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81. 发明授权

US08893916B2 Hot water storage tank unit 有权
标题翻译：热水储罐装置
公开(公告)号：US08893916B2
公开(公告)日：2014-11-25
申请号：US14045934
申请日：2013-10-04
申请人： Mitsubishi Electric Corporation
发明人： Kei Takeyama , Taro Hattori , Kazutaka Suzuki
IPC分类号： B65D88/74 , F24H9/06 , F24D11/02 , F24D19/00 , F24H9/14
CPC分类号： F24D19/0097 , F24D11/0214 , F24H9/06 , F24H9/148 , Y02B30/125
摘要： [Solution] A metal cylindrical tank leg 20 forming an opening in a portion opposite to the lower end plate 7b is provided on the lower end plate 7b of the hot water storage tank 7, a plurality of metal L-shaped tank legs 21 one edge 21a of each of which extends outwardly are provided on the outer peripheral surface of the cylindrical tank leg 20 and arrayed in a circumferential direction thereof, a base plate made of a metal is fixed to the second tank legs; and the cylindrical tank leg 20 and the L-shaped tank legs 21 are fixed to a base plate 12b with a base heat insulator 23 having an electrical insulation property and elasticity interposed therebetween. Part of the lower end plate 7b located within the opening of the cylindrical tank leg 20 is covered by an end plate heat insulator 22.
摘要翻译： [解决方案]在热水储存箱7的下端板7b上设置形成与下端板7b相对的部分的开口的金属圆柱形罐支腿20，多个金属L形罐支脚21，一个边缘其每一个都向外延伸设置在圆柱形罐腿20的外圆周表面上，并沿圆周方向排列，由金属构成的底板固定在第二罐腿上; 并且圆柱形罐支腿20和L形罐支脚21固定到基板12b上，其中隔热材料具有电绝缘性能和弹性。位于圆筒形罐腿20的开口内的下端板7b的一部分被端板式隔热件22覆盖。

82. 发明授权

US08844517B2 Solar hot water and recovery system 有权
标题翻译：太阳能热水和回收系统
公开(公告)号：US08844517B2
公开(公告)日：2014-09-30
申请号：US13311054
申请日：2011-12-05
申请人： Timothy Michael Graboski
发明人： Timothy Michael Graboski
IPC分类号： F24J2/30 , F24J2/00 , F25B27/00 , F24D11/00 , F24D11/02 , F28D7/02
CPC分类号： F28D7/022 , F24D11/003 , F24D11/0221 , F24D11/0235 , F24D2200/12 , F24D2200/14 , F24D2200/31 , Y02A30/272 , Y02B10/20 , Y02B10/24 , Y02B10/70 , Y02B30/125 , Y02B30/52
摘要： A solar hot water and recovery system includes a water loop, a refrigerant loop and a solar loop. Cross-heat exchange occurs in a first heat exchanger between the heat transfer mediums of the refrigerant loop and the solar loop to produce a super-heated fluid stream which is returned to the air conditioning or heat pump unit. Cross-heat exchange also takes place in a second heat exchanger between the now-lower temperature heat transfer medium of the solar loop and the water loop to produce a heated water stream. The main objective of the system is to superheat refrigerant and use all excess heat for heating the water. The heat exchangers are preferably housed in the same heat recovery unit and arranged so that the refrigerant heat exchange area is before the water heat exchange area, thereby maximizing solar potential.
摘要翻译：太阳能热水和回收系统包括水回路，制冷剂回路和太阳能回路。交叉热交换发生在制冷剂回路的传热介质和太阳能回路之间的第一热交换器中，以产生返回到空调或热泵单元的超加热流体流。在太阳能回路的现在更低温度的传热介质和水回路之间的第二热交换器中也进行交叉热交换以产生加热的水流。该系统的主要目标是过热制冷剂，并使用多余的热量来加热水。热交换器优选地容纳在相同的热回收单元中，并且布置成使得制冷剂热交换区域在水热交换区域之前，从而使太阳能最大化。

