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    • 1. 发明授权
    • Interactive CAD apparatus for designing packaging of logic circuit design
    • 用于设计逻辑电路设计封装的交互式CAD设备
    • US6117183A
    • 2000-09-12
    • US894695
    • 1997-08-26
    • Mieko TeranishiYoshiyuki IwakuraMasaharu NishimuraAkira KatsumataMasato Ariyama
    • Mieko TeranishiYoshiyuki IwakuraMasaharu NishimuraAkira KatsumataMasato Ariyama
    • G06F17/50
    • G06F17/5031G06F17/5068
    • Disclosed is an interactive CAD apparatus for logic circuit packaging design, wherein provisions are made to display delay times in real time when a component is being moved, so that error-contributing components and interconnections can be easily identified and the optimum position can be easily determined. The apparatus includes: a component moving unit, responsive to an operator's instruction, for moving a component on a display screen where a component placement diagram is displayed; an associated path extraction unit for extracting a signal path associated with the component being moved by the component moving unit; a temporary position calculation unit for calculating temporary position data representing a placement position corresponding to the position of the component on the display screen at prescribed intervals of time when the component is being moved by the component moving unit; an associated path delay calculation unit for successively calculating delay values for the signal path extracted by the associated path extraction unit, based on the temporary position data calculated by the temporary position calculation unit; and an associated path delay display unit for successively displaying the delay values calculated by the associated path delay calculation unit.
    • PCT No.PCT / JP97 / 00015 Sec。 371日期:1997年8月26日 102(e)日期1997年8月26日PCT 1997年1月8日PCT公布。 公开号WO97 / 25681 日期1997年7月17日公开是一种用于逻辑电路封装设计的交互式CAD设备,其中规定了在组件移动时实时显示延迟时间,从而可以容易地识别出错误的组件和互连,并且最优 位置可以很容易地确定。 该装置包括:组件移动单元,响应于操作者的指示,用于移动显示屏幕上的组件,其中显示组件放置图; 相关联的路径提取单元,用于提取与由所述分量移动单元移动的分量相关联的信号路径; 临时位置计算单元,用于当由所述分量移动单元移动所述分量时,以规定的时间间隔计算表示与所述分量在所述显示屏幕上的位置相对应的放置位置的临时位置数据; 相关联的路径延迟计算单元,用于基于由临时位置计算单元计算的临时位置数据连续地计算由相关联的路径提取单元提取的信号路径的延迟值; 以及相关联的路径延迟显示单元,用于连续显示由相关联的路径延迟计算单元计算的延迟值。
    • 5. 发明授权
    • Outer casing covering gas turbine combustor
    • 外壳覆盖燃气轮机燃烧器
    • US07013647B2
    • 2006-03-21
    • US10023702
    • 2001-12-21
    • Masaharu NishimuraMasaki OnoKeizo OhnishiKatsunori Tanaka
    • Masaharu NishimuraMasaki OnoKeizo OhnishiKatsunori Tanaka
    • F02C7/24F01D25/04
    • F23R3/002F23R2900/00014
    • A combustor structure of a gas turbine, in which a sheet-like vibration damper, which resonates with the air vibration in the intake chamber and absorbs the energy of the air vibration, is attached to the inner wall of the casing by an attaching member via a space.The sheet-like vibration damper is made of a single-layered thin flat plate or multi-layered thin flat plates. In case of the multi-layered thin flat plate, the air vibration energy in the intake chamber is absorbed not only by resonance but also by friction among the multi-layered thin plates. The sheet-like vibration damper may be made of a three-dimensional profile member having an inner space in which the attaching member is housed. If the thin flat plates are used, the surface areas thereof are not identical. If the three-dimensional profile members are used, the volumes of the inner spaces are not identical. Consequently, the sheet-like vibration damper can absorb and attenuate the vibration energy of different frequencies. If holes to connect spaces on opposite sides of the sheet-like vibration damper are formed in the sheet-like vibration damper, the air circulates between the spaces on opposite sides of the sheet-like vibration damper. Thus, the sheet-like vibration damper easily vibrates.
