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    • 1. 发明授权
    • Bulk component feeder
    • 批量组件进料器
    • US08162571B2
    • 2012-04-24
    • US11917074
    • 2006-08-01
    • Akifumi WadaTakeshi Nishiguchi
    • Akifumi WadaTakeshi Nishiguchi
    • B65G53/00
    • H05K13/027H05K13/028
    • A bulk component feeder includes a conveying channel 42 through which the electronic components P are conveyed, a ventilation channel 43 that is formed along the conveying channel 42, and a partition 44 by which postures of the electronic components P conveyed through the conveying channel 42 are maintained and by which the conveying channel 42 is separated from the ventilation channel 43. The conveying channel 42 communicates with the ventilation channel 43 through an upper part 45 of the partition 44. It is possible to increase a size of an air channel A which acts as a flow channel for airflow and through which the electronic components P are conveyed with no respect to sizes of the electronic components P, thus, a desirable conveying speed is assured even though the conveyed electronic components P are micro-components.
    • 散装部件供给器包括输送通道42,电子元件P被输送通过该输送通道42,沿输送通道42形成的通风通道43以及通过输送通道42输送的电子部件P的姿势 保持输送通道42与通气通道43分离。输送通道42通过分隔件44的上部45与通气通道43连通。可以增加空气通道A的尺寸,空气通道A的作用 作为用于气流的流动通道,并且电子部件P不依赖于电子部件P的尺寸而被传送,因此即使所输送的电子部件P是微型部件也能确保期望的输送速度。
    • 2. 发明申请
    • BULK COMPONENT FEEDER
    • 大包组件进料器
    • US20100061811A1
    • 2010-03-11
    • US11917074
    • 2006-08-01
    • Akifumi WadaTakeshi Nishiguchi
    • Akifumi WadaTakeshi Nishiguchi
    • H05K13/02B65G51/00B65G51/02B65G51/03
    • H05K13/027H05K13/028
    • A bulk component feeder includes a conveying channel 42 through which the electronic components P are conveyed, a ventilation channel 43 that is formed along the conveying channel 42, and a partition 44 by which postures of the electronic components P conveyed through the conveying channel 42 are maintained and by which the conveying channel 42 is separated from the ventilation channel 43. The conveying channel 42 communicates with the ventilation channel 43 through an upper part 45 of the partition 44. It is possible to increase a size of an air channel A which acts as a flow channel for airflow and through which the electronic components P are conveyed with no respect to sizes of the electronic components P, thus, a desirable conveying speed is assured even though the conveyed electronic components P are micro-components.
    • 散装部件供给器包括输送通道42,电子元件P被输送通过该输送通道42,沿输送通道42形成的通风通道43以及通过输送通道42输送的电子部件P的姿势 保持输送通道42与通气通道43分离。输送通道42通过分隔件44的上部45与通气通道43连通。可以增加空气通道A的尺寸,空气通道A的作用 作为用于气流的流动通道,并且电子部件P不依赖于电子部件P的尺寸而被传送,因此即使所输送的电子部件P是微型部件也能确保期望的输送速度。
    • 3. 发明授权
    • Parts feeder
    • 零件进料器
    • US06202890B1
    • 2001-03-20
    • US09353634
    • 1999-07-15
    • Manabu MoritaTakeshi NishiguchiMikio Yasuda
    • Manabu MoritaTakeshi NishiguchiMikio Yasuda
    • G07F1100
    • H05K13/022H05K13/0417
    • A parts feeder is provided which may be employed in feeding electronic parts such as chip components to a mounting device for mounting them on a printed circuit board, for example. The parts feeder is designed to lift up parts supplied from an inlet to a parts orientation chamber to an outlet along an inner peripheral surface of the parts orientation chamber using a magnetic mechanism. A parts orienting path is defined upstream of the outlet which allows only the parts oriented in given directions to pass therethrough. A guide member is disposed within the parts orientation chamber to guide the parts, which are unoriented in alignment with a parts transport path connecting the outlet and a parts pickup station and which are dropped from the outlet, to an inlet for facilitating transportation of the parts by the magnetic mechanism to the parts orienting path, thereby avoiding jamming of the parts in the parts orienting path.
