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51. 发明申请

US20150346740A1 SMART WATER HEATER SYSTEM, METHOD AND COMPUTER READABLE MEDIA 审中-公开
标题翻译：智能水加热器系统，方法和计算机可读介质
公开(公告)号：US20150346740A1
公开(公告)日：2015-12-03
申请号：US14725453
申请日：2015-05-29
申请人： UNIVERSITY OF VIRGINIA PATENT FOUNDATION
发明人： Cameron Dean Whitehouse , Md Anindya Tahsin Prodhan
IPC分类号： G05D23/13 , F24H9/20
CPC分类号： F24H9/2007 , F24D2200/04 , F24D2200/08 , F24H1/00 , F24H1/181 , F24H1/183 , F24H1/185 , F24H1/186 , F24H9/124 , G05D23/13 , G05D23/1306 , G05D23/1313
摘要： A smart water heater system (SWHS) for a domestic water system having a plurality of fixtures is provided. The SWHS has a water tank having a cold water inlet configured to receive cold water from a cold water supply and a heat source configured to heat the cold water producing hot water. The water tank may also have a hot water outlet configured to discharge the hot water from the water tank. The SWHS may also have a mixing valve configured to blend cold water from the cold water supply with the hot water from the hot water outlet to produce blended water, wherein the blended water is directed to the domestic water system. The SWHS may also have a first flow meter configured to measure a flow rate of the blended water from the mixing valve, a second flow meter configured to measure a flow rate of cold water supplied to the domestic water system, and a pressure sensor configured to measure a pressure of the cold water supplied to the water tank. The SWHS may also have a controller in communication with the mixing valve, the first flow meter, the second flow meter, and the pressure sensor. The controller may be configured to identify which fixture is being used when the domestic water system is drawing water from the water tank, determine an average water temperature utilized by each fixture, and adjust the mixing valve based on which fixture is identified such that a temperature of the blended water is generally equal to the average water temperature for the identified fixture.
摘要翻译：提供了一种具有多个固定装置的家用水系统的智能热水器系统（SWHS）。 SWHS具有一个具有冷水入口的水箱，该冷水入口被配置为从冷水源接收冷水，并且配置为加热产生热水的冷水。水箱也可以具有热水出口，其构造成从水箱排出热水。 SWHS还可以具有混合阀，其配置成将来自冷水源的冷水与来自热水出口的热水混合以产生混合水，其中所述混合水被引导到家庭用水系统。 SWHS还可以具有第一流量计，其被配置为测量来自混合阀的混合水的流量，构造成测量供应到家庭用水系统的冷水的流量的第二流量计，以及配置为测量供应给水箱的冷水压力。 SWHS还可以具有与混合阀，第一流量计，第二流量计和压力传感器连通的控制器。控制器可以被配置为当家庭用水系统从水箱中抽取水时确定哪个夹具被使用，确定每个固定装置所使用的平均水温，并且基于哪个夹具被识别来调节混合阀，使得温度的混合水通常等于所识别的固定装置的平均水温。

52. 发明申请

US20150220091A1 SYSTEMS AND METHODS FOR CONTROLLING WATER HEATERS 有权
标题翻译：控制水加热器的系统和方法
公开(公告)号：US20150220091A1
公开(公告)日：2015-08-06
申请号：US14171416
申请日：2014-02-03
申请人： EMERSON ELECTRIC CO.
发明人： Wayne A. Koopman
IPC分类号： G05D23/19 , F24H1/00
CPC分类号： G05D23/1919 , F23N1/082 , F24D2200/04 , F24H1/205 , F24H9/2035
摘要： A water heater includes a storage tank, a sensor configured to measure a temperature of water in the storage tank, a burner configured to heat the water in the storage tank, and a controller communicatively coupled to the sensor and the burner. The controller is configured to initiate a call for heat when the measured temperature reaches a trigger temperature, wherein the trigger temperature is a differential amount less than a set-point temperature, calculate a reduced activation time when the call for heat results in a predetermined number of calls for heat occurring within a predetermined time period, and control the burner based on the reduced activation time.
摘要翻译：热水器包括储存箱，传感器，其被配置为测量储存罐中的水的温度;燃烧器，被配置为加热储存罐中的水;以及控制器，其通信地联接到所述传感器和所述燃烧器。控制器被配置为当测量的温度达到触发温度时启动热量呼叫，其中触发温度是小于设定点温度的差值，当热呼唤导致预定数量时计算减少的激活时间在预定时间段内发生热的呼叫，并且基于减少的激活时间来控制燃烧器。

