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    • 31. 发明授权
    • Flat display device and fabricating method of the same
    • 平板显示装置及其制造方法
    • US06518702B1
    • 2003-02-11
    • US09547794
    • 2000-04-12
    • Hiroshi Mori
    • Hiroshi Mori
    • H01J1749
    • H01J11/14H01J11/16H01J11/26H01J2211/265
    • To improve high-definition and high-density display in a flat display device, and reduce driving power, namely, power consumption. First and second substrates 1 and 2 are disposed so as to oppose each other, and a discharge maintaining electrode group 5, which is constituted so that plural pairs of discharge maintaining electrodes 3 and 4 are disposed, is formed on the first substrate 1, and an address electrode group, which is constituted so that a plurality of address electrodes are disposed, is formed on the second substrate. Particularly plasma discharge display is executed by mainly utilizing cathode glow discharge so that spacing between the electrodes is made to be narrow, and high-definition and high-density display is possible.
    • 为了改善平面显示装置中的高清晰度和高密度显示,并且降低驱动功率,即功耗。 第一和第二基板1和2彼此相对配置,并且在第一基板1上形成有排列保持电极组5,其被设置成使得多个放电维持电极3和4对被配置,并且 在第二基板上形成有构成为配置多个寻址电极的寻址电极组。 特别地,通过主要利用阴极辉光放电来执行等离子体放电显示,使得电极之间的间隔变窄,并且可以进行高清晰度和高密度显示。
    • 33. 发明授权
    • Method for manufacturing a flat display panel device
    • 制造平板显示面板装置的方法
    • US6024619A
    • 2000-02-15
    • US182460
    • 1998-10-30
    • Hiroshi MoriAkio MishimaEitaro Yoshikawa
    • Hiroshi MoriAkio MishimaEitaro Yoshikawa
    • B24C1/04B24C11/00G09F9/313H01J9/02H01J9/18H01J9/24H01J11/12H01J11/26H01J11/36H01J11/42H01J17/49H01J9/227
    • H01J9/242H01J9/185H01J2211/36
    • This invention relates to a method for manufacturing a flat display panel device suitable for being applied to a plasma display panel and the like. In the method comprising forming a barrier-ridge-forming layer over a whole surface of a substrate having an electrode pattern, then removing from barrier-ridge-forming layer the unnecessary portions by jetting an abrasive, so as to form a barrier ridge, and further filling the removed portions with fluorescent paste layer and removing from fluorescent paste layer the unnecessary portions by jetting the abrasive until a given discharge space can be kept. Organic material particles coated with an inorganic material are used as the abrasive for removing the barrier-ridge-forming layer and/or the fluorescent paste layer. By coating the organic material with the inorganic material, the abrasive particles become roundish. Thus, even if these are used as the abrasive, it is not feared that they injury the surfaces of the glass substrate and the address electrode.
    • 本发明涉及适用于等离子体显示面板等的平面显示面板装置的制造方法。 在包括在具有电极图案的基板的整个表面上形成阻挡脊形成层的方法中,然后通过喷射研磨剂从阻挡脊形成层去除不需要的部分以形成阻挡脊,以及 进一步用荧光膏层填充除去的部分,并通过喷射磨料直到可以保持给定的放电空间从荧光膏层除去不需要的部分。 用无机材料涂覆的有机材料颗粒被用作去除阻挡脊形成层和/或荧光膏层的研磨剂。 通过用无机材料涂覆有机材料,磨料颗粒变得圆润。 因此,即使将它们用作研磨剂,也不用担心它们会损伤玻璃基板和寻址电极的表面。
    • 35. 发明授权
    • Exhaust emission purification apparatus
    • 排气净化装置
    • US5647206A
    • 1997-07-15
    • US493505
    • 1995-06-22
    • Takahiko YamamotoHiroshi MoriMasakazu TanakaMakoto SaitoMamoru Mabuchi
    • Takahiko YamamotoHiroshi MoriMasakazu TanakaMakoto SaitoMamoru Mabuchi
    • F01N3/24F01N3/08F01N3/20F02M25/07F01N3/28
    • F01N3/2053F01N3/0814F01N3/0835F01N3/0871F01N3/0878F02M26/15F01N2240/18F01N2250/12F01N2410/12
    • To be able to efficiently and rapidly reduce noxious exhaust gas components after starting of an engine without impeding activation of a catalyst device, and moreover to be able to perform rapid separation of noxious exhaust gas components, an adsorption device 5 for adsorbing noxious exhaust gas components is provided downstream of a catalyst device constituting a main mode of operation of exhaust-gas purification, a honeycomb body carrying adsorbent is disposed within the adsorption device, a bypass passage is formed to one side of the honeycomb body, and a switching valve is provided upstream of those components. After engine starting, the switching valve opens, exhaust gas flows in the passage on the honeycomb body side, and HC is adsorbed by the adsorbent. Meanwhile, when exhaust-gas temperature rises and a condition wherein HC separates from the adsorbent is reached, the switching valve is closed, adsorption components which have become high in temperature due to exhaust gas heat separate from an passage between the downstream of this switching valve and the honeycomb body, and are refluxed via reflux passages and to an upstream side of the foregoing catalyst device.
