从XL离开的稀释溶液并发送 使用从G到GX供应的浓缩溶液。
    • 4. 发明授权
    • Plate type heat exchanger
    • 板式换热器
    • US06817406B1
    • 2004-11-16
    • US09926103
    • 2001-08-31
    • Naoyuki InoueToshio Matsubara
    • Naoyuki InoueToshio Matsubara
    • F28D304
    • F28D9/0093F25B33/00F25B37/00F25B39/026F25B39/04F25B2339/041F28D9/0043F28F9/0221F28F2250/104Y10S261/11
    • The present invention relates to a plate heat exchanger for simultaneously exchanging heat between two sets of fluids having different temperatures. The plate heat exchanger comprises a heat exchange element (2) comprising two plates facing each other so as to form a inner sealed space as a passage for a first fluid, and a plate surface of the plate serves as a heat transfer surface, and a fluid flowing along an outer surface of the plate is a second fluid. The plate heat exchanger comprises a heat exchange element (2′) comprising two plates facing each other so as to form a inner sealed space as a passage for a third fluid, and a plate surface of the plate serves as a heat transfer surface, and a fluid flowing along an outer surface of the plate is a fourth fluid. A plurality of the heat exchange elements (2) and a plurality of the heat exchange elements (2′) are alternately disposed in such a manner that the plate surfaces of the plates are opposed to each other and a predetermined gap is formed between adjacent the heat exchange elements. A communication pipe communicating with the inner spaces of the heat exchange elements (2) and a communication pipe communicating with the inner spaces of the heat exchange elements (2′) are formed on the plate surfaces of the heat exchange elements (2) and (2′) and integrally formed with the elements.
    • 本发明涉及一种用于在具有不同温度的两组流体之间同时交换热量的板式热交换器。 板式换热器包括一个热交换元件(2),它包括彼此相对的两个板,从而形成作为第一流体通道的内部密封空间,该板的板表面用作传热表面,并且 沿着板的外表面流动的流体是第二流体。 板式换热器包括一个热交换元件(2'),它包括彼此面对的两个板,从而形成作为第三流体通道的内部密封空间,该板的板表面用作传热表面,并且 沿着板的外表面流动的流体是第四流体。 多个热交换元件(2)和多个热交换元件(2')交替地设置成使得板的板表面彼此相对并且在相邻的热交换元件之间形成预定的间隙 热交换元件 与热交换元件(2)的内部空间连通的连通管和与热交换元件(2')的内部空间连通的连通管形成在热交换元件(2)和( 2')并与元件整体形成。
    • 7. 发明授权
    • Thin-film magnetic head having a portion of the upper magnetic core
coplanar with a portion of the lower magnetic core
    • 薄膜磁头具有与下部磁芯的一部分共面的上部磁芯的一部分
    • US5872693A
    • 1999-02-16
    • US826749
    • 1997-03-24
    • Hiroaki YodaAtsuhito SawabeNaoyuki InoueAkio Hori
    • Hiroaki YodaAtsuhito SawabeNaoyuki InoueAkio Hori
    • G11B5/31
    • G11B5/3113G11B5/3116G11B5/313G11B5/3146G11B5/3153G11B5/3163
    • A thin-film magnetic head comprising a lower magnetic core formed on a substrate, an upper magnetic core formed on the lower magnetic core with a magnetic gap therebetween, and a coil interposed between the lower magnetic core and the upper magnetic core as insulated from the lower magnetic core and the upper magnetic core, characterized in that at least either of the lower magnetic core and the upper magnetic core comprises a front body of a magnetic pole facing a magnetic recording medium and a rear body of a magnetic pole having part thereof superposed on the front body of the magnetic pole, the rear body of the magnetic pole is disposed as recessed from the head surface facing the medium and held in contact with the front body of the magnetic pole in a plane, the plane is terminated at a rear of the end of the front body of the magnetic pole, and the rear body of the magnetic pole has a shape curved or bent in the direction opposite to the magnetic gap, and further the front body of the magnetic pole is composed of a magnetic member embedded in a trench formed in advance in an insulating layer.