53. 发明授权

US09063551B2 Adaptive heating control system for a water heater 有权
标题翻译：热水器自适应加热控制系统
公开(公告)号：US09063551B2
公开(公告)日：2015-06-23
申请号：US13766849
申请日：2013-02-14
申请人： Sridhar Deivasigamani , Sivaprasad Akasam
发明人： Sridhar Deivasigamani , Sivaprasad Akasam
IPC分类号： G06F19/00 , G05D7/06 , G05B23/02
CPC分类号： G05D7/0629 , F24D17/0036 , F24D17/0073 , F24D17/0078 , F24D19/1051 , F24D2200/04 , F24D2200/08 , F24D2220/042 , G05B23/0235 , G05D23/1904 , Y02B10/20 , Y02B10/70
摘要： A water heating control system for automatically reducing delay in delivering a volume of water at a flowrate, the volume of water is heated from a first temperature to a target temperature during a time interval of a day, the water heating system includes a device for aiding in heating the volume of water from the first temperature to the target temperature, a historical flow demand corresponding to the time interval of a day, a current flow demand corresponding to the time interval of a day and a controller configured for calculating a new flow demand from the historical flow demand and the current flow demand. The new flow demand is set as the historical flow demand for the time interval of a day and if the new flow demand exceeds a threshold, the device is configured to be activated during the time interval of a day.
摘要翻译：一种水加热控制系统，用于自动减少以一定流量输送一定体积的水的延迟，在一天的时间间隔期间，水的体积从第一温度被加热到目标温度，水加热系统包括用于辅助的装置在将第一温度的水量加热到目标温度时，对应于一天的时间间隔的历史流量需求，对应于一天的时间间隔的当前流量需求和被配置为计算新的流量需求的控制器从历史流量需求和当前流量需求。新流量需求被设置为一天的时间间隔的历史流量需求，并且如果新流量需求超过阈值，则该设备被配置为在一天的时间间隔内被激活。

54. 发明申请

US20150090803A1 AIR CONDITIONING SYSTEM 审中-公开
标题翻译：空调系统
公开(公告)号：US20150090803A1
公开(公告)日：2015-04-02
申请号：US14500993
申请日：2014-09-29
申请人： DAIKIN INDUSTRIES, LTD.
发明人： Masakazu OKAMOTO , Michio MORIWAKI , Hiroshi YOH
IPC分类号： F24D19/10 , F24D12/02 , F24D5/12
CPC分类号： F24D19/1087 , F24D5/02 , F24D5/12 , F24D2200/04 , F24D2200/123 , Y02B30/13
摘要： An air conditioning system includes a heat pump having a refrigerant radiator, a gas furnace unit having a heating section to heat passing air, a blower generating air flow through the radiator and the heating section, and a controller controlling operation of the heat pump unit, the gas furnace unit, and the blower. The controller has a first operating mode in which the gas furnace unit operates alone as a heat source unit, a second operating mode in which the heat pump unit operates alone as a heat source unit, and a third operating mode in which the gas furnace unit and the heat pump unit operate at the same time as a heat source unit. The controller is configured to select the operating modes based on a parameter relating to outside air temperature that is the temperature of outside air.
摘要翻译：空调系统包括具有制冷剂散热器的热泵，具有加热通过空气的加热部的气体炉单元，通过散热器和加热部产生空气流的鼓风机，以及控制热泵单元的运转的控制器，燃气炉单元和鼓风机。控制器具有第一操作模式，其中气体炉单元单独操作作为热源单元，其中热泵单元单独操作为热源单元的第二操作模式和第三操作模式，其中气体炉单元并且热泵单元与热源单元同时工作。控制器被配置为基于与作为外部空气的温度的外部空气温度相关的参数来选择操作模式。

55. 发明授权

US08904815B2 Heating installation and heating method 有权
标题翻译：加热安装和加热方式
公开(公告)号：US08904815B2
公开(公告)日：2014-12-09
申请号：US11791680
申请日：2005-11-18
申请人： Hans-Göran Göransson
发明人： Hans-Göran Göransson
IPC分类号： F25B27/00 , F25B13/00 , F25B7/00 , F25B29/00 , F24D3/18 , F24D3/08
CPC分类号： F24D3/18 , F24D3/08 , F24D2200/04
摘要： A heating installation is provided with a first circuit (K1) containing a first medium, a second circuit (K2) containing a second medium, a first heat pump (2) arranged in the first circuit (K1) for heating the first medium, a third circuit (K3) containing a third medium, a heat exchanger (40) arranged in the third circuit (K3) and connected between the condenser (2d) and expansion valve (2f) of the first heat pump to transfer heat from the working medium of the first heat pump to the third medium in the third circuit (K3), and a second heat pump (3) arranged for heating the second medium in the second circuit (K2) by absorbing heat energy from the third medium in the third circuit (K3).
摘要翻译：一个加热装置设置有包含第一介质的第一电路（K1），包含第二介质的第二电路（K2），布置在用于加热第一介质的第一电路（K1）中的第一热泵（2）包含第三介质的第三回路（K3），布置在第三回路（K3）中并连接在第一热泵的冷凝器（2d）和膨胀阀（2f）之间的热交换器（40），以将来自工作介质的第一热泵到第三回路（K3）中的第三介质，以及第二热泵（3），其布置成通过从第三回路（K2）中的第三介质吸收热能来加热第二回路（K2）中的第二介质（K3）。

