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    • 2. 发明授权
    • Remote control apparatus and a receiver and an audio system
    • 遥控装置和接收器和音频系统
    • US06954538B2
    • 2005-10-11
    • US09873563
    • 2001-06-04
    • Tadashi Shiraishi
    • Tadashi Shiraishi
    • H04S7/00H04Q9/00H04S3/00H04S5/02H03G3/00
    • H04S7/301H04S3/00
    • In regard to an audio system using a plurality of speakers, various settings, adjustment and compensation of a receiver are enabled. A remote control apparatus which can operate and adjust a multi-channel receiver includes a transmitter for transmitting data to the receiver; a microphone for receiving sound outputted from the receiver; and an arithmetic operating unit which calculates the state of the receiver from the sound received by the microphone and analyzes an adjustment value of the receiver from a calculation result, wherein the transmitter transmits data for initiating adjustment for the receiver and transmits an analysis result obtained by the arithmetic operating unit to the receiver.
    • 关于使用多个扬声器的音频系统,能够实现接收机的各种设置,调整和补偿。 可操作和调整多频道接收机的遥控装置包括用于向接收机发送数据的发射机; 用于接收从接收器输出的声音的麦克风; 以及算术运算单元,其根据由麦克风接收的声音计算接收机的状态,并根据计算结果分析接收机的调整值,其中,所述发送器发送用于开始接收机调整的数据,并发送由 算术运算单元接收器。
    • 6. 发明申请
    • ACCUMULATOR AND METHOD OF MANUFACTURING FLOW DAMPER
    • 累积器及制造流量阻尼器的方法
    • US20080121299A1
    • 2008-05-29
    • US11564034
    • 2006-11-28
    • Tadashi Shiraishi
    • Tadashi Shiraishi
    • F15C1/16F15D1/00G05D7/01
    • G21C15/18F15D1/0015G21Y2002/201G21Y2002/207G21Y2002/304G21Y2004/302Y02E30/40Y10T29/49Y10T137/2098Y10T137/2115
    • An object of the present invention is to provide an accumulator including a flow damper which is capable of forming a strong vortex in a vortex chamber to thereby obtain a high flow resistance at the time of a small flow injection. To this end, the following are performed for the flow damper of the accumulator: an extension line of an inner surface, at the side of a large flow pipe, of a small flow pipe is drawn from a junction of the small flow pipe and a large flow pipe; a straight line is drawn from the junction in a free-jet-spread proportion relative to the extension line; a first intersecting point of this straight line and an inner surface, at the opposite side of the small flow pipe, of the large flow pipe is obtained; a tangent is drawn from this first intersecting point to an inner peripheral surface of a vortex chamber to obtain a second intersecting point of the tangent and the inner peripheral surface of the vortex chamber; a flat surface portion including a line linking the first intersecting point with the second intersecting point is used as an extended surface portion of the inner peripheral surface of the vortex chamber; and a junction of this extended surface portion and the inner surface, at the opposite side of the small flow pipe, of the large flow pipe is used as a junction of the large flow pipe and the vortex chamber.
    • 本发明的目的是提供一种包括流动阻尼器的蓄能器,其能够在涡流室中形成强烈的涡流,从而在小流量注入时获得高流动阻力。 为此,对于蓄能器的流动阻尼器进行以下操作:从小流量管的接合处抽出小流量管的大流量管侧的内表面的延长线 大流量管; 从连接处以相对于延伸线的自由喷射扩展比例绘制直线; 得到大流量管的该直线的第一交点和小流量管的相对侧的内表面; 从该第一相交点将切线从涡流室的内周面拉出,得到涡流室的切线和内周面的第二交点; 使用包括将第一交点与第二交叉点连接的线的平坦表面部分作为涡流室的内周表面的延伸表面部分; 并且该大流量管的小流量管的相对侧的该延伸表面部分和内表面的接合点用作大流量管和涡流室的接合点。
    • 8. 发明授权
    • Method of flushing a coil pipes(s) of a heat exchanger
    • 冲洗热交换器的一个或多个管道的方法
    • US07380557B2
    • 2008-06-03
    • US10699136
    • 2003-10-31
    • Tadashi Shiraishi
    • Tadashi Shiraishi
    • B08B9/02
    • B08B9/057B24C1/003B24C1/086B24C3/327F28G9/00
    • A heat exchanger coil pipe is internally cleaned off dirt deposits by forcing ice and water to pass the pipe. A system for carrying out the cleaning comprises a suction pump, a wastewater collecting tank, a suction hose for connection between the waste and wash water collecting tank and a heat transfer medium inlet or outlet of the pipe and an ice-feeding hose provided at one end with a hopper and connectable at the other end to the heat transfer medium outlet or inlet pipe. In the state of the suction hose being connected to the heat transfer medium inlet or outlet and the suction hose being connected to the heat transfer medium outlet or inlet, ice and water are supplied from the hopper and drawn into the ice by suction from the suction pump to flow in the coil pipe and collected into the wastewater collecting tank.
