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. 发明专利
    • Asymmetric electromagnetic ultrasonic probe
    • JP2004361354A
    • 2004-12-24
    • JP2003162943
    • 2003-06-06
    • Masahiro Nishikawa雅弘 西川
    • NISHIKAWA MASAHIROOTSUKA YUSUKE
    • G01B17/02G01N29/04G01N29/24H04R13/00
    • PROBLEM TO BE SOLVED: To develop an asymmetric electromagnetic ultrasonic probe, wherein strength is increased by converging one of two ultrasonic waves radiated in symmetrical directions, and strength is weakened by making the other dispersed.
      SOLUTION: The asymmetric electromagnetic ultrasonic probe 5 changes a magnet thickness T in unit magnet bodies 2, and the like, that is to become a constituent unit from large to small to converge ultrasonic waves emitted in a direction where the magnet thickness T is large in two ultrasonic waves emitted in symmetrical directions for forming convergence ultrasonic beams 12, and the like, for measurement. By designing so that interference conditions are met, a focus can be formed. As a result, a target 14 to be measured whose thickness D is small can be measured, and even minute defects, deterioration scratches, and the like, can be detected efficiently. Other ultrasonic waves 16, and the like, are dispersed and can almost be ignored, thus clearly identifying from which ultrasonic waves reflection (or scattered) signals are in measurement, and precisely detecting the spatial distribution of defects and deterioration scratches in the target to be measured.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 2. 发明专利
    • Solar battery module
    • JP2004022596A
    • 2004-01-22
    • JP2002171649
    • 2002-06-12
    • Masahiro Nishikawa西川 雅弘
    • NISHIKAWA MASAHIRO
    • H01L31/04
    • Y02E10/50
    • PROBLEM TO BE SOLVED: To provide a solar battery module, that is integrally designed and the optical reflectance of which can surely be reduced so as to improve the strength of solar batteries and facilitate assembling and connection of the solar batteries. SOLUTION: The solar battery module 2 of this invention consists of the solar batteries, wherein a semiconductor surface 4a of a photoelectric conversion section 3 receives light to generate an electrical output, a resin mold 24 is formed by closely adhering resin to the semiconductor surface 4a to form a resin mold 24, in a manner of incorporating the solar batteries in the resin mold 24. The optical reflectance R in the semiconductor surface 4a is reduced, by forming the resin mold 24 by means of a transparent resin having a high refractive index. Adopting the resin mold 24 enhances the durability of the module as a whole and facilitates the interconnection of the solar batteries. An antireflection diffraction texture 26 is formed on the light-receiving surface of the resin mold 24 and a grating interval d is designed so as to make the reflection mode nearly zero, thereby making the optical reflectance in the surface nearly zero, and a hard coat layer 28 protects the structure of the antireflection diffraction texture 26. COPYRIGHT: (C)2004,JPO
    • 4. 发明专利
    • Compact apparatus for radiating near infrared ray
    • 用于放射近红外辐射的紧凑装置
    • JP2007044091A
    • 2007-02-22
    • JP2005228908
    • 2005-08-05
    • Masahiro Nishikawa雅弘 西川
    • NISHIKAWA MASAHIRO
    • A61N5/06
    • PROBLEM TO BE SOLVED: To provide an apparatus for radiating linearly polarized near infrared ray which is carried to various places at home or in the office, is used easily by anyone when necessary, and is used for various objects to be radiated. SOLUTION: The compact apparatus for radiating near infrared ray comprises a carriable tubular case 3 having a cross section and a length which can be gripped and operated by the fingers of the hand, a light source 4 for radiating near infrared ray and visible light having continuous spectra, a wavelength converting material 6 arranged around the light source for converting the visible light into near infrared ray, a polarizer 8 for linearly polarizing the near infrared light radiated from the light source, a visible light absorbing material 10 arranged between the polarizer 8 and the light source 4 for absorbing and damping the visible light, and an irradiation port 12 for making the near infrared ray pass through the polarizer 8 to be emitted outside. The linearly polarized near infrared ray emitted from the irradiation port 12 is radiated to an object to be radiated. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种放射线偏振近红外线的装置,其携带到家庭或办公室的各个地方,在任何人需要时容易使用,并用于各种被辐射的物体。 解决方案:用于辐射近红外线的紧凑型装置包括可滑动的管状壳体3,其具有可由手指夹持和操作的横截面和长度,用于辐射近红外线和可见光的光源4 具有连续光谱的光,用于将可见光转换成近红外线的光源附近的波长转换材料6,用于线性偏振从光源照射的近红外光的偏振器8,设置在光源之间的可见光吸收材料10 偏振器8和用于吸收和阻尼可见光的光源4和用于使近红外线通过偏振器8的照射端口12被发射到外部。 从照射口12射出的线偏振近红外线照射到要照射的物体上。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Electromagnetic shielding coating
    • 电磁屏蔽涂料
    • JP2005294305A
    • 2005-10-20
    • JP2004102915
    • 2004-03-31
    • Mitsubishi Heavy Ind LtdMasahiro Nishikawa三菱重工業株式会社雅弘 西川
    • NISHIKAWA MASAHIROOTSUKA YUSUKEWADA YUJIKAWAHARA YOSHIYUKI
    • C09D7/12C09D201/00H05K9/00
    • PROBLEM TO BE SOLVED: To provide an electromagnetic shielding coating wherein an electromagnetic shielding layer which is safe and has a sufficient conductivity is formed even by using high-purity iron, etc. for metal power to be used for forming the electromagnetic shielding layer.
