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    • 33. 发明申请
    • IMAGE OUTPUT DEVICE, IMAGE OUTPUT METHOD, AND IMAGE DISPLAY APPARATUS
    • 图像输出装置,图像输出方法和图像显示装置
    • US20120154419A1
    • 2012-06-21
    • US13393663
    • 2011-06-29
    • Minehisa NagataMasaya YamamotoShunji HaradaRyota TsukidateRyuji Inoue
    • Minehisa NagataMasaya YamamotoShunji HaradaRyota TsukidateRyuji Inoue
    • G09G5/00
    • H04N5/76G09G2380/16H04N5/765H04N5/782H04N5/783H04N9/8205
    • An image output device includes a receiving unit which receives first input information including position information indicating a position on a display image, an attribute information selecting unit which selects first attribute information corresponding to the position indicated by the position information and is one of pieces of attribute information associated with the displayed image from among the pieces of attribute information, an image selecting unit which selects images having attribute information corresponding to the first attribute information from among images including the displayed image, a display sequence determining unit which determines the display sequence of the images based on the attribute information of each of the images selected by the image selecting unit, and an output unit which acquires and outputs the images such that the selected images are displayed in the determined display sequence on a display device.
    • 图像输出装置包括接收单元,其接收包括指示显示图像上的位置的位置信息的第一输入信息,属性信息选择单元,其选择与位置信息所指示的位置对应的第一属性信息,并且是属性中的一个 与属性信息中的显示图像相关联的信息,从包括显示图像的图像中选择具有与第一属性信息对应的属性信息的图像的图像选择单元,确定显示图像的显示顺序的显示顺序确定单元 基于由图像选择单元选择的每个图像的属性信息的图像,以及输出单元,其获取并输出图像,使得所选择的图像以确定的显示顺序显示在显示装置上。
    • 34. 发明申请
    • COMBUSTIBLE GAS DETECTION APPARATUS AND COMBUSTIBLE GAS SENSOR CONTROL METHOD
    • 可燃气体检测装置和可燃气体传感器控制方法
    • US20110257897A1
    • 2011-10-20
    • US13086810
    • 2011-04-14
    • Masaya WATANABERyuji INOUE
    • Masaya WATANABERyuji INOUE
    • G06F19/00
    • G01N27/128
    • There is provided a combustible gas detection apparatus with a gas sensor and a control device. The gas sensor includes first and second heating resistors each having a resistance that changes depending on a combustible gas concentration of gas under measurement. The control device includes an energization control section that alternately energizes the first and second heating resistors, a first calculation section that calculates a first calculation value responsive to the combustible gas concentration based on a voltage across the first heating resistor during energization of the first heating resistor, a second calculation section that calculates a second calculation value responsive to the combustible gas concentration based on a voltage across the second heating resistor during energization of the second heating resistor, and an anomaly judgment section that judges the occurrence of an anomaly in the first heating resistor by comparison of the first and second calculation values.
    • 提供了具有气体传感器和控制装置的可燃气体检测装置。 气体传感器包括第一和第二加热电阻器,每个电阻器具有随测量气体的可燃气体浓度而变化的电阻。 所述控制装置包括通电控制部,所述通电控制部使所述第一和第二加热电阻交替通电;第一计算部,其基于所述第一加热电阻器的通电期间的所述第一加热电阻器的电压,计算响应于所述可燃气体浓度的第一计算值 第二计算部,其在第二加热电阻器通电期间,基于第二加热电阻器两端的电压,计算响应于可燃气体浓度的第二计算值;以及异常判定部,其判断第一加热中的异常的发生 电阻器通过比较第一和第二计算值。
    • 35. 发明申请
    • Developing device for image forming apparatus and process cartridge having the same
    • 用于图像形成装置的显影装置和具有该显影装置的处理盒
    • US20090208252A1
    • 2009-08-20
    • US12320760
    • 2009-02-04
    • Shuuichi NakagawaRyuji InoueShin MurayamaKazushige OhnishiShintaro Yamada
    • Shuuichi NakagawaRyuji InoueShin MurayamaKazushige OhnishiShintaro Yamada
    • G03G15/08
    • G03G15/0808G03G2215/0634
    • A developing device that can reliably supply toner from a toner supply roller to a developing roller and that does not generate scraping irregularities in the toner thin layer on the developing roller, and a process cartridge and an image forming apparatus having the same. The developing device has: a toner supply chamber; a developing roller provided in the toner supply chamber; a toner supply roller provided in the toner supply chamber for supplying toner to the developing roller; and a layer regulation member for forming the toner on the developing roller into a thin layer, and develops electrostatic latent images on an image carrier by applying bias voltage to the developing roller. An intermediate contact member is interposed between the developing roller and the toner supply roller. The intermediate contact member is a sheet member fixed at one end, and the free end of the sheet member is interposed between the developing roller and the toner supply roller, with the free end side protruding therebetween.