    • 热交换器盘管通过迫使冰和水通过管道而被内部清除污垢沉积物。 用于执行清洁的系统包括抽吸泵,废水收集箱,用于在废物和洗涤水收集箱之间连接的吸入软管和管道的传热介质入口或出口以及设置在一侧的供冰软管 端部带有料斗,另一端可与传热介质出口或入口管连接。 在抽吸软管连接到传热介质入口或出口的状态下,抽吸软管连接到传热介质出口或入口,冰和水从料斗供给并通过抽吸抽吸到冰中 泵在线管中流动并收集到废水收集罐中。
    • 9. 发明申请
    • ACCUMULATOR
    • 累加器
    • US20080121300A1
    • 2008-05-29
    • US11564046
    • 2006-11-28
    • Tadashi Shiraishi
    • Tadashi Shiraishi
    • F15C1/06F15C1/16G21C15/18
    • G21C15/18F15D1/0015G21Y2002/201G21Y2002/207G21Y2002/304G21Y2004/302Y02E30/40Y10T137/2115Y10T137/2169Y10T137/2224
    • An object of the present invention is to provide an accumulator including a flow damper which is capable of performing a control so that a vortex may not be formed in a vortex chamber at the time of a large flow injection without requiring huge labors and fabrication costs. The flow damper is configured of a colliding jet controller (a bevel or a projection) for controlling a colliding jet composed of a jet from a large flow pipe and a jet from a small flow pipe flowing into a vortex chamber at the time of a large flow injection so that the colliding jet may proceed directly to an outlet without forming a vortex in the vortex chamber. The colliding jet controller is provided at a junction of an inner surface of the small flow pipe and an inner surface of the vortex chamber.
    • 本发明的目的是提供一种包括流动阻尼器的蓄能器,其能够执行控制,使得在大流量注入时不会在涡流室中形成涡流,而不需要巨大的劳力和制造成本。 流动阻尼器由碰撞喷射控制器(斜面或突起)构成,用于控制由大流量管的射流构成的碰撞射流和来自流入涡流室的小流量管的射流 流动注射使得碰撞射流可以直接进入出口而不在涡流室中形成涡流。 碰撞喷射控制器设置在小流量管的内表面和涡流室的内表面的接合处。
    • 10. 发明授权
    • Foreign matter removing device and method
    • 异物去除装置及方法
    • US06988935B2
    • 2006-01-24
    • US10470266
    • 2002-08-07
    • Tadashi ShiraishiMasatoshi YoshidaKazunori KumadaKeita NakagawaMakoto MatsubayashiMitsuhiro Matsuda
    • Tadashi ShiraishiMasatoshi YoshidaKazunori KumadaKeita NakagawaMakoto MatsubayashiMitsuhiro Matsuda
    • B24B3/32
    • B08B9/057B24C1/086B24C3/325F28G1/163
    • The present invention is one for providing an apparatus and a method which make it possible to remove a foreign object or matter such as scale attached on an inner surface of a pipe easily for a short period of time by means of simple equipment and manner, and constituted as follows. Specifically, a holder (11) is attached onto an end of a pipe (P), an abrasion assisting member (16) fixed to a tip end of a support arm (15) is inserted into the pipe (P) by use of the holder (11) and stopped at an area (A) where oxide scale (S) is generated in a large amount. Then abrasive is sent with pressure into the pipe (P) by a blast device (14), and thus a flow rate of the abrasive in the scale-abraded area (A) is increased to abrade and remove the oxide scale (S) securely. Moreover, if required, a spiral groove (17) is formed on an outer circumference of the abrasion assisting member (16) to increase centrifugal force of the abrasive.
    • 本发明是提供一种能够通过简单的设备和方式在短时间内容易地除去附着在管道内表面上的外来物质或物质的物质或方法的装置和方法, 构成如下。 具体而言,在管(P)的端部安装有保持器(11),将固定于支撑臂(15)的前端的磨耗辅助构件(16)通过使用 (11)并停止在大量产生氧化皮(S)的区域(A)处。 然后通过鼓风装置(14)将研磨剂压力送入管道(P),从而增加了刻度磨损区域(A)中磨料的流速,以便研磨并清除氧化皮(S) 。 此外,如果需要,在磨损辅助构件(16)的外周上形成有螺旋槽(17),以增加磨料的离心力。