    • 一种燃气轮机的燃烧器结构,其中与吸入室中的空气振动共振并吸收空气振动能量的片状振动阻尼器通过附接构件通过连接构件连接到壳体的内壁 一个空间 片状振动阻尼器由单层薄平板或多层薄平板构成。 在多层薄平板的情况下,进气室中的空气振动能量不仅通过共振而且被多层薄板之间的摩擦吸收。 片状振动阻尼器可以由具有容纳安装构件的内部空间的三维轮廓构件制成。 如果使用薄平板,其表面积不相同。 如果使用三维轮廓构件,则内部空间的体积不相同。 因此,片状振动阻尼器可以吸收和衰减不同频率的振动能量。 如果在片状振动阻尼器中形成用于连接片状振动阻尼器的相对侧的空间的孔,则空气在片状振动阻尼器的相对侧的空间之间循环。 因此,片状振动阻尼器容易振动。
    • 6. 发明授权
    • Gas turbine exhaust passage and damper system for same having a non-enclosed porous peripheral wall
    • 具有非封闭多孔周边壁的燃气轮机排气通道和阻尼器系统
    • US06539702B2
    • 2003-04-01
    • US09158149
    • 1998-09-22
    • Masaharu NishimuraMasazumi KataokaMichio MatsumotoYoshifumi Masuda
    • Masaharu NishimuraMasazumi KataokaMichio MatsumotoYoshifumi Masuda
    • F02C724
    • F02C7/24F01D25/30F01N1/24F01N2310/00
    • A gas turbine exhaust passage is realized which may suppress the radiation of strong ultra low frequency noise to the outside without amplifying the turbulence of an high speed exhaust gas flow rate or a pressure pulsation generated in a gas turbine. At least a portion of a wall of a gas turbine exhaust passage (3, 5) is formed of an acoustically transmissive material (36, 56) for allowing a low frequency noise of several tens of Hz or less to pass therethrough sufficiently. Also, the acoustically transmissive material is made of one or more of a porous material, a porous heat insulating material, a mesh having a large flow resistance, cloth or film material. Further, the acoustically transmissive material is supported by a porous plate or a frame. In a case where an acoustically transmissive material is used only for an exhaust chimney (5), the exhaust chimney (5) is supported by a rack (11). Further, a soundproof panel (12) may be attached to the rack (11). Also, a damper provided at a branch portion between an exhaust gas boiler branched from the gas turbine exhaust passage and the gas turbine exhaust passage is formed of acoustically transmissive material for allowing a low frequency noise of several tens of Hz or less to pass therethrough sufficiently.
    • 实现燃气轮机排气通道,其可以抑制强超低频噪声向外部的辐射,而不会放大在燃气轮机中产生的高速排气流量或压力脉动的紊流。 燃气轮机排气通道(3,5)的壁的至少一部分由声透射材料(36,56)形成,用于允许几十赫兹或更小的低频噪声充分通过。 此外,声透射材料由多孔材料,多孔绝热材料,具有大流动阻力的网,布或薄膜材料中的一种或多种制成。 此外,声透射材料由多孔板或框架支撑。 在仅使用排气烟囱(5)的声透射材料的情况下,排气烟囱(5)由支架(11)支撑。 此外,隔音板(12)可以附接到搁架(11)。 此外,设置在从燃气轮机排气通道分支的废气锅炉和燃气轮机排气通道之间的分支部分处的阻尼器由用于允许几十赫兹或更低的低频噪声通过其的透声材料形成 。
    • 7. 发明授权
    • Active acoustic wall
    • 有源隔音墙
    • US6041125A
    • 2000-03-21
    • US769381
    • 1996-12-19
    • Masaharu NishimuraKeizo OhnishiChiaki YasudaShinichiro KajiiWilliam P. PatrickAnthony C. Zander
    • Masaharu NishimuraKeizo OhnishiChiaki YasudaShinichiro KajiiWilliam P. PatrickAnthony C. Zander
    • E01F8/00E04B1/82G10K11/172G10K11/178A61F11/06
    • G10K11/172
    • An active acoustic wall has sound-pressure detectors provided within respective cells so that a detected signal acts to oscillate an oscillation plate in the cell. A porous material on a surface is thereby provided with a high sound absorption coefficient over a wide frequency range. A space between a porous material or a perforated plate 1 on the surface and a back material fixed on a back side is divided into a plurality of sections so as to form cells 10 containing an air layer or a porous sound-absorbing material. Oscillation plates 6 are arranged within respective cells 10 so as to be driven for oscillation by oscillation-plate driving units 5. Sound-pressure detectors 7 are provided close to the porous material 1 in the cell 10 so that a detected signal is inputted to a signal-processing unit 8. The signal processing unit 8 outputs a signal to the driving unit 5 for oscillating the oscillation plate 6 such that an output of the sound-pressure detector is minimized. The sound pressure on the surface of the porous material 1 is minimized at all frequencies. The velocity of particles on the surface becomes large so that the particles are turned into thermal energy, thereby providing a high sound-absorption coefficient.