    • 提供了一种可用于将诸如芯片部件的电子部件馈送到例如用于将它们安装在印刷电路板上的安装装置的部件供给器。 部件供给器设计成使用磁性机构将从入口供应到零件定向室的部件提升到沿着部件定向室的内周表面的出口。 部件定向路径被限定在出口的上游,其仅允许以给定方向定向的部件通过。 引导构件设置在部件定向室内以引导零件,该零件是与连接出口和零件拾取站的部件传送路径对准的部件,该部件传送路径从出口落下到便于运输部件的入口 通过磁性机构到部件定向路径,从而避免部件定向路径中的部件卡住。
    • 4. 发明授权
    • Parts alignment device
    • 零件对齐装置
    • US6123184A
    • 2000-09-26
    • US130002
    • 1998-08-06
    • Mikio YasudaIsamu ChimotoTakeshi Nishiguchi
    • Mikio YasudaIsamu ChimotoTakeshi Nishiguchi
    • B65G47/14B65G47/24
    • B65G47/1485
    • A parts alignment device includes: an input port introducing chip-like parts having a magnetic-substance electrode; a storage chamber storing the parts introduced through the input port; a wall made of non-magnetic material, the wall defining a back surface of the storage chamber; an arc-like guide made of non-magnetic material and provided at least above the storage chamber; an intake port provided in connection with the guide and taking in only parts aligned in a predetermined direction from the parts; a parts passageway connected to the intake port and provided toward downstream of the intake port; a rotary plate made of non-magnetic material and provided at the rear of the wall so as to rotate in a parts taking-in direction of the intake port; and a magnet provided on the rotary plate. The magnet attracts the parts both in a direction of the guide and in a direction of the wall simultaneously by a magnetic force thereof.
    • 零件对准装置包括:引入具有磁性体电极的芯片状部分的输入端口; 存储通过所述输入端口引入的部分的存储室; 由非磁性材料制成的壁,所述壁限定所述储存室的后表面; 由非磁性材料制成并设置在储存室的至少上方的弧形引导件; 与引导件连接设置的进气口,并且仅从部件沿着预定方向取入部件; 连接到进气口并且朝向进气口的下游设置的零件通道; 由非磁性材料制成的旋转板,设在所述壁的后部,以便沿所述进气口的接收方向旋转; 以及设置在旋转板上的磁体。 磁体通过其磁力同时在导向件的方向和壁的方向上吸引部件。
    • 5. 发明授权
    • Waste water treating process
    • 废水处理工艺
    • US5098567A
    • 1992-03-24
    • US626385
    • 1990-12-12
    • Takeshi Nishiguchi
    • Takeshi Nishiguchi
    • F25B30/02C02F1/58C02F1/70C02F3/06C02F3/08C02F3/12C02F3/30C02F3/34F24H1/00F25B1/00
    • C02F3/082C02F1/705C02F3/1215Y02W10/15Y10S210/906
    • A waste water treatment process wherein an iron contactor or iron contact are immersed in a treatment tank, into which waste water flows. In the treatment tank sulfate reducing bacteria are made to coexist with activated sludge or biofilters, wherein a velocity of flow of agitating stream on the outer surfaces of said iron contactor or contactors is set at 10 to 20 cm/sec, under an aerobic treatment. Iron ions are made to elute from said iron contactor or contactors by utilizing electrochemical iron corrosion through the agency of oxygen concentration cells on the outer surfaces of said iron contactor or contactors on conditions that dissolved oxygen concentration in the treatment tank is 1 to 3.2 mg/l and the oxidation-reduction potential is -200 to -400 millivolts (mV). Under an anaerobic treatment, iron ions are made to elute by utilziing microorganism-corrosion on the outer surfaces of said iron contactor or contactors on condition that dissolved oxygen concentration in the treatment tank is 0 mg/l. Under the aerobic or anaerobic conditions, the iron ions eluting from the outer surfaces of said iron contactor or contactors are combined with ions of phosphoric acid in the waste water to thereby remove phosphorus in the waste water as insoluble salt of iron phosphate.
    • 本发明是一种废水处理方法,其中当铁接触器或接触器浸入处理槽中时,废水流动,特别是硫酸盐还原细菌与活性污泥或生物过滤器共存,搅拌流的流速 所述铁接触器或接触器的外表面设定为10〜20cm / sec,在好氧处理下,铁离子通过利用电化学铁腐蚀通过氧浓度电池的代理从所述铁接触器或接触器中洗脱 在处理槽溶解氧浓度为1〜3.2mg / l,氧化还原电位为-200〜-400毫伏(mV)的条件下,铁接触器或接触器的外表面,在厌氧处理下,铁 通过在铁接触器或接触器的外表面上利用微生物腐蚀使离子洗脱,条件是溶解氧浓度在t 其处理槽为0mg / l,由此在需氧或厌氧条件下,从铁水接触器或接触器的外表面洗出的铁离子与废水中的磷酸离子结合,从而除去废物中的磷 水作为磷酸铁的不溶盐。
    • 6. 发明申请
    • METHOD AND DEVICE FOR MANUFACTURING SAW WIRE
    • 用于制造SAW线的方法和装置
    • US20140026493A1
    • 2014-01-30
    • US14004981
    • 2012-03-06
    • Atsushi OkimuraTakashi NakanishiTakeshi NishiguchiMasahiko IwakuraHiroshi Sakai
    • Atsushi OkimuraTakashi NakanishiTakeshi NishiguchiMasahiko IwakuraHiroshi Sakai
    • B24D18/00
    • B24D18/0018B23D61/185B23D65/00
    • [Object]To provide a method and device for manufacturing an abrasive grain-fixed saw wire that realize homogeneous distribution of abrasive grains adhered to the outer surface of a wire while suppressing variations in the amount of abrasive grains adhered to the outer surface of the wire, even in a high-efficiency wire feeding mode with a high density of abrasive grains, back-and-forth running of the wire, and the like.[Constitution]The present invention includes: a plating tank 16A that stores a plating solution M1 containing abrasive grains D; a wire feeding means 2 that lets a wire W pass through the plating solution M1; an electric current supply means 3 that supplies an electric current to the wire W and the plating solution M1; an abrasive grain amount calculation means 4 that calculates the amount of abrasive grains D adhered to the outer surface of the wire W having passed through the plating solution M1; and an electric current control means 5 that increases or decreases the value of an electric current flown into the wire W in the plating solution M1 by the electric current supply means 3 according to the calculated amount of abrasive grains to control variations in the amount of the abrasive grains adhered to the outer surface of the wire so as to fall within a predetermined range.