    • 一种能够将调色剂从调色剂供应辊可靠地供应到显影辊并且不会在显影辊上的调色剂薄层中产生刮擦不规则的显影装置,以及具有该调色剂薄膜的处理盒和图像形成装置。 显影装置具有:调色剂供给室; 设置在调色剂供给室中的显影辊; 调色剂供应辊,设置在调色剂供应室中,用于向显影辊供应调色剂; 以及用于将显影辊上的调色剂形成薄层的层调节构件,并通过向显影辊施加偏置电压来在图像载体上显影静电潜像。 中间接触构件介于显影辊和调色剂供应辊之间。 中间接触构件是固定在一端的片状构件,片状构件的自由端介于显影辊和调色剂供应辊之间,其中自由端侧突出。
    • 36. 发明申请
    • DEVELOPING DEVICE, PROCESS CARTRIDGE AND IMAGE FORMING APPARATUS
    • 开发装置,过程盒和图像形成装置
    • US20090041512A1
    • 2009-02-12
    • US12179038
    • 2008-07-24
    • Shin MURAYAMAShuichi NakagawaRyuji InoueShintaro Yamada
    • Shin MURAYAMAShuichi NakagawaRyuji InoueShintaro Yamada
    • G03G15/08
    • G03G15/0815G03G2215/0129
    • A developing device for developing an electrostatic latent image on an image carrier by supplying a one-component developer to the image carrier. Good images can be obtained over long periods of time, without printing history becoming apparent on account of residual developer. The developing device has a developer carrier that is rotatable and disposed facing an image carrier; and a conductive developer supply and recovery member rotatably arranged so as to abut the developer carrier. The rotation direction of the conductive developer supply and recovery member is opposite to the rotation direction of the developer carrier at a position where the developer carrier and the conductive developer supply and recovery member abut each other. A contact pressure P between the developer carrier and the conductive developer supply and recovery member is set so as to satisfy the relationship 0 (kPa)
    • 一种用于通过将单组分显影剂供应给图像载体来在图像载体上显影静电潜像的显影装置。 可以长时间获得良好的图像,而不会因为残留的显影剂而使印刷历史变得明显。 显影装置具有可旋转并且面向图像载体设置的显影剂载体; 以及可旋转地布置成邻接显影剂载体的导电显影剂供应和恢复构件。 导电显影剂供应和恢复构件的旋转方向与显影剂载体和导电显影剂供应和恢复构件彼此抵接的位置处的显影剂载体的旋转方向相反。 将显影剂载体和导电显影剂供给恢复部件之间的接触压力P设定为满足0(kPa)

    • 38. 发明授权
    • Hydrogen sensor
    • 氢传感器
    • US07189364B2
    • 2007-03-13
    • US10119901
    • 2002-04-11
    • Norihiko NadanamiTomonori KondoMasaya WatanabeRyuji InoueNoboru IshidaTakafumi Oshima
    • Norihiko NadanamiTomonori KondoMasaya WatanabeRyuji InoueNoboru IshidaTakafumi Oshima
    • B32B5/02B32B27/04B32B27/12G01N27/00G01N7/00
    • G01N33/005G01N27/4074Y10T436/11Y10T436/203332Y10T436/22Y10T436/25875
    • A hydrogen sensor includes a first electrode 3 and a second electrode 4 provided in contact with a proton conduction layer 2; a gas diffusion controlling portion 6 provided between a measurement gas atmosphere and the first electrode 3; and a support element (1a, 1b) for supporting the proton conduction layer 6, the first electrode 3, the second electrode 4, and the gas diffusion controlling portion 6. Hydrogen contained in a measurement gas introduced via the gas diffusion controlling portion 6 is dissociated, decomposed, or reacted by applying a voltage between the first electrode 3 and the second electrode 4 to thereby generate protons. Hydrogen concentration is obtained on the basis of a limiting current generated as a result of the generated protons being pumped out via the proton conduction layer 2 from the first electrode 3 side of the proton conduction layer to the second electrode 4 side of the proton conduction layer. Hydrogen concentration on the first electrode 2 is controlled to a partial pressure of not less than 10−12 atm, or more preferably, of not less than 3×10−12 atm and of less than 10−2 atm.