    • 主动声学墙具有设置在各个单元内的声压检测器,使得检测信号用于振荡单元中的振荡板。 由此,在宽的频率范围内,表面上的多孔材料具有高吸声系数。 表面上的多孔材料或多孔板1之间的空间和固定在背面的背面材料被分成多个部分,以形成包含空气层或多孔吸声材料的电池10。 振荡板6布置在各个电池单元10内,以便被振荡板驱动单元5驱动以进行振荡。声压检测器7设置在电池单元10中靠近多孔材料1的位置,从而将检测信号输入到 信号处理单元8.信号处理单元8向驱动单元5输出振荡振荡板6的信号,使得声压检测器的输出最小化。 在多孔材料1的表面上的声压在所有频率下被最小化。 表面上的颗粒的速度变大,使得颗粒变成热能,从而提供高的吸声系数。
    • 8. 发明授权
    • Gas turbine combustor having an acoustic energy absorbing wall
    • 具有声能吸收壁的燃气轮机燃烧器
    • US06907736B2
    • 2005-06-21
    • US10032035
    • 2001-12-31
    • Keizo OhnishiKazufumi IkedaMasaki OnoMasaharu NishimuraKatsunori Tanaka
    • Keizo OhnishiKazufumi IkedaMasaki OnoMasaharu NishimuraKatsunori Tanaka
    • F23M99/00F23R3/00F02C7/24F23R3/06
    • F23R3/002F23M20/005F23R2900/00014
    • A gas turbine combustor in which a part or all of the wall of the combustor disposed within an intake chamber is formed as an acoustic energy absorbing member that can absorb the acoustic energy of a combustion variation generated within the combustor. The acoustic energy absorbing member is constructed of a thin corrugated plate in a circumferential direction, a high-temperature-proof perforated material, or a back plate disposed at the outside of a perforated plate in a radial direction with a distance from the perforated plate. It is also possible to provide a covering member at the outside of the acoustic energy absorbing member in a radial direction, for covering the acoustic energy absorbing member with a distance from the acoustic energy absorbing member. It is preferable that the acoustic energy-absorbing member and/or the covering member are reinforced with a frame that extends in a circumferential direction and/or a longitudinal direction.
    • 一种燃气轮机燃烧器,其中设置在进气室内的燃烧器的壁的一部分或全部形成为能够吸收燃烧器内产生的燃烧变化的声能的声能吸收构件。 声能吸收构件由圆周方向的薄波纹板,耐高温多孔材料或设置在多孔板的外侧的径向方向上与多孔板的距离构成的背板构成。 还可以在声能吸收构件的外侧沿径向方向设置覆盖构件,以覆盖距离声能吸收构件一定距离的声能吸收构件。 优选的是,声能吸收构件和/或覆盖构件通过在圆周方向和/或纵向方向上延伸的框架来增强。