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    • 23. 发明授权
    • Ceiling embedded type indoor unit
    • 天花板嵌入式室内机
    • US06554059B2
    • 2003-04-29
    • US09901107
    • 2001-07-10
    • Yoshiki HataTakashi SanoShinichi Kosugi
    • Yoshiki HataTakashi SanoShinichi Kosugi
    • F24D1902
    • F24F1/0033F24F1/0007F24F1/0022F24F2001/0037
    • In a ceiling embedded type indoor unit for an air conditioner, an wind sound is reduced while preventing a beat sound of blowers with keeping a high air conditioning capacity. In the ceiling embedded type indoor unit provided with a U-shaped heat exchanger which is placed in a casing embedded in a ceiling and is constituted by two side portions and a bottom portion connecting the side portions at one end side, blowers arranged in an inner space of the heat exchanger, a decorative panel mounted to a lower surface of the casing and having two elongated air outlet ports in correspondence to the side portions of the heat exchanger and an air suction port formed between the air outlet ports, and a control apparatus, the control apparatus controls so that the number of rotation of the blower near a valley portion of the U-shaped heat exchanger becomes high and the number of rotation of the blower near the open end of the U-shaped heat exchanger becomes low.
    • 在用于空调的天花板嵌入型室内机中,在保持高空调能力的同时防止鼓风机的振动声音降低风声。 在设置有U形热交换器的天花板嵌入式室内机中,所述U形热交换器被放置在嵌入天花板的壳体中,并且由两个侧部构成,并且在一端侧连接有侧部的底部, 热交换器的空间,安装到壳体的下表面的装饰板,并且具有与热交换器的侧部对应的两个细长的空气出口和形成在出气口之间的空气吸入口,以及控制装置 控制装置控制使得U形热交换器的谷部附近的鼓风机的旋转数变高,并且在U形热交换器的开口端附近的鼓风机的旋转数变低。
    • 27. 发明授权
    • Refrigerant flow control system for use with refrigerator
    • 制冷剂流量控制系统,用于冰箱
    • US4706469A
    • 1987-11-17
    • US16404
    • 1987-02-19
    • Kensaku OguniKyuhei IshibaneShigeaki KurodaHiromu YasudaTakashi SanoHironori Etou
    • Kensaku OguniKyuhei IshibaneShigeaki KurodaHiromu YasudaTakashi SanoHironori Etou
    • F24F11/02F25B13/00F25B29/00F25B41/06G05D23/24F25B41/04
    • F25B13/00F25B41/062F25B2600/21F25B2600/2513
    • A refrigerant flow control system associated with a refrigerant circulating circuit having a compressor, a condenser, an expansion valve and an evaporator, includes a branch pipe extending from a discharge pipe of the compressor and having on sealed free end. A first temperature sensor is disposed on the branch pipe near the sealed free end for detecting a condensation temperature of a refrigerant which is condensed in the branch pipe. A second temperature sensor is disposed on the discharge pipe of the compressor for detecting a temperature of the gaseous refrigerant discharged from the compressor. The signals representative of the condensation temperature and the temperature of the discharge gaseous refrigerant are inputted to a control device. The control device calculates a difference between the two detected temperatures, and a degree of superheat of the discharged gaseous refrigerant and transfers to the expansion valve a command signal representative of the calculation results, thereby controlling an opening of the expansion valve.
    • 与具有压缩机,冷凝器,膨胀阀和蒸发器的制冷剂循环回路相关联的制冷剂流量控制系统包括从压缩机的排出管延伸并具有密封的自由端的分支管。 第一温度传感器设置在密封的自由端附近的分支管上,用于检测在分支管中冷凝的制冷剂的冷凝温度。 第二温度传感器设置在压缩机的排出管上,用于检测从压缩机排出的气态制冷剂的温度。 表示冷凝温度和排出气体制冷剂的温度的信号被输入到控制装置。 控制装置计算两个检测温度之间的差异和排出的气体制冷剂的过热度,并将表示计算结果的膨胀阀的指令信号传递到膨胀阀,从而控制膨胀阀的打开。
    • 30. 发明授权
    • Marker detecting apparatus and radio-controlled timepiece
    • 标记检测装置和无线电控制时计
    • US08599650B2
    • 2013-12-03
    • US13171658
    • 2011-06-29
    • Teruhisa TokiwaTakashi Sano
    • Teruhisa TokiwaTakashi Sano
    • G04C11/00H04L7/00
    • G04R20/10
    • A marker detecting apparatus includes: a signal input section where a time code signal is inputted; a level detecting section detecting a signal level of a pulse signal of the time code signal at points in a marker characteristic interval to detect a match between the pulse signal and an ideal marker pulse signal in the signal level; a first calculating section calculating a number of the detected matches so as to obtain a value thereof, and correlating the obtained value with a pulse position of the pulse signal, the pulse position being a same in any of frames of the time code signal; a second calculating section adding up the obtained values correlated with the pulse position in the frames; and a marker determining section determining at which pulse position in the frames a marker pulse signal is disposed, based on the added-up value.
    • 标记检测装置包括:输入时间码信号的信号输入部; 电平检测部分,在标记特征区间的点处检测时间码信号的脉冲信号的信号电平,以检测信号电平中的脉冲信号和理想标记脉冲信号之间的匹配; 第一计算部分,计算检测到的匹配数以获得其值,并且将所获得的值与脉冲信号的脉冲位置相关联,所述脉冲位置在时间码信号的任何帧中相同; 第二计算部分将获得的与所述帧中的脉冲位置相关的值相加; 以及标记确定部分,基于所述相加值确定在所述帧中的哪个脉冲位置处设置标记脉冲信号。