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    • 3. 发明申请
    • INSULATOR FOR AUDIO AND METHOD FOR EVALUATING SAME
    • 用于音频的绝缘体和用于评估它的方法
    • US20130206499A1
    • 2013-08-15
    • US13813151
    • 2011-07-29
    • Teruo MaruyamaKozo OkamotoSatoki YamaguchiAkio Tajima
    • Teruo MaruyamaKozo OkamotoSatoki YamaguchiAkio Tajima
    • G10K15/00
    • G10K15/00F16F1/128F16F3/12F16F13/02G10C3/00G10D3/003H04R1/026
    • In a conventional hard material insulator, reproduced sound can be tuned with use of characteristics of the material; however, various types of acoustic materials have specific high frequency characteristics, and thus their acoustic effects lack versatility, require compatible audio devices, and change with environment, musical genre, etc. To address this, a wind-bell member (resonant member) is arranged in parallel with a main propagation path of vibration transferred from an audio device to an insulator. Accordingly, a vibration system of a wind-bell having a tone determined by many factors such as a fundamental tone, harmonic tones, lingering sound, and fluctuation assists (enhances) high frequency vibration propagated from the audio device. As a result, due to the above assist action that is different in principle from a conventional type, acoustic characteristics such as a sense of localization, resolution, and a sense of transparency and scale a sound image can be dramatically improved.
    • 在传统的硬质材料绝缘体中,再现的声音可以利用材料的特性进行调节; 然而,各种类型的声学材料具有特定的高频特性,因此它们的声学效果缺乏通用性,需要兼容的音频设备,并且随环境,音乐类型等而改变。为了解决这个问题,风铃构件(共振构件) 与从音频装置传递到绝缘体的振动的主传播路径平行布置。 因此,具有由诸如基本色调,谐波音调,延迟声音和波动的许多因素确定的音调的风铃的振动系统有助于(增强)从音频装置传播的高频振动。 结果,由于上述原理上与常规类型不同的辅助动作,可以显着地提高诸如定位感,分辨率,透明度感和声音图像之类的声学特性。
    • 6. 发明授权
    • Vacuum pump having different diameter rotors and a drive motor
synchronization system
    • 真空泵具有不同直径的转子和驱动电机同步系统
    • US5782609A
    • 1998-07-21
    • US494737
    • 1995-06-26
    • Yoshihiro IkemotoTeruo Maruyama
    • Yoshihiro IkemotoTeruo Maruyama
    • F04C23/00F04C25/02F04C29/00F04D19/04F04B49/06F04B17/00F04B35/04
    • F04C29/0085F04D19/046F04C2240/402
    • A vacuum pump includes a plurality of rotors of different outer diameters accommodated in a housing so that a fluid transportation space is defined by the housing and the plural rotors. Rotary shafts are integrally formed with the respective rotors and a first motor, which is a high frequency motor, for driving the rotary shaft of the smaller diameter rotor as a driving shaft. A second motor, which is an AC servo motor or pulse motor, is provided for driving the other rotary shaft as a driven shaft. A rotation detecting device is provided adjacent each shaft for detecting rotating angles and/or rotating speeds of the first and second motors. Also provided is a fluid suction port and a fluid discharge port which are formed in the housing, and a control device for controlling rotation of the driven shaft based on data from the rotation detecting device so as to synchronize the rotation of the driven shaft driven by the second motor with that of the driving shaft driven by the first motor.
