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
    • 7. 发明公开
    • AIR CONDITIONER AND METHOD FOR CONTROLLING AIR CONDITIONER
    • KLIMAANLAGE UND VERFAHREN ZUR STEUERUNG EINER KLIMAANLAGE
    • EP3086047A4
    • 2017-09-06
    • EP13899790
    • 2013-12-19
    • MITSUBISHI ELECTRIC CORP
    • MOTOMURA YUJITAKENAKA NAOFUMIWAKAMOTO SHINICHIKOGE HIROFUMIMORIMOTO OSAMU
    • F24F11/02F25B25/00F25B49/02
    • F24F11/008F24F3/06F24F11/61F24F11/63F24F11/83F24F11/84F24F11/85F24F13/30F24F2001/0074F24F2011/0061F24F2011/0073F24F2011/0082F24F2011/0083F25B13/00F25B25/005F25B43/006F25B49/02F25B2313/003F25B2313/006F25B2313/0231F25B2313/0233F25B2313/0272F25B2313/02741F25B2313/0292F25B2313/0314F25B2500/19F25B2600/2513G05B19/042G05B2219/2614
    • An air-conditioning apparatus includes a refrigerant circuit A formed by connecting, with pipes, a compressor 10 configured to compress a heat-source-side refrigerant, a first refrigerant flow switching device 11 configured to switch a circulation path of the heat-source-side refrigerant, a heat-source-side heat exchanger 12 configured to cause the heat-source-side refrigerant to exchange heat, an expansion device 26 configured to regulate a pressure of the heat-source-side refrigerant, and a plurality of intermediate heat exchangers 25 each configured to exchange heat between the heat-source-side refrigerant and a heat medium different from the heat-source-side refrigerant; a heat medium circuit B formed by connecting, with pipes, a plurality of pumps 31 configured to pressurize and circulate the heat medium subjected to heat exchange in the plurality of intermediate heat exchangers 25, a plurality of use-side heat exchangers 35 each configured to exchange heat between the heat medium and air in an air-conditioned space, and a heat-medium flow switching/control device 40 configured to switch which of the heat medium subjected to heat exchange in the plurality of intermediate heat exchangers 25 is to be allowed to flow into and out of each of the use-side heat exchangers 35; and a controller 50 configured to perform processing for controlling the switching performed by the heat-medium flow switching/control device 40, in accordance with a capacity of each of the use-side heat exchangers 35.
    • 本发明的空气调节装置具备:制冷剂回路A,其通过管道连接压缩热源侧制冷剂的压缩机10;第一制冷剂流路切换装置11,其切换热源侧制冷剂的循环路径; 用于使热源侧制冷剂进行热交换的热源侧热交换器12,对热源侧制冷剂的压力进行调节的节流装置26,以及将多个中间热 各热交换器25构成为在热源侧制冷剂和与热源侧制冷剂不同的热介质之间进行热交换; 利用管道连接多个泵31而构成的热介质回路B,所述多个泵31构造成对在多个中间热交换器25中进行热交换的热介质进行加压并使其循环;多个利用侧热交换器35, 在空调空间内的热介质与空气之间进行热交换;以及热介质流路切换·控制装置40,其用于切换在多个中间热交换器25中进行热交换的热介质的哪一个 流入和流出各利用侧热交换器35, 以及控制部50,根据各利用侧热交换器35的容量,进行控制热介质流路切换控制装置40的切换的处理。
    • 8. 发明公开
    • AIR-CONDITIONING DEVICE
    • KLIMAANLAGENVORRICHTUNG
    • EP3006847A4
    • 2017-01-18
    • EP13885584
    • 2013-05-27
    • MITSUBISHI ELECTRIC CORP
    • MATSUI RYOSUKETANAKA KOSUKEMAKINO HIROAKISAKABE AKINORI
    • F24F11/02F24F11/00F25B1/00F25B13/00F25B49/02
    • F25B13/00F24F11/006F24F11/30F24F11/62F24F11/63F24F2011/0061F24F2110/00F25B49/02F25B49/027F25B2313/006F25B2313/02741F25B2313/029F25B2313/0293F25B2313/0294F25B2313/0314F25B2313/0315F25B2600/021F25B2600/111F25B2600/2513F25B2700/15F25B2700/21151F25B2700/21152Y02B30/741Y02B30/743
    • There are included: a refrigerant circuit which includes a compressor 3, an outdoor heat exchanger 5, an expansion valve 7, and an evaporator 9, and through which refrigerant circulates; an outdoor fan 6; an indoor fan 10; a measurement unit 41 a configured to measure an operating state variable of the refrigerant circuit; and a control unit 41 b configured to control a manipulated variable of an operational object, which is at least one of a frequency of the compressor 3, an opening degree of the expansion valve 7, a rotation speed of the outdoor fan 6, or a rotation speed of the indoor fan 10, so that a current value of a controlled object, which is one measurement of measurements obtained by the measurement unit 41 a, reaches a target value of the controlled object determined based on measurements other than the one measurement. The control unit 41 b determines, while the current value is lower than a lower limit value of an upper limit value and the lower limit value of a settling range in which the target value is centered, the manipulated variable by using the upper limit value as a target value, determines, while the current value is higher than the upper limit value, the manipulated variable by using the lower limit value as a target value, and determines, after the current value falls within the settling range, the manipulated variable based on a reference allowable overshoot ratio Xb, which is a preset overshoot ratio.
    • 包括:制冷剂回路,其包括压缩机3,室外热交换器5,膨胀阀7和蒸发器9,制冷剂通过该循环; 室外风扇6; 室内风扇10; 测量单元41a,被配置为测量制冷剂回路的运行状态变量; 以及控制单元41b,被配置为控制作为压缩机3的频率,膨胀阀7的开度,室外风扇6的转速或室外风扇6的旋转速度中的至少一个的操作对象的操作量 室内风扇10的旋转速度,使得由测量单元41a获得的测量值的一个测量值的受控对象的当前值达到基于除了一次测量之外的测量而确定的受控对象的目标值。 控制单元41b确定当前值低于上限值的下限值和目标值居中的建立范围的下限值时,将上限值作为 目标值通过使用下限值作为目标值来确定当前值高于上限值时的操作变量,并且在当前值落入建立范围之后,确定操纵变量基于 参考允许过冲比Xb,其是预设的过冲比。