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    • 14. 发明授权
    • Liquid circulating apparatus, computer-readable medium, and liquid discharging apparatus
    • 液体循环装置,计算机可读介质和液体排出装置
    • US08449087B2
    • 2013-05-28
    • US13304853
    • 2011-11-28
    • Masaki KataokaJun IsozakiHiroshi Shibata
    • Masaki KataokaJun IsozakiHiroshi Shibata
    • B41J2/175B41J2/18
    • B41J2/175B41J2/18B41J2202/12
    • A liquid circulating apparatus includes a liquid discharging unit for having a nozzle, a supply path, a recovery path, first and second pressure adjusting units, an opening/closing valve and a circulation controlling unit. The circulation controlling unit controls the first and second pressure adjusting units and the opening/closing valve to circulate the liquid by causing a differential pressure between the liquid at a supply side and at a recovery side with respect to the nozzle while the liquid maintains a meniscus in the nozzle. The circulation controlling unit (i) makes a differential pressure between the liquid of the supply path and the recovery path to be lower than the differential pressure in middle of the circulation while the opening/closing valve is closed when the liquid starts circulating, (ii) opens the opening/closing valve, and (iii) changes the differential pressure to the differential pressure in middle of the circulation.
    • 液体循环装置包括具有喷嘴,供给路径,回收路径,第一和第二压力调节单元,开闭阀和循环控制单元的液体排出单元。 循环控制单元通过在液体保持弯液面时在供给侧的液体和在回收侧的液体之间产生压差来控制第一和第二压力调节单元和打开/关闭阀来使液体循环 在喷嘴中。 循环控制单元(i)当液体开始循环时,在打开/关闭阀关闭时,使供给路径的液体与回收路径之间的压差低于循环中间的压差,(ii )打开开/关阀,(iii)将差压改变为循环中间的差压。
    • 15. 发明申请
    • LIQUID CIRCULATING APPARATUS, COMPUTER-READABLE MEDIUM, AND LIQUID DISCHARGING APPARATUS
    • 液体循环装置,计算机可读介质和液体排放装置
    • US20120162331A1
    • 2012-06-28
    • US13304853
    • 2011-11-28
    • Masaki KataokaJun IsozakiHiroshi Shibata
    • Masaki KataokaJun IsozakiHiroshi Shibata
    • B41J2/18
    • B41J2/175B41J2/18B41J2202/12
    • A liquid circulating apparatus includes a liquid discharging unit for having a nozzle, a supply path, a recovery path, first and second pressure adjusting units, an opening/closing valve and a circulation controlling unit. The circulation controlling unit controls the first and second pressure adjusting units and the opening/closing valve to circulate the liquid by causing a differential pressure between the liquid at a supply side and at a recovery side with respect to the nozzle while the liquid maintains a meniscus in the nozzle. The circulation controlling unit (i) makes a differential pressure between the liquid of the supply path and the recovery path to be lower than the differential pressure in middle of the circulation while the opening/closing valve is closed when the liquid starts circulating, (ii) opens the opening/closing valve, and (iii) changes the differential pressure to the differential pressure in middle of the circulation.
    • 液体循环装置包括具有喷嘴,供给路径,回收路径,第一和第二压力调节单元,开闭阀和循环控制单元的液体排出单元。 循环控制单元通过在液体保持弯液面时在供给侧的液体和在回收侧的液体之间产生压差来控制第一和第二压力调节单元和打开/关闭阀来使液体循环 在喷嘴中。 循环控制单元(i)当液体开始循环时,在打开/关闭阀关闭时,使供给路径的液体与回收路径之间的压差低于循环中间的压差,(ii )打开开/关阀,(iii)将差压改变为循环中间的差压。
    • 17. 发明申请
    • DEGASIFIER AND IMAGE FORMING APPARATUS
    • 降解器和图像形成装置
    • US20130002774A1
    • 2013-01-03
    • US13423504
    • 2012-03-19
    • Atsushi MurakamiMasaki Kataoka
    • Atsushi MurakamiMasaki Kataoka
    • B41J2/19B01D19/00
    • B41J2/175B41J2/19
    • A degasifier includes a gas chamber, a degasification unit and a resistance applying unit. The gas chamber is separated from a liquid flow path by a transmission member capable of transmitting a gas dissolving in a liquid in the liquid flow path. The degasification unit expels the gas dissolving in the liquid from the liquid by discharging the gas in the gas chamber through a discharge path so that a pressure in the gas chamber is negative. The resistance applying unit applies an inflow resistance to atmosphere which flows into the discharge path so that the gas chamber is maintained at a pressure at which the liquid can be degasified at the time of the discharging by the degasification unit while the discharge path is open to the atmosphere at all times.
    • 脱气器包括气室,脱气单元和电阻施加单元。 通过能够将溶解在液体流动路径中的气体的气体透过的传递部件与气体流路分离。 脱气单元通过排出路径排出气室中的气体,从气体中排出溶解在液体中的气体,使气室内的压力为负。 电阻施加单元对流入排出路径的气氛施加流入阻力,使得气体室在排气路径打开时在脱气单元排出时保持在液体可以脱气的压力 在任何时候的气氛。
    • 18. 发明授权
    • Droplet ejection apparatus
    • 滴液喷射装置
    • US08256861B2
    • 2012-09-04
    • US12643013
    • 2009-12-21
    • Atsushi MurakamiMasaki KataokaMasahito KatadaYuko Katada, legal representativeNatsuki Katada, legal representativeDaichi Katada, legal representativeTetsuzo Kadomatsu
    • Atsushi MurakamiMasaki KataokaMasahito KatadaTetsuzo Kadomatsu
    • B41J29/38
    • B41J2/17596B41J2/175
    • A droplet ejection apparatus includes a common flow path; droplet ejection units each respectively including a first distribution port; first flow paths that respectively connect each first distribution port to the common flow path; first open/close mechanisms provided respectively at the first flow paths; a first pressurizing unit that applies a positive pressure to the common flow path; a second open/close mechanisms provided at the common flow path at the first pressurizing unit side of connection portions that connect the common flow path and the respective first flow paths; and a controller. When the second open/close mechanism is closed, the controller opens only one or more first open/close mechanisms corresponding to one or more target droplet ejection units, applies positive pressure to a section of the common flow path at the first pressurizing unit side of the second open/close mechanism, and then opens the second open/close mechanism.