83. 发明申请

US20140190195A1 SOLAR ENERGY AIR CONDITIONING SYSTEM WITH STORAGE CAPABILITY 有权
标题翻译：具有储存能力的太阳能空调系统
公开(公告)号：US20140190195A1
公开(公告)日：2014-07-10
申请号：US14191715
申请日：2014-02-27
申请人： Ralph Muscatell
发明人： Ralph Muscatell
IPC分类号： F25B27/00
CPC分类号： F25B27/002 , F04C18/3442 , F04C23/001 , F04C23/02 , F04C2210/26 , F24D3/18 , F24D11/0221 , F24D11/0235 , F24D2200/11 , F24D2200/31 , F24F5/0021 , F24F5/0046 , F24F2005/0064 , F24H7/04 , F24S23/74 , F24S90/00 , F25B27/005 , F25B41/04 , F25B2400/141 , F28B1/02 , F28B1/06 , F28D3/02 , Y02A30/272 , Y02B10/20 , Y02B10/24 , Y02B10/40 , Y02B10/70 , Y02B30/125 , Y02B30/52 , Y02E10/40 , Y02E60/147 , Y02E70/30
摘要： The invention utilizes concentrated solar energy in a novel air conditioning system which includes storage capabilities. The refrigerant circuit “high” pressure side is comprised of multiple solar concentrators placed between two positive rotary valves. The “low” pressure side is compromised of the evaporator coil with expansion valve. The refrigerant is confined between the two rotary valves. As solar energy is absorbed into the refrigerant, the pressure and temperature rise. The two rotary valves are then caused to rotate. With rotation, the refrigerant is moved through the circuit. The circuit also includes a condenser to give up heat and an evaporator/expansion valve in which temperature drops with the expanding gas. In addition, this system places the evaporator in a water tank. The water is made cold by conduction with the evaporator and serves as a storage medium. All energy absorbed is converted to cold and stored and utilized as required.
摘要翻译：本发明在包括存储能力的新型空调系统中利用集中的太阳能。制冷剂回路“高”压力侧由放置在两个正旋转阀之间的多个太阳能集中器组成。带有膨胀阀的蒸发器盘管的“低”压力侧受损。制冷剂被限制在两个旋转阀之间。随着太阳能吸收到制冷剂中，压力和温度升高。然后使两个旋转阀旋转。随着旋转，制冷剂被移动通过电路。电路还包括一个放热器的冷凝器和一个蒸发器/膨胀阀，其中温度随膨胀气体而下降。此外，该系统将蒸发器放置在水箱中。通过与蒸发器的传导使水冷却并用作存储介质。吸收的所有能量被转化为冷，并根据需要进行储存和利用。

84. 发明授权

US08726682B1 Hybrid multi-mode heat pump system 有权
标题翻译：混合式多模式热泵系统
公开(公告)号：US08726682B1
公开(公告)日：2014-05-20
申请号：US14058236
申请日：2013-10-19
申请人： Gaylord Olson
发明人： Gaylord Olson
IPC分类号： F25B25/00
CPC分类号： F24F5/0046 , F24D11/0221 , F24D19/1045 , F24D2200/11 , F24D2200/123 , F24D2200/14 , F24F2005/0057 , F24F2005/0064 , F24F2203/02 , F25B30/00 , Y02A30/272 , Y02B10/20 , Y02B10/24 , Y02B10/40 , Y02B10/70 , Y02B30/125
摘要： A hybrid multi-source system that is used to heat or cool a building. The system utilizes a heat pump or similar HVAC unit. A solar/air heat exchanger is provided. At least one ground heat exchanger is utilized. A plumbing network interconnects the heat pump, the solar/air heat exchanger, and the ground heat exchanger. A heat transfer fluid circulates through the plumbing network. Temperature sensors are used to monitor temperatures of the heat transfer fluid at multiple points in the system. At least one pump circulates the heat transfer fluid through the plumbing network. Valves are disposed within the plumbing network that can selectively isolate the heat pump, the solar/air heat exchanger, and the ground heat exchanger. A systems controller is coupled to the temperature sensors, the valves, and pump. The system operates in multiple modes which allow for higher efficiency and long term underground thermal storage.
摘要翻译：用于加热或冷却建筑物的混合多源系统。该系统采用热泵或类似HVAC装置。提供太阳能/空气热交换器。至少使用一个地面热交换器。管道网络将热泵，太阳能/空气热交换器和地面热交换器互连。传热流体通过管道网络循环。温度传感器用于监测系统中多个点处传热流体的温度。至少一个泵将传热流体循环通过管道网络。阀门设置在管道网络内，可以选择性地隔离热泵，太阳能/空气热交换器和地面热交换器。系统控制器耦合到温度传感器，阀门和泵。该系统以多种模式运行，可实现更高的效率和长期的地下热存储。

