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    • 1. 发明申请
    • SYSTEM WITH A CONFINED SPACE AND MEANS TO DISTRIBUTE WATER VAPOR TO SAID CONFINED SPACE, AS WELL AS METHOD OF CONTROLLING THE WATER VAPOR LEVEL PRESENT IN A CONFINED SPACE
    • 具有限定空间的系统和用于分配水蒸气以形成限定空间的系统,以及作为在限定空间中控制水蒸气水平的方法
    • WO2013016274A3
    • 2013-12-19
    • PCT/US2012047827
    • 2012-07-23
    • ELECTROLUX HOME PROD INCHALL DAVID L
    • HALL DAVID L
    • F25D17/04
    • F25D17/042F25D2317/0413F25D2317/04131
    • An enclosure defines a confined space configured to store goods that can be advantageously maintained by controlling the water vapor levels to which the goods are exposed. A water vapor conversion element, at which liquid water is converted to water vapor, can be operably associated with the confined space to distribute that water vapor to the confined