56. 发明申请

US20140083648A1 DEDICATED OUTDOOR AIR SYSTEM WITH PRE-HEATING AND METHOD FOR SAME 审中-公开
标题翻译：专用室外空气系统及其加热方法
公开(公告)号：US20140083648A1
公开(公告)日：2014-03-27
申请号：US13625912
申请日：2012-09-25
申请人： VENMAR CES, INC.
发明人： Maury Brad Wawryk
IPC分类号： F24H6/00 , F24H1/10 , F24H3/08 , F28D15/00
CPC分类号： F24D5/02 , F24D12/02 , F24D2200/04 , F24D2200/18 , F24D2200/22 , F24F12/006 , F24F2203/10 , F24H3/087 , F24H3/105 , F24H3/12 , F24H6/00 , Y02B10/70 , Y02B30/14 , Y02B30/563
摘要： A Dedicated Outdoor Air System (DOAS) includes a heater configured to be disposed within a supply air flow path, at least one pre-heater configured to be upstream from the heat exchanger within one or both of the supply and exhaust air flow paths, and a heat transfer device operatively connected to the heater and the pre-heater. The heat transfer device is configured to receive flue gas from the heater and transfer heat from the flue gas to liquid within the heat transfer device. The liquid is configured to be channeled to the pre-heater so that heat is transferred from the liquid to supply air within the supply air flow path.
摘要翻译：专用户外空气系统（DOAS）包括配置成设置在供气管道内的加热器，至少一个预热器构造成在一个或两个供气和排气气流路径内的热交换器的上游，以及可操作地连接到加热器和预热器的传热装置。传热装置被配置为从加热器接收烟道气并将热量从烟道气转移到传热装置内的液体。液体被构造成被引导到预热器，使得热量从液体传递到在供应空气流动路径内供应空气。

57. 发明授权

US08600563B2 Hybrid heating system 有权
标题翻译：混合加热系统
公开(公告)号：US08600563B2
公开(公告)日：2013-12-03
申请号：US13105921
申请日：2011-05-12
申请人： Yoav Ben-Yaacov , Harold Wiener , Shalom Lampert
发明人： Yoav Ben-Yaacov , Harold Wiener , Shalom Lampert
IPC分类号： G05D23/00
CPC分类号： F24D11/0228 , F24D3/08 , F24D17/0031 , F24D17/02 , F24D19/1072 , F24D19/1081 , F24D2200/04 , F24D2200/123 , G05D23/1923 , Y02B10/70 , Y02B30/125
摘要： A hybrid heating system and method including: (a) a heat pump water heating system; (b) a conventional heating system including a conventional heater having a surface heat exchanger, and a primary circulation arrangement fluidly communicating with the surface exchanger, the primary circulation arrangement adapted to effect an exchange of heat between the surface heat exchanger and a flow of liquid to produce a heated flow of liquid; (c) a plurality of sensors associated with the heat exchange system; (d) an input arrangement adapted to provide cost data pertaining to a first power cost for supplying power to the heat pump system, and to cost information pertaining to a second power cost for operating the conventional system, and (e) a processor including a memory storing criteria specifying when to operate the heat pump water heating system, and when to operate the conventional heating system.
摘要翻译：一种混合加热系统和方法，包括：（a）热泵水加热系统; （b）常规加热系统，包括具有表面热交换器的常规加热器和与表面交换器流体连通的主循环装置，该主循环装置适于在表面热交换器和液体流之间进行热交换以产生加热的液体流; （c）与所述热交换系统相关联的多个传感器; （d）输入装置，其适于提供与用于向热泵系统供电的第一电力成本有关的成本数据，以及与用于操作常规系统的第二电力成本有关的成本信息，以及（e）包括记录存储标准，指定何时操作热泵水加热系统，何时操作常规加热系统。