    • 氢传感器包括与质子传导层2接触而设置的第一电极3和第二电极4; 设置在测量气体气氛和第一电极3之间的气体扩散控制部分6; 以及用于支撑质子传导层6,第一电极3,第二电极4和气体扩散控制部分6的支撑元件(1a,1b)。 通过气体扩散控制部分6导入的测量气体中所含的氢离子,分解或反应,通过在第一电极3和第二电极4之间施加电压从而产生质子。 基于由生成的质子经由质子传导层2从质子传导层的第一电极3侧向质子传导层的第二电极4侧泵出的限制电流获得氢浓度 。 将第一电极2上的氢浓度控制在不低于大气压的分压,或者更优选不低于3×10 12大气压,以及 小于10-2大气压。
    • 40. 发明授权
    • Gas sensor, method of manufacturing the same, and gas sensor system using the gas sensor
    • 气体传感器及其制造方法以及使用气体传感器的气体传感器系统
    • US06338783B1
    • 2002-01-15
    • US09448441
    • 1999-11-24
    • Ryuji InoueShoji KitanoyaTomohiro FumaKenji KatoTakafumi Oshima
    • Ryuji InoueShoji KitanoyaTomohiro FumaKenji KatoTakafumi Oshima
    • G01N27407
    • G01N27/417
    • A gas sensor which can detect the concentration of a combustible gas component in a measurement gas with high accuracy even when the oxygen concentration of the measurement gas or the element temperature changes and which has an excellent response in detecting the combustible gas component is disclosed. In a gas sensor 1, the oxygen concentration of a measurement gas is adjusted to a predetermined level within a first processing space 9 through operation of a first oxygen pump element 3. The measurement gas having an adjusted oxygen concentration is then introduced into a second processing space 10, where a combustible gas component is burned through the assistance of electrodes 16 and 17 functioning as oxidation catalyst sections. Constant voltage is applied to a combustible gas component concentration detection element 5. In this state, when the amount of oxygen changes due to the combustion of the combustible gas component, the output current of the combustible gas component concentration detection element 5 changes with change in the amount of oxygen. Therefore, information regarding the combustible gas component concentration of the original measurement gas can be obtained from the value of the output current. Further, oxygen required to burn the combustible gas component within the second processing space 10 is supplemented by a second oxygen pump element 6. Unlike conventional apparatuses, no feedback system is used, and a variation in the concentration of the combustible gas component appears directly as a variation in the current of the combustible gas component concentration detection element 5. Therefore, a high detection response is obtained.
    • 公开了一种气体传感器,其即使在测量气体或元件温度的氧浓度变化并且在检测可燃气体成分时具有优异的响应性的情况下也可以高精度地检测测量气体中的可燃气体成分的浓度。 在气体传感器1中,测量气体的氧浓度通过第一氧气泵元件3的操作在第一处理空间9内被调节到预定水平。然后将具有调节氧浓度的测量气体引入第二处理 空间10,其中通过用作氧化催化剂部分的电极16和17的帮助燃烧可燃气体组分。 恒定电压被施加到可燃气体成分浓度检测元件5上。在这种状态下,当由于可燃性气体成分的燃烧而导致氧气的变化时,可燃性气体成分浓度检测元件5的输出电流随着 氧气量。 因此,可以从输出电流的值获得关于原始测量气体的可燃气体成分浓度的信息。 此外,在第二处理空间10内燃烧可燃气体成分所需的氧被第二氧气泵元件6补充。与常规装置不同,不使用反馈系统,并且可燃气体组分的浓度的变化直接作为 可燃性气体成分浓度检测元件5的电流的变化。因此,获得高检测响应。