会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Refrigeration cycle
    • 制冷循环
    • US6006544A
    • 1999-12-28
    • US122590
    • 1998-07-27
    • Yukio WatanabeHisao WakabayashiHironao NumotoShinji WatanabeAkira FujitakaKanji HanedaYoshinori KobayashiYuichi YakumaruNarito Yamaguchi
    • Yukio WatanabeHisao WakabayashiHironao NumotoShinji WatanabeAkira FujitakaKanji HanedaYoshinori KobayashiYuichi YakumaruNarito Yamaguchi
    • F25B41/06
    • F25B41/067
    • A refrigeration cycle that controls the deposit of foreign matter at inlet or outlet of a capillary tube, which forms an expansion device in the refrigeration, regardless of changeover from a cooling operation to a heating operation. In particular, in a refrigeration cycle using an alternative refrigerant, a junction is provided for joining an end of a capillary tube forming an expansion device to the piping through which the refrigerant flows. The junction has a slope defined by the inside diameter thereof, which gradually decreases from the side of the junction that joins the piping to the side of the junction that joined the capillary tube. An end portion of the capillary tube projects into the junction at the piping side. The projecting end of the capillary tube is opened obliquely to the axial line of the capillary tube. A hole is formed in the peripheral wall of the projecting end of the capillary tube. According to such an arrangement, foreign matter in the refrigerant is forced to be deposited in portions of the refrigerant cycle other than the capillary tube and prevented from clogging the capillary tube.
    • 控制在毛细管的入口或出口处异物沉积的制冷循环,其形成制冷中的膨胀装置,而不管从冷却操作转换到加热操作。 特别地,在使用替代制冷剂的制冷循环中,设置有用于将形成膨胀装置的毛细管的端部与制冷剂流过的管道接合的连接点。 接头具有由其内径限定的斜面,其从连接管道的一侧到连接毛细管的接合部的侧面逐渐减小。 毛细管的端部突出到管道侧的接合处。 毛细管的突出端与毛细管的轴线倾斜地打开。 在毛细管的突出端的周壁形成有孔。 根据这样的结构,制冷剂中的异物被迫在除了毛细管以外的制冷剂循环的部分中沉积,并且防止毛细管堵塞。
    • 8. 发明授权
    • Refrigerator controller
    • 冰箱控制器
    • US5715694A
    • 1998-02-10
    • US653337
    • 1996-05-24
    • Yuichi YakumaruShinji WatanabeAkira FujitakaYoshinori Kobayashi
    • Yuichi YakumaruShinji WatanabeAkira FujitakaYoshinori Kobayashi
    • F25B9/00F25B13/00F25B41/00F25B1/00
    • F25B9/006F25B13/00
    • A refrigerator controller employs a non-azeotropic mixture refrigerant and a compressor, a four-way valve, an outdoor hear exchanger, a fractionator, an overhead condenser provided on the top of the fractionator, a first flow control valve, a throttle, and an indoor heat exchanger which are connected in the form of a ring. The controller further employs a circuit at a lower part of the fractionator returning to the bottom of the fractionator through a second flow control valve and a reheater, and a circuit returning from the overhead condenser to the top of the fractionator, thereby controlling the openings of the first and second flow control valves by the output signal of indoor and outdoor heat exchanger temperature detectors, an indoor temperature detector, and an indoor temperature setting device through a flow controller. In this manner, a wider control range of refrigerating capability can be realized. Thus a high separation effect for mixed refrigerant components is obtained while controlling a safe and optimum refrigerant cycle.
    • 冰箱控制器采用非共沸混合制冷剂和压缩机,四通阀,室外听筒式交换器,分馏器,设置在分馏塔顶部的塔顶冷凝器,第一流量控制阀,节流阀和 以环形连接的室内热交换器。 控制器还在分馏器的下部通过第二流量控制阀和再热器返回到分馏塔的底部的回路,以及从塔顶冷凝器返回到分馏器的顶部的回路,从而控制分馏器的开口 第一和第二流量控制阀通过室内和室外热交换器温度检测器的输出信号,室内温度检测器和通过流量控制器的室内温度设定装置。 以这种方式,可以实现更宽的制冷能力控制范围。 因此,在控制安全和最佳制冷剂循环的同时获得混合制冷剂组分的高分离效果。