58. 发明授权

US08511073B2 High efficiency cogeneration system and related method of use 失效
标题翻译：高效热电联产系统及相关使用方法
公开(公告)号：US08511073B2
公开(公告)日：2013-08-20
申请号：US12760256
申请日：2010-04-14
申请人： Stewart Kaiser
发明人： Stewart Kaiser
IPC分类号： F01K15/00 , F01N3/00
CPC分类号： F24H1/0027 , F24D2200/04 , F24H2240/02 , F28D7/02 , F28D7/106 , Y02E20/14 , Y10T307/625
摘要： The invention is directed to a high efficiency cogeneration system capable of creating electricity and usable heat. The invention includes a fuel source, which can be a reservoir filled with a fossil fuel. The fuel source feeds a modified combustion engine that can turn a shaft to power an alternator to create electricity. The combustion engine creates hot gases that are treated by a catalytic converter. The byproduct and hot gases are then fed into one or more cooling manifolds.
摘要翻译：本发明涉及能够产生电力和可用热量的高效热电联产系统。本发明包括燃料源，其可以是填充有化石燃料的储存器。燃料源供应改进的内燃机，其可以转动轴来为交流发电机供电以产生电力。内燃机产生由催化转化器处理的热气体。然后将副产物和热气体进料到一个或多个冷却歧管中。

59. 发明申请

US20130115538A1 POWER GENERATION SYSTEM AND METHOD OF OPERATING THE SAME 审中-公开
标题翻译：发电系统及其运行方法
公开(公告)号：US20130115538A1
公开(公告)日：2013-05-09
申请号：US13810395
申请日：2011-12-08
申请人： Shigeki Yasuda , Akinori Yukimasa , Atsutaka Inoue , Junji Morita , Hiroshi Tatsui
发明人： Shigeki Yasuda , Akinori Yukimasa , Atsutaka Inoue , Junji Morita , Hiroshi Tatsui
IPC分类号： H01M8/04
CPC分类号： H01M8/04089 , F23J2211/20 , F23J2211/30 , F23L17/005 , F24D2200/04 , F24D2200/19 , F24H9/0084 , F24H9/2035 , F24H2240/10 , H01M8/04022 , H01M8/04313 , H01M8/04335 , H01M8/04365 , H01M8/04425 , H01M8/04761 , H01M8/04776 , H01M8/2475 , H01M2008/1095 , H01M2008/1293 , H01M2250/405 , Y02B10/70 , Y02B90/16
摘要： A power generation system according to the present invention includes: a fuel cell system (101) including a fuel cell (11) and a case (12); a ventilation fan (13); a controller (102); a combustion device (103); and a discharge passage (70) formed to cause the case (12) and an exhaust port (103A) of the combustion device (103) to communicate with each other and configured to discharge an exhaust gas from the fuel cell system (101) and the combustion device (103) to an atmosphere from an opening of the discharge passage (70), the opening being open to the atmosphere. The ventilation fan (13) is configured to ventilate an inside of the case (12). In a case where the controller (102) determines that the combustion device (103) has operated when the ventilation fan (13) is operating, the controller (102) increases the operation amount of the ventilation fan (13).
摘要翻译：根据本发明的发电系统包括：燃料电池系统（101），包括燃料电池（11）和壳体（12）; 通风扇（13）; 控制器（102）; 燃烧装置（103）; 以及形成为使燃烧装置（103）的壳体（12）和排气口（103A）彼此连通并且被配置为从燃料电池系统（101）排出废气的排出通道（70）和所述燃烧装置（103）从所述排出通道（70）的开口到大气中，所述开口向大气开放。通风扇（13）构造成使壳体（12）的内部通风。在通风扇（13）运转时，控制器（102）判定燃烧装置（103）运转的情况下，控制器（102）增加通风扇（13）的运转量。

60. 发明授权

US08201750B2 Fuel economizer improvements 有权
标题翻译：燃油节约器改进
公开(公告)号：US08201750B2
公开(公告)日：2012-06-19
申请号：US12508631
申请日：2009-07-24
申请人： James Edward Sambrook
发明人： James Edward Sambrook
IPC分类号： G05D23/32 , F24H9/20 , F24F11/04
CPC分类号： F24D19/1009 , F24D2200/04
摘要： An electronic circuit for a hot water heating system an override thermostat; a timer operable to deactivate and reactivate the burner while a room thermostat is calling for heat; a differential temperature switch configured to disconnect the electrical supply to the water pump when the difference in temperature between the water at the boiler inlet and the water at the boiler outlet falls below an adjustable set point; and, a temperature switch configured to prevent operability of the timer until the temperature of the water at the burner outlet rises above an adjustable set point.
摘要翻译：一种用于热水加热系统的电子电路超控恒温器; 定时器，其可操作以在房间恒温器呼叫热的同时停用和重新激活燃烧器; 差压温度开关，其构造成当所述锅炉入口处的水与所述锅炉出口处的水温之间的温度差低于可调节的设定点时，断开所述水泵的电力供应; 以及温度开关，被配置为防止定时器的可操作性，直到燃烧器出口处的水的温度升高到高于可调节的设定点。

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