    • 为了能够在不阻碍催化剂装置的启动的情况下有效地且快速地减少发动机的有害排气成分,而且能够快速分离有害排气成分,则吸附装置5用于吸附有害废气成分 设置在构成废气净化的主要操作模式的催化剂装置的下游,在吸附装置内设置有携带有蜂窝体的吸附剂,在蜂窝体的一侧形成旁通通路,并且设置有切换阀 在这些组件的上游。 发动机启动后,开关阀打开,废气在蜂窝体侧的通道中流动,HC被吸附剂吸附。 同时,当废气温度升高并且HC与吸附剂分离的条件达到时,切换阀关闭,由于废气热而变得高温的吸附组分与该切换阀的下游之间的通道分离 和蜂窝体,并通过回流通道回流到上述催化剂装置的上游侧。
    • 37. 发明授权
    • Solid state imaging apparatus
    • 固态成像装置
    • US5422669A
    • 1995-06-06
    • US989330
    • 1992-12-11
    • Hiroshi Mori
    • Hiroshi Mori
    • H04N5/235H04N5/238H04N5/335H04N5/341H04N5/353H04N5/369H04N5/3722H04N5/3725H04N5/3728H04N5/378H04N3/14
    • H04N3/155H04N5/2352H04N5/238
    • A solid state imaging apparatus which prevents occurrence of small aperture fading by diffraction of light and can control the amplitude level of an image signal within a prescribed range. The solid state imaging apparatus employs a solid state imaging element such as a CCD. When the level of an image signal outputted from the solid state imaging element exceeds a predetermined value, a driving motor is driven to effect adjustment of an iris. The capacitance of a variable capacitance diode provided in a voltage converting section of the solid state imaging element is controlled in accordance with the amplitude level of the image signal to control the voltage conversion efficiency of the voltage converting section of the solid state imaging element so as to fix the level of the image signal.
    • 一种固态成像装置,其防止光的衍射引起的小孔径衰减,并且可以将图像信号的幅度水平控制在规定范围内。 固态成像装置采用诸如CCD的固态成像元件。 当从固态成像元件输出的图像信号的电平超过预定值时,驱动电机被驱动以实现虹膜的调节。 设置在固态成像元件的电压转换部分中的可变电容二极管的电容根据图像信号的幅度电平进行控制,以控制固态成像元件的电压转换部分的电压转换效率,以便 以固定图像信号的电平。
    • 38. 发明授权
    • Facsimile apparatus
    • 传真机
    • US5418630A
    • 1995-05-23
    • US946672
    • 1992-09-18
    • Hiroshi MoriMatahira KotaniMotohiko HayashiMasayuki Hachinoda
    • Hiroshi MoriMatahira KotaniMotohiko HayashiMasayuki Hachinoda
    • H04N1/00H04N1/32
    • H04N1/00111H04N1/00095H04N1/32363H04N1/32379H04N1/32496
    • A facsimile apparatus is provided which can enhance the operability and usefulness of portable image reading devices when transmitting documents and which allows effective utilization of the image reading device. The facsimile apparatus includes a main unit and a separable handscanner between which image signals and various control signals are transmitted using an optical communication technique. A document is scanned by a handscanner that generates signals representing the document image. The image signals are temporarily stored in an image memory and transmitted to the main unit when necessary. Depending on the hook state of the telephone, the main unit either transmits the received image signals to a remote station or records the image on recording paper. When the main unit receives image signals over a telephone network, the received image signals are transmitted to the handscanner for storage into the image memory when necessary. This is done for example, when the so-called memory reception mode is set or when a recording section in the main unit is in a non-normal state.
    • 提供了一种传真装置,其可以在传送文件时增强便携式图像读取装置的可操作性和有用性,并且允许图像读取装置的有效利用。 该传真装置包括主单元和可分离的手持扫描器,其间使用光通信技术传输图像信号和各种控制信号。 手持扫描仪扫描文档,生成表示文档图像的信号。 图像信号临时存储在图像存储器中,并在必要时传送到主单元。 根据电话的挂机状态,主机将接收到的图像信号发送到远程站,或者将图像记录在记录纸上。 当主单元通过电话网接收图像信号时,接收的图像信号被发送到手持扫描器,以便在需要时存储到图像存储器中。 例如,当设置所谓的存储器接收模式时或者当主单元中的记录部分处于非正常状态时,这是完成的。