    • 液滴喷射装置包括公共流路; 液滴喷射单元分别包括第一分配口; 分别将每个第一分配端口连接到公共流动路径的第一流动路径; 分别设置在第一流路上的第一开/关机构; 对所述公共流路施加正压的第一加压单元; 第二开闭机构,其设置在连接公共流路和各自的第一流路的连接部的第一加压单元侧的公共流路上; 和控制器。 当第二打开/关闭机构关闭时,控制器仅打开与一个或多个目标液滴喷射单元对应的一个或多个第一打开/关闭机构,在第一加压单元侧的公共流动路径的一部分施加正压力 第二个打开/关闭机制,然后打开第二个打开/关闭机制。
    • 19. 发明授权
    • Liquid droplet ejecting apparatus
    • 液滴喷射装置
    • US08240823B2
    • 2012-08-14
    • US12725608
    • 2010-03-17
    • Atsushi MurakamiMasaki KataokaTetsuzo KadomatsuHiroshi Shibata
    • Atsushi MurakamiMasaki KataokaTetsuzo KadomatsuHiroshi Shibata
    • B41J2/175
    • B41J2/1707B41J2/18
    • A liquid droplet ejecting apparatus including: plural liquid droplet ejecting portions; supply-side individual flow paths; discharge-side individual flow paths; a supply-side common flow path; a discharge-side common flow path; first opening/closing mechanisms; second opening/closing mechanisms; a first pressure applying portion; a second pressure applying portion; a first circulating path; a third opening/closing mechanism; a second circulating path including an upstream end portion being connected to the supply-side common flow path further downstream than a connecting portion of a supply-side individual flow path connected to the supply-side common flow path at a furthest upstream side in a liquid circulating direction and a downstream end portion being connected to the discharge-side common flow path, and circulating the liquid between the supply-side common flow path and the discharge-side common flow path; and a fourth opening/closing mechanism, is provided.
    • 一种液滴喷射装置,包括:多个液滴喷射部; 供给侧单独流路; 排放侧单独流路; 供给侧公共流路; 排出侧公共流路; 第一次开闭机制; 第二次开闭机制; 第一压力施加部分; 第二压力施加部分; 第一循环路径; 第三个开闭机构; 第二循环路径,其包括上游端部,其与供给侧公共流路连接,与供给侧单独流路的连接部分连接,所述供给侧单独流路与液体中最远的上游侧的供给侧公共流路连接 循环方向和下游端部连接到排出侧公共流路,并且在供给侧公共流路和排出侧公共流路之间循环液体; 和第四打开/关闭机构。
    • 20. 发明申请
    • GLASS PRODUCT FORMING MACHINE
    • 玻璃制品成型机
    • US20120186301A1
    • 2012-07-26
    • US13499600
    • 2010-09-24
    • Takahiro NishimuraMasaki KataokaShintaro OhnoTakahiro Kotoh
    • Takahiro NishimuraMasaki KataokaShintaro OhnoTakahiro Kotoh
    • C03B9/38
    • C03B9/3816C03B9/3875C03B9/3883C03B9/3891C03B9/41
    • In a glass product forming machine having molds 1A and 1B each composed of a pair of split molds 11 and 12, and a mold cooling device X for cooling the molds 1A and 1B to control the temperatures thereof, in order to prevent the occurrence of a defect such as deformation or cracks in a formed article due to a temperature difference between the split molds 11 and 12, the mold cooling device X is configured to include: cooling mechanisms 3R and 3L provided to the respective split molds, the cooling mechanisms each individually applying cooling air to each of the split molds 11 and 12 of the molds 1A and 1B; valve mechanisms 30R and 30L for individually opening and closing each of paths for introducing cooling air to the respective cooling mechanisms 3R and 3L; temperature detection means for detecting the temperature of at least one of the split molds; and a temperature control device 9 for generating and outputting control signals for controlling the opening and closing operations of the respective valve mechanisms 30R and 30L on the basis of the detected temperature value by the temperature detection means.
    • 在具有由一对分割模具11和12构成的模具1A和1B的玻璃制品成型机中,以及用于冷却模具1A和1B以控制其温度的模具冷却装置X,以防止发生 模具冷却装置X由于分型模具11和12之间的温度差造成的成型制品中的变形或裂纹等缺陷,模具冷却装置X构成为:分别设置在各个模具上的冷却机构3R,3L,各冷却机构 对模具1A,1B的分割模具11,12进行冷却风; 用于单独地打开和关闭用于将冷却空气引导到各个冷却机构3R和3L的各个通路的阀机构30R和30L; 温度检测装置,用于检测所述分模中的至少一个的温度; 以及温度控制装置9,用于根据温度检测装置检测到的温度值产生和输出用于控制各个阀机构30R和30L的打开和关闭操作的控制信号。