85. 发明申请

US20140116074A1 HEAT PUMP AND CONTROL METHOD THEREOF 审中-公开
标题翻译：热泵及其控制方法
公开(公告)号：US20140116074A1
公开(公告)日：2014-05-01
申请号：US14063372
申请日：2013-10-25
申请人： SAMSUNG ELECTRONICS CO., LTD.
发明人： Dong Woon JEONG , Sung Goo KIM , Chang Seo PARK , Jae Hyuk OH , Yong Hyun JEON
IPC分类号： F25B49/02
CPC分类号： F25B49/025 , F24D11/0214 , F24D19/1039 , F25B2339/047 , F25B2500/19 , F25B2600/02 , F25B2600/021 , F25B2600/025 , F25B2600/0253 , F25B2700/171 , F25B2700/2104 , F25B2700/2106 , Y02B30/125 , Y02B30/741
摘要： A heat pump and a control method thereof, the control method of the heat pump which heats a heated space through heat exchange between outdoor air and a refrigerant and heat exchange between the refrigerant and circulation water, includes calculating the maximum allowable frequency of a compressor based on the temperature of the outdoor air and the heating load of the heated space, calculating the mean operating frequency of the compressor while the compressor is operated at the calculated maximum allowable frequency, recalculating the maximum allowable frequency based on a result of comparison between the mean operating frequency and the maximum allowable frequency, and operating the compressor at the recalculated maximum allowable frequency, thereby improving coefficient of performance (COP) of the heat pump.
摘要翻译：一种热泵及其控制方法，通过在室外空气与制冷剂之间进行热交换而对加热空间进行加热并且在制冷剂与循环水之间进行热交换的热泵的控制方法包括：计算基于压缩机的最大允许频率关于室外空气的温度和加热空间的加热负荷，计算压缩机在计算出的最大允许频率下运行时的压缩机的平均工作频率，基于平均值的比较结果重新计算最大允许频率工作频率和最大允许频率，并在重新计算的最大允许频率下操作压缩机，从而提高热泵的性能系数（COP）。

86. 发明申请

US20140000308A1 REFRIGERANT CIRCUIT 有权
标题翻译：制冷电路
公开(公告)号：US20140000308A1
公开(公告)日：2014-01-02
申请号：US14017557
申请日：2013-09-04
申请人： Panasonic Corporation
发明人： Kou KOMORI , Yuichi YAKUMARU , Tomoichiro TAMURA , Masaya HONMA , Hiroki HAYASHI
IPC分类号： F25B1/00
CPC分类号： F25B1/00 , F24D3/08 , F24D11/0235 , F24D2200/12 , F24D2200/24 , F24D2220/06 , F24D2220/08 , F24D2220/2009 , F24D2220/209 , F25B1/10 , F25B9/008 , F25B29/003 , F25B2309/061 , F25B2339/047 , F25B2400/13 , F25B2600/2509 , Y02B10/70 , Y02B30/125 , Y02B30/52
摘要： A refrigeration cycle apparatus (50) includes: a main refrigerant circuit (21) having a compressor (1), a radiator (2), a first expansion mechanism (5), a second expansion mechanism (6), and an evaporator (4); an injection passage (22) for supplying an intermediate-pressure refrigerant to an injection port 1c of the compressor 1; and a water circuit (30) through which water to be heated in the radiator (2) flows. The refrigeration cycle apparatus (50) includes a sub heat exchanger (3) for cooling the water in the water circuit (30) by exchanging heat between the refrigerant in the injection passage (22) and the water to be heated in the radiator (2).
摘要翻译：制冷循环装置（50）包括：具有压缩机（1），散热器（2），第一膨胀机构（5），第二膨胀机构（6）和蒸发器（4）的主制冷剂回路）; 用于将中压制冷剂供给到压缩机1的喷射口1c的喷射通路（22）以及在所述散热器（2）中被加热的水流过的水回路（30）。制冷循环装置（50）包括：副热交换器（3），用于通过在喷射通道（22）中的制冷剂与散热器（2）中待加热的水之间的热交换来冷却水回路（30）中的水）。

