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    • 2. 发明申请
    • 空気調和機の室内機
    • 空调室内单位
    • WO2016151641A1
    • 2016-09-29
    • PCT/JP2015/001749
    • 2015-03-26
    • 三菱電機株式会社
    • 牧野 浩招山口 幸治田澤 哲也
    • F25B49/02F24F11/02
    • F24F11/77F24F1/0007F24F11/30F24F11/36F24F11/89F24F13/20F24F2001/0081F24F2110/50F24F2140/20
    • 冷媒の漏洩が生じていることを冷媒の漏洩の発生から早期の段階で検知できる安全性および信頼性に優れた空気調和機の室内機の提供を目的として、筺体(5)内で熱交換器室(1)と隔てて設けられ、熱交換器(3)に接続する連絡配管(11)と室外機に接続する外部接続配管(20)との接続部(G)が位置する配管室(2)と、配管室(2)に設置され、配管室(2)の温度Tを測定する温度センサ(24)と、温度センサ(24)が測定する配管室(2)の温度Tに基づいて冷媒の漏洩が生じているか否かを判断する制御装置(10)と、を備えるものである。
    • 本发明的目的是提供一种具有优异的安全性和可靠性的空调机的室内机,并且能够在发生制冷剂泄漏之后的早期发生被检测制冷剂的泄漏。 室内机配备有配管室(2),其配置在壳体(5)内,与热交换室(1)分离,连接部(G)在连接管 11)连接到热交换器(3)和连接到室外单元的外部连接管(20); 温度传感器(24),其安装在所述管道室(2)中并测量所述管道室(2)的温度T; 以及控制装置(10),其基于由所述温度传感器(24)测量的所述管道室(2)的温度T来判定是否发生了所述制冷剂的泄漏。
    • 3. 发明申请
    • WATER SYSTEM EFFICIENCY
    • 水系统效率
    • WO2016118914A1
    • 2016-07-28
    • PCT/US2016/014611
    • 2016-01-22
    • AQUANOMIX, LLC
    • O'DONNELL, Robert M.LADD, William Franklin
    • G12B15/00G12B15/02F01P3/00
    • F24F11/001F24F11/30F24F11/46F24F11/52F24F2110/00F24F2140/20F24F2140/60F28B9/06F28C2001/006F28F27/003G05B15/02
    • A system and method of optimizing water cooling system energy efficiency, including a monitoring device to receive heat data corresponding to heat energy of a unit of water associated with a recirculating water system, power data corresponding to power being applied to the system, and load data corresponding to a load associated with the system. The monitoring device determines a measured metric by calculating a measured rate of water traversing the recirculating water system based on the heat data and determining a ratio of the power data and the measured rate of water. The monitoring device determines an efficiency metric of the system by comparing the load data to a look-up table and, based thereon, calculates a key performance indicator of the recirculating water system as a ratio of the efficiency metric and the measured metric, which is output to a graphical user interface.
    • 一种优化水冷却系统能量效率的系统和方法,包括接收与循环水系统相关联的水单元的热能对应的热量的监测装置,对应于施加给系统的功率的功率数据和负载数据 对应于与系统相关联的负载。 监测装置通过基于热数据计算横穿循环水系统的水的测量速率来确定测量的度量,并且确定功率数据和测量的水的比率。 监测装置通过将负载数据与查找表进行比较来确定系统的效率度量,并且基于此,将循环水系统的关键性能指标计算为效率度量和测量的度量的比率,其是 输出到图形用户界面。
    • 9. 发明申请
    • METHOD AND DEVICE FOR CONTROLLING THE INDOOR TEMPERATURE IN A PROPERTY
    • 用于控制物业中的室内温度的方法和装置
    • WO2014062124A1
    • 2014-04-24
    • PCT/SE2013/051207
    • 2013-10-16
    • ECOFECTIVE AB
    • WILDIG, Thomas
    • F24D19/10F24F11/00G05D23/32
    • G05D23/32F24D10/003F24D19/1039F24F3/06F24F11/30F24F11/54F24F11/58F24F11/62F24F2110/10F24F2110/12F24F2140/20F24F2221/52Y02E20/14
    • Method for controlling the indoor temperature in a property comprising an existing system (210) for regulating the said indoor temperature, which system is arranged to bring a heat- or cold medium past a heating- or cooling radiator (221,231) which in turn is arranged to heat or cool the indoor air in the property by transferring thermal energy between the heat- or cold medium and the indoor air, and whereby the existing system is arranged to read the temperature of the medium via at least one input for a signal representing a measured temperature of the medium at a certain measurement location (212,213,214,215,216,217) along the path of the medium through the system. The invention is characterised in that the method comprises the steps a) determining a desired instantaneous heating- or cooling power which it is desired for the system to emit to the indoor air of the property; b) based upon knowledge of the properties of the system and used control algorithm, calculating a fictitious temperature as the fictitiously measured temperature of the medium at the said measurement location that would give rise to the desired instantaneous power; and c) feeding to the said input a signal representing the fictitious temperature.
    • 一种用于控制室内温度的方法,包括用于调节所述室内温度的现有系统(210),所述系统被布置成使热介质或冷介质通过加热或冷却散热器(221,231),所述加热或冷却散热器(221,231)依次布置 通过在热或冷介质和室内空气之间传递热能来加热或冷却该属性中的室内空气,并且由此现有系统被布置成经由至少一个输入来读取表示温度的信号的介质的温度 在通过系统的介质的路径处的某个测量位置(212,213,214,215,216,217)处的介质的测量温度。 本发明的特征在于该方法包括以下步骤:a)确定期望的系统向室内空气排放所需的瞬时加热或冷却功率; b)基于对系统的性质和使用的控制算法的知识,将虚拟温度计算为在所述测量位置处的介质的虚拟测量温度,其将产生期望的瞬时功率; 以及c)向所述输入端馈送代表虚构温度的信号。