    • 本发明提供一种制造磨粒固定锯线的方法和装置,其实现均匀分布附着在丝的外表面上的磨料颗粒,同时抑制附着在丝的外表面上的磨粒的量的变化 即使在高密度磨粒的高效送丝模式下,丝的往复运动等。 [结构]本发明包括:电镀槽16A,其存储含有磨粒D的电镀液M1; 导线W通过电镀液M1的送丝装置2; 向电线W和电镀液M1供给电流的电流供给单元3; 磨料颗粒量计算装置4,其计算附着到通过镀液M1的丝W的外表面的磨粒D的量; 以及电流控制装置5,其通过电流供给装置3根据计算的磨料量来增加或减少流入电镀液M1中的线W的电流值,以控制量 磨粒附着在线的外表面上以便落在预定范围内。
    • 8. 发明授权
    • Chip-type electronic part storage casing and supply cassette using same
    • 芯片型电子部件储存壳体和使用其的供给盒
    • US5752628A
    • 1998-05-19
    • US532661
    • 1995-10-13
    • Takeshi NishiguchiKenji KatoTakayuki FujitaShigetoshi NegishiKunio TanakaTakashi NakanishiTakatoshi MitsushimaManabu Morita
    • Takeshi NishiguchiKenji KatoTakayuki FujitaShigetoshi NegishiKunio TanakaTakashi NakanishiTakatoshi MitsushimaManabu Morita
    • H05K13/00H05K13/02B67D5/06
    • H05K13/028H05K13/0084
    • A chip-type electronic part storage casing includes a storage portion for storing chip-type electronic parts in a loose condition; an opening formed in a lower surface of the storage portion for discharging the electronic parts; a shutter for opening and closing the opening; and a scatter prevention member within the storage portion for preventing the electronic parts from being scattered in the storage portion. Additionally, a supply cassette includes a hopper provided at a lower portion thereof and having a storage portion for storing chip-type electronic parts charged therein through an opening in an upper surface thereof, a central portion of the storage portion being recessed to provide an inclined surface for gathering the electronic parts; an interrupting plate mounted within the storage portion in an inclined manner, a gap for allowing the passage of the electronic parts therethrough formed between one end of said interrupting plate and the inclined surface of the storage portion; a discharge pipe for discharging the electronic parts, the discharge pipe extending from the exterior of the hopper through a lower surface of the hopper to the storage portion, and being connected to the storage portion; a slide pipe slidably fitted on an outer periphery of the discharge pipe; and engagement ribs formed on the upper surface of the storage portion. A chip-type electronic part storage casing is further connected to an upper portion of the hopper through the engagement ribs.
    • PCT No.PCT / JP95 / 00201 Sec。 371 1995年10月13日第 102(e)日期1995年10月13日PCT 1995年2月14日提交PCT公布。 出版物WO95 / 22242 日期:1995年8月17日芯片型电子部件存储壳体包括用于在松散状态下存储芯片型电子部件的存储部分; 在所述收纳部的下表面形成的开口,用于排出所述电子部件; 用于打开和关闭开口的快门; 以及在所述存储部分内的用于防止所述电子部件在所述存储部分中散射的散射防止部件。 此外,供给盒包括设置在其下部的料斗,并且具有用于储存通过其上表面中的开口装入其中的芯片型电子部件的存储部分,存储部分的中心部分被凹入以提供倾斜 用于收集电子部件的表面; 以倾斜的方式安装在存储部分内的中断板,用于允许电子部件通过的间隙,形成在所述中断板的一端和存储部分的倾斜表面之间; 用于排出电子部件的排出管,排出管从料斗的外部通过料斗的下表面延伸到储存部分,并连接到储存部分; 可滑动地安装在排出管的外周上的滑动管; 以及形成在存储部分的上表面上的接合肋。 芯片型电子部件存放壳体还通过接合肋连接到料斗的上部。