87. 发明申请

US20130168041A1 FORCED AIR RADIANT HEATING UTILICORE AND MODULE AND BUILDING INCORPORATING SAME 有权
标题翻译：强制空气辐射加热用途和模块和建筑物
公开(公告)号：US20130168041A1
公开(公告)日：2013-07-04
申请号：US13821282
申请日：2011-09-16
申请人： William Teron
发明人： William Teron
IPC分类号： F24F5/00 , F28D7/16 , E04C2/52 , F24D3/14
CPC分类号： E04B5/48 , E04C2/525 , F24D3/14 , F24D3/145 , F24D11/0214 , F24F5/0089 , F28D7/163 , Y02A30/256 , Y02B30/125 , Y02B80/40
摘要： An HVAC duct or utilicore for substantially containing air flowing longitudinally therethrough has at least one wall comprised of a poured high thermal mass material with at least one pipe embedded therein during a pouring process, the at least one pipe for circulating a fluid throughout the at least one wall at a temperature that is different from an ambient temperature of the air flowing through the utilicore, for effecting heat transfer through the at least one wall between the fluid in the at least one conduit and the air flowing through the utilicore. A side wall of an elongate monolithic poured concrete building construction module, having a substantially planar main wall and at least one side wall extending substantially parallel to a longitudinal axis, having a pipe embedded therewithin, may form at least a portion of an element that defines the utilicore. A storey-defining structure for a building may comprise a plurality of at least one of such construction modules, each module supported at least two points by a support structure, each module being oriented such that distal ends of the side walls thereof engage the support structure, the at least one side wall and the main wall defining an elongate arch, the modules being juxtaposed in parallel relation to define at least one elongate utilicore between the arches. The support structure may comprise one or more modules employed as substantially horizontal beams or substantially vertical columns or both.
摘要翻译：用于基本上包含纵向流过其中的空气的HVAC管道或用途具有至少一个壁，所述至少一个壁由倾倒的高热质材料组成，其中在浇注过程期间至少一个管嵌入其中，所述至少一个管用于使至少一个流体循环至少一个壁的温度不同于流过利用器的空气的环境温度，用于通过至少一个管道中的流体和流过该利用器的空气之间的至少一个壁进行热传递。具有基本上平面的主壁和基本上平行于纵向轴线延伸的至少一个侧壁的细长单块浇注混凝土建筑施工模块的侧壁，其具有嵌入其中的管道，可以形成至少一部分限定使用者。用于建筑物的楼层限定结构可以包括多个这样的构造模块中的至少一个，每个模块由支撑结构支撑至少两个点，每个模块被定向成使得其侧壁的远端与支撑结构，所述至少一个侧壁和所述主壁限定细长的拱形，所述模块平行地并置，以在所述拱之间限定至少一个细长的实施孔。支撑结构可以包括用作基本上水平的梁或基本垂直的柱或两者的一个或多个模块。

88. 发明申请

US20130098096A1 HEAT PUMP SYSTEM 有权
标题翻译：热泵系统
公开(公告)号：US20130098096A1
公开(公告)日：2013-04-25
申请号：US13807589
申请日：2011-07-12
申请人： Hiroshi Nakayama , Shuji Fujimoto
发明人： Hiroshi Nakayama , Shuji Fujimoto
IPC分类号： F24H4/02 , F25B30/02
CPC分类号： F24H4/02 , F24D3/18 , F24D11/0214 , F24D17/02 , F24D19/1039 , F24D19/1054 , F24D19/1087 , F25B1/10 , F25B30/02 , F25B40/00 , F25B2309/06 , F25B2309/061 , F25B2339/047 , F25B2400/072 , F25B2400/13 , Y02B30/12 , Y02B30/125
摘要： A heat pump system includes a heat pump circuit, a heat load circuit, first and second heat exchangers, a flow rate regulation mechanism and a controller. A first passage connects branching and converging portions of the heat load circuit. A second passage connects the branching and converging portions without converging with the first passage. The first and second heat exchanger perform heat exchange between discharge refrigerant from the low and high stage compression mechanisms and fluid in the first and second passages, respectively. The flow rate regulation mechanism regulates a ratio between flow rates through the first and second passages. The controller controls the flow rate regulation mechanism so that the fluid is allowed to flow to the first heat exchanger when a temperature of refrigerant flowing into the first heat exchanger is lower than a heating target temperature of converged fluid flowing through the heat load circuit.
摘要翻译：热泵系统包括热泵回路，热负荷回路，第一和第二热交换器，流量调节机构和控制器。第一通道连接热负荷电路的分支和会聚部分。第二通道连接分支和会聚部分而不与第一通道收敛。第一和第二热交换器分别执行来自低阶段和高阶段压缩机构的排出制冷剂与第一和第二通道中的流体之间的热交换。流量调节机构调节通过第一和第二通道的流速之间的比率。控制器控制流量调节机构，使得当流入第一热交换器的制冷剂的温度低于流过热负荷回路的会聚流体的加热目标温度时允许流体流向第一热交换器。