    • 一种薄膜磁头,包括形成在基板上的下磁芯,形成在下磁芯上的上磁芯,其间具有磁隙,以及插入在下磁芯和上磁心之间的线圈, 下磁芯和上磁芯,其特征在于,下磁芯和上磁芯中的至少一个包括面向磁记录介质的磁极的前体和磁极的后体,其部分叠加 在磁极的前体上,磁极的后体被设置为从面向介质的头表面凹陷并且在平面中与磁极的前体保持接触,平面终止在后面 的磁极的前体的端部,并且磁极的后体具有与磁隙相反的方向弯曲或弯曲的形状,并且还具有前体o f磁极由嵌入在预先形成在绝缘层中的沟槽中的磁性构件组成。
    • 8. 发明授权
    • Sputtering apparatus and sputtering method
    • 溅射装置和溅射方法
    • US5744011A
    • 1998-04-28
    • US634134
    • 1996-04-19
    • Michiko OkuboNaoyuki InoueKatsutaro IchiharaNobuaki Yasuda
    • Michiko OkuboNaoyuki InoueKatsutaro IchiharaNobuaki Yasuda
    • C23C14/08C23C14/35H01J37/34C23C14/34
    • H01J37/3429C23C14/086C23C14/35H01J37/3408H01J37/3452H01J37/3458
    • In a film forming vessel, a substrate destined to carry on the surface thereof a thin film to be formed and a magnetron sputtering source integrally composed of an electric field supply means and a main magnetic field supply means for forming magnetron plasma in the neighborhood of the target and concurrently serving as a target holder for retaining a target in place are disposed as opposed to each other. An electromagnet as an auxiliary magnetic field supply means for decreasing the spatially dispersed amount of magnetron plasma in the neighborhood of the surface of the substrate is also laid out in the film forming vessel. A thin film of compound, for example, is formed on the substrate, with the spatially dispersed amount of magnetron plasma in the neighborhood of the surface of the substrate decreased as described above. As a result, the thin film of excellent quality is formed with high repeatability on a large surface area.
    • 在成膜容器中,指定要在其表面上承载要形成的薄膜的基板和由电场供应装置和主磁场供应装置一体地组成的磁控溅射源,用于在附近形成磁控管等离子体 目标并且同时用作将目标保持在适当位置的目标持有者彼此相对放置。 作为用于减小基板表面附近的磁控管等离子体的空间分散量的辅助磁场供给装置的电磁体也布置在成膜容器中。 例如,在基板上形成化合物薄膜,如上所述,衬底表面附近的空间分散量的磁控管等离子体减少。 结果,在大的表面积上形成了具有高重复性的优良品质的薄膜。
    • 9. 发明授权
    • Absorption refrigeration system with solution flow control
    • 具有溶液流量控制的吸收制冷系统
    • US4534180A
    • 1985-08-13
    • US565195
    • 1983-12-23
    • Takashi YasudaNaoyuki InoueSyouji Tanaka
    • Takashi YasudaNaoyuki InoueSyouji Tanaka
    • F25B15/00F25B15/06F25B49/04
    • F25B49/043F25B15/008F25B15/06F25B2315/001Y02B30/62
    • An absorption refrigeration system incorporating a novel solution flow control is disclosed. The solution flow control includes a sensor, preferably in the form of a float which senses the level of the solution in the absorber of the system. The signal from the level sensor is utilized to position a valve for controlling the flow of weak solution in such a manner that the solution flow increases/decreases as the level of the solution in the absorber decreases/increases. The solution control not only provides improved efficiency of the refrigeration system but also protects the system from the risk of crystallization of the solution. In one embodiment, a compact solution control is fully enclosed by an air-tight shell of the absorber and comprises a float, a rod mechanically and drivingly coupling the float with a solution valve so that the buoyancy of the float directly positions the valve. This arrangement does not need to meet the requirement of having an air tight structure and assures a long life in use.
    • 公开了一种结合新型溶液流控制的吸收制冷系统。 溶液流控制包括传感器,优选地以浮子的形式感测系统的吸收器中的溶液的水平。 来自液位传感器的信号用于定位用于控制弱溶液流动的阀,使得溶液流随吸收剂中溶液的水平降低/增加而增加/减少。 解决方案控制不仅提供了制冷系统的改进效率,而且还保护系统免受溶液结晶的风险。 在一个实施例中,紧凑的解决方案控制由吸收器的气密外壳完全封闭,并且包括浮子,杆机械地驱动地将浮子与溶液阀连接,使得浮子的浮力直接定位阀。 这种布置不需要满足具有气密结构的要求并且确保使用寿命长。