      SOLUTION: The electromagnetic shielding coating at least comprises iron powder 2 and a binder solution 4 which exhibits a non-wettability with respect to the surfaces of individual iron particles which constitute the iron powder 2. The binder solution having the non-wettability with respect to the surfaces of the iron particles has a large surface tension and hence has a non-affinity with the surfaces of the iron particles, and consequently, has a property of going away from between the iron particles while tending to put the iron particles together. By controlling the force of putting the iron particles together, the iron particles are brought into contact with each other to establish an electric conductivity while at the same time effectively shielding electromagnetic noise.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种电磁屏蔽涂层,其中即使使用高纯度铁等形成电磁屏蔽的金属功率,也形成了安全且具有足够导电性的电磁屏蔽层 层。 解决方案:电磁屏蔽涂层至少包括铁粉2和粘合剂溶液4,其相对于构成铁粉2的各个铁颗粒的表面具有不润湿性。具有非润湿性的粘合剂溶液 相对于铁颗粒的表面具有大的表面张力,因此与铁颗粒的表面具有非亲和性,因此具有远离铁颗粒的性质,同时倾向于将铁颗粒 一起。 通过控制将铁粒子放在一起的力,铁粒子彼此接触以建立导电性,同时有效地屏蔽电磁噪声。 版权所有(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Electromagnetic shielding coating
    • 电磁屏蔽涂料
    • JP2005294532A
    • 2005-10-20
    • JP2004107543
    • 2004-03-31
    • Masahiro NishikawaShimizu Tatsuro清水 達郎雅弘 西川
    • NISHIKAWA MASAHIROOTSUKA YUSUKE
    • C09D5/00C09D5/24C09D7/12C09D201/00H05K9/00
    • PROBLEM TO BE SOLVED: To provide an electromagnetic shielding coating wherein an electromagnetic shielding layer having a high conductivity can be formed into various shapes by using nickel powder as metal powder to be used for forming the electromagnetic shielding layer.
      SOLUTION: The electromagnetic shielding coating at least comprises nickel powder 2 and a binder solution 4 which exhibits a non-wettability with respect to the surfaces of metal particles including nickel particles which constitute the nickel powder 2. The binder solution having the non-wettability with respect to the surfaces of the metal particles including the nickel particles has a non-affinity with the surfaces of the nickel particles, and consequently, has a property of going away from between the nickel particles 2 while tending to put the nickel particles 2 together. By controlling the force of putting the nickel particles together, the nickel particles are brought into contact with each other to establish an electric conductivity while at the same time effectively shielding electromagnetic noise.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种电磁屏蔽涂层,其中通过使用镍粉作为用于形成电磁屏蔽层的金属粉末,可以将具有高导电性的电磁屏蔽层形成为各种形状。 解决方案:电磁屏蔽涂层至少包括镍粉2和粘合剂溶液4,其相对于包括构成镍粉末的镍颗粒的金属颗粒的表面具有不润湿性。粘合剂溶液具有非 - 相对于包括镍颗粒的金属颗粒的表面的润湿性与镍颗粒的表面具有非亲和性,因此具有远离镍颗粒2的性质,同时倾向于将镍颗粒 2在一起 通过控制将镍颗粒放在一起的力,镍颗粒彼此接触以建立电导率,同时有效地屏蔽电磁噪声。 版权所有(C)2006,JPO&NCIPI
    • 8. 发明专利
    • Swash plate type heat driven engine
    • 洗板式加热发动机
    • JPS59578A
    • 1984-01-05
    • JP11023382
    • 1982-06-25
    • Masahiro NishikawaSharp Corp
    • NISHIKAWA MASAHIROTANAKA HIROSHIKONDOU KIYOSHI
    • F03G7/06
    • F03G7/065
    • PURPOSE:To enable to change the speed of rotation under the same load torque, by stretching a plurality of resilient members made of shape memory alloy between a swash plate and a turning plate. CONSTITUTION:A swash plate 9 is designed to be capable of oscillating in the horizontal direction through the movement of a support rod 11. The swash plate 9 has a turning face tilted slantwise to a turning shaft 7 and drives the turning shaft 7 while keeping the tilted state. Further, a plurality of coil springs 12 made of shape memory alloy are stretched between the swash plate 9 and a turning disk 8. Here, since the lower space located under a line A-A' shown in the drawing is filled with hot water while the upper space located above the line A-A' is exposed to air, the turning disk 8 and the swash plate 9 are driven by the heated coil springs 12 to the position where they are located nearest to each other.