89. 发明授权

US08371287B2 Solar collector reflector system 失效
标题翻译：太阳能集热器反射器系统
公开(公告)号：US08371287B2
公开(公告)日：2013-02-12
申请号：US13295929
申请日：2011-11-14
申请人： Lewis W. Fleischmann
发明人： Lewis W. Fleischmann
IPC分类号： E04D13/18
CPC分类号： F24D5/005 , F24D11/0264 , F24D19/109 , F24S10/742 , F24S30/42 , F24S50/80 , F24S2030/133 , F24S2030/135 , F24S2030/136 , Y02B10/20 , Y02B10/70 , Y02B30/125 , Y02E10/44 , Y02E10/47
摘要： The solar collector-reflector system includes at least one modular solar panel arranged singly or in an array, each solar panel having a solar collector-reflector assembly, a driver for selective collection or reflection of solar energy, attachment assembly, mounting assembly, ducting and a controller for controlling the solar energy collection and reflection configuration based on the sensed differential temperature between the solar panel or array and a dwelling set temperature. The solar collector-reflector assembly has surfaces that either collect or reflect solar energy, and the solar collector-reflector system utilizes air-to-air heat transfer to provide additional heating to an existing ducting system in the dwelling or reflect solar flux from the roof, thereby reducing heating and cooling energy consumption and costs.
摘要翻译：太阳能收集器 - 反射器系统包括单独或阵列布置的至少一个模块化太阳能电池板，每个太阳能电池板具有太阳能收集器 - 反射器组件，用于选择性收集或反射太阳能的驱动器，附接组件，安装组件，管道和控制器，用于基于感测到的太阳能电池板或阵列之间的差分温度和住宅设定温度来控制太阳能收集和反射配置。太阳能收集器 - 反射器组件具有收集或反射太阳能的表面，并且太阳能收集器 - 反射器系统利用空气 - 空气热传递来为住宅中的现有管道系统提供额外的加热或反射来自屋顶的太阳能通量，从而降低加热和冷却能耗和成本。

90. 发明授权

US08365546B2 Hot water storage type hot water supply system and operation method of the same 有权
标题翻译：热水储水式供热系统及其运行方式相同
公开(公告)号：US08365546B2
公开(公告)日：2013-02-05
申请号：US13381452
申请日：2011-07-06
申请人： Gaku Hayashida
发明人： Gaku Hayashida
IPC分类号： F25D17/00
CPC分类号： H01M10/486 , F24D3/08 , F24D11/0235 , F24D19/1072 , F24D2200/123 , F24D2200/29 , F24H2240/01 , H01M10/613 , H01M10/633 , H01M10/656 , H01M10/6571 , H01M10/659 , Y02B10/70 , Y02B30/125 , Y02B30/52
摘要： A hot water storage type hot water supply system includes a storage battery unit, a heat pump cycle, a water storage tank, a water circulation path, first and second paths, first and second temperature sensors, and a controller. The heat pump cycle circulates a first refrigerant. The first and second paths circulate a second refrigerant. The first and second sensors sense temperatures of the storage battery unit and water stored in the tank, respectively. The controller controls the second refrigerant to flow in the first or the second path when the temperature of the storage battery unit sensed by the first sensor is higher or lower than a first or a second predetermined temperature, respectively. The controller controls to close the first and second paths when the temperature of the storage battery unit sensed by the first sensor is not lower than the second predetermined temperature and not higher than the first predetermined temperature.
摘要翻译：热水储存式热水供给系统包括蓄电池单元，热泵循环，储水箱，水循环路径，第一和第二路径，第一和第二温度传感器以及控制器。热泵循环循环第一制冷剂。第一和第二路径循环第二制冷剂。第一和第二传感器分别感测存储电池单元的温度和储存在储罐中的水。当由第一传感器感测到的蓄电池单元的温度分别高于或低于第一或第二预定温度时，控制器控制第二制冷剂在第一或第二路径中流动。当由第一传感器感测到的蓄电池单元的温度不低于第二预定温度并且不高于第一预定温度时，控制器控制关闭第一和第二路径。

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