    • 真空泵包括容纳在壳体中的不同外径的多个转子,使得流体输送空间由壳体和多个转子限定。 旋转轴与各个转子一体地形成,作为高频电动机的第一电动机,用于驱动较小直径的转子的旋转轴作为驱动轴。 作为AC伺服电动机或脉冲电动机的第二电动机被设置为用于驱动作为从动轴的另一旋转轴。 旋转检测装置设置在每个轴附近,用于检测第一和第二电动机的旋转角度和/或转速。 还提供了形成在壳体中的流体吸入口和流体排出口,以及用于根据来自旋转检测装置的数据来控制从动轴的旋转的控制装置,以使由从动轴驱动的从动轴的旋转同步 第二马达与由第一马达驱动的驱动轴的马达组成。
    • 9. 发明授权
    • Sliding vane type rotary compressor
    • 滑动式旋转式压缩机
    • US4580949A
    • 1986-04-08
    • US713745
    • 1985-03-19
    • Teruo MaruyamaTadayuki Onoda
    • Teruo MaruyamaTadayuki Onoda
    • F04B39/10F04B49/00F04C28/10F04C28/16F25B1/04F04B49/02
    • F04C28/16F25B1/04
    • A sliding vane type rotary compressor has at least two suction ports through which a refrigerant is sucked into the vane chamber. A combination of a spring made of a shape memory alloy adapted to expand and contract when supplied with an electric current and a spool operative by the spring is disposed in a flow passage through which the source of the refrigerant is connected to one of the suction ports leading to a region of higher magnitude of compression. The flow passage is opened and closed by the spool which is moved by the expansion and contraction of the spring of the shape memory alloy in response to the heat produced by the self heat build-up action when supplied with an electric current and also to the cooling function of the refrigerant of low temperature, thus attaining a variable capacity control of the compressor with a simple and compact construction.
    • 滑动叶片型旋转压缩机具有至少两个吸入口,制冷剂通过该吸入口吸入叶片室。 由形状记忆合金构成的适于在供应电流时膨胀和收缩的弹簧和由弹簧操作的线轴的组合设置在流动通道中,制冷剂源通过该流路连接到一个吸入口 导致压缩程度较高的区域。 流动通道由通过形状记忆合金的弹簧的膨胀和收缩而响应于当被供应电流时由自身积聚作用产生的热而被移动的线轴打开和关闭,并且还包括 制冷剂的低温冷却功能,从而以简单紧凑的结构实现压缩机的可变容量控制。
    • 10. 发明授权
    • Rotary compressor with two or more suction parts
    • 带两个或多个吸入部件的旋转压缩机
    • US4544337A
    • 1985-10-01
    • US522366
    • 1983-07-11
    • Teruo Maruyama
    • Teruo Maruyama
    • F04C18/00F04C18/344F04C28/18F04C29/08
    • F04C28/18
    • A compressor of the present invention performs restraining action in refrigerative ability at high speed driving time utilizing suction loss that vane chamber pressure drops lower than supply source pressure of refrigerant, and comprises a rotor (14) having vanes provided slidably, a cylinder (11) receiving said rotor (14) and vanes (12), side plates fixed to both side faces of said cylinder (11) and closing tightly a space of vane chamber (18a), (18b) formed by said vanes (12), rotor (14) and cylinder (11) at its side faces, and at least more than two suction ports (15) and (17), whereby even in a compressor having many numbers of vane (12), such a compressor with ability control that having no loss in refrigerative ability at low speed, and refrigerative ability is restrained only at high speed driving can be realized.
    • PCT No.PCT / JP82 / 00436 Sec。 371日期:1983年7月11日 102(e)日期1983年7月11日PCT PCT日期:1982年11月10日PCT公布。 出版物WO83 / 01818 日本1983年5月26日。本发明的压缩机利用叶片室压力低于制冷剂的供给源压力的吸入损失,在高速行驶时间下进行制冷能力的抑制动作,具有转子(14) ,容纳所述转子(14)和叶片(12)的圆柱体(11),固定到所述圆筒(11)的两个侧面的侧板,并且紧密地封闭由所述叶片形成的叶片室(18a),(18b)的空间 (12),转子(14)和气缸(11),以及至少两个以上的吸入口(15)和(17),由此即使在具有多个叶片(12)的压缩机中, 可以实现在低速制冷能力不降低的能力控制的压缩机,并且可以实现仅在高速行驶下的制冷能力。