    • 目的:通过在斜盘和转板之间拉伸由形状记忆合金制成的多个弹性构件,能够在相同的负载转矩下改变转速。 构成:旋转斜盘9被设计成能够通过支撑杆11的运动在水平方向上摆动。斜盘9具有相对于转动轴7倾斜的转向面,并驱动转动轴7,同时保持 倾斜状态。 此外,由形状记忆合金制成的多个螺旋弹簧12在斜盘9和转盘8之间被拉伸。这里,由于图中所示的AA'下方的下部空间填充有热水,而上部 位于线AA'上方的空间暴露于空气中,转盘8和斜盘9由加热的螺旋弹簧12驱动到它们彼此最靠近的位置。
    • 9. 发明专利
    • Butt resistance welding machine for fine wire
    • 耐磨焊接机
    • JPS58196183A
    • 1983-11-15
    • JP7730782
    • 1982-05-08
    • Masahiro NishikawaSharp Corp
    • NISHIKAWA MASAHIROTANAKA HIROSHINAGAURA TOSHIICHIKONDOU KIYOSHI
    • B23K11/24
    • B23K11/24
    • PURPOSE:To provide a butt resistance welding machine for fine wires for the purpose of satisfactory welding of the fine wires of a TiNi alloy, by constituting so that the application timing of welding current and the working force on a molten part can be controlled variously with the respective detection signals of a load cell and a displacement sensor. CONSTITUTION:A motor 16 is operated to apply minute pressure between moving electrodes 12, 13; at the same time, the pressurizing force thereof is detected with a load cell 18. The movement of the electrodes 12 and 13 is stopped to maintain the pressurizing force constant at the point of the time when the pressurizing force increases slightly. Welding current is applied in this state for a short time between TiNi alloy wires 14 and 14 to melt the contact part thereof, thereby decreasing the pressurizing force. The decrease in the pressurizing force is detected 18, and the motor 16 is run at a high speed with the detection signal thereof to thrust the electrode 12 quickly to extrude the molten part to the outside, thereby completing the welding. The welding current is applied during this time in the state of the small pressurizing force on the alloy wires 14, that is, in the state of the large electric resistance in the contact part; therefore, the heated part is confined within the small local part.
    • 目的:为了提供TiNi合金的细线焊接良好的细线对接电焊机,通过构成焊接电流的施加时间和熔融部件上的加工力能够以 负载传感器和位移传感器的各自的检测信号。 构成:电动机16被操作以在移动电极12,13之间施加微小的压力; 同时,用称重传感器18检测其加压力。停止电极12,13的移动,以使加压力在加压稍微增加的时刻保持恒定。 在这种状态下,在TiNi合金丝14和14之间的短时间内施加焊接电流以熔化其接触部分,从而降低加压力。 检测出加压力的下降18,马达16以高速运行,其检测信号迅速推动电极12将熔融部分挤出到外部,从而完成焊接​​。 在合金丝14的小的加压力的状态下,即接触部的电阻较大的状态下,施加焊接电流。 因此,加热部分被限制在小的局部部分内。
    • 10. 发明申请
    • GAS ANALYZING SYSTEM
    • 气体分析系统
    • US20120260715A1
    • 2012-10-18
    • US13518693
    • 2010-12-07
    • Masaru MiyaiMasahiro Nishikawa
    • Masaru MiyaiMasahiro Nishikawa
    • G01N33/00G01D18/00
    • G01N21/3504G01N21/274G01N21/61G01N21/72G01N21/766G01N33/0004G01N33/0006G01N33/006
    • A gas analyzing system that can perform calibration without being influenced by the deterioration of span gas in a span gas supply line. An open-close device control part that receives a calibration start signal issuing an instruction to start zero calibration and span calibration, and controls an open-close device for a span gas flow path. An open-close device for a zero gas flow path, wherein if the open-close device control part receives a new calibration start signal after a predetermined time has passed since previous calibration was performed, before the span calibration is started, for a predetermined time, the open-close device control part controls the open-close device for the span gas flow path so as to open the open-close device for the span gas flow path, and thereby purges span gas that remains in the span gas flow path.
    • 一种气体分析系统,可以在不受气体供气管线中的跨度气体劣化的影响下进行校准。 开闭装置控制部,其接收发出开始零点校准和量程校准的指令的校准开始信号,并控制跨度气体流路的开闭装置。 一种用于零气体流路的打开关闭装置,其中如果开启装置控制部分在从先前的校准开始经过预定时间之后接收到新的校准开始信号,则在量程校准开始之前的预定时间 开闭装置控制部控制跨距气体流路的开闭装置,以打开跨越气体流路的开闭装置,从而清除滞留在跨距气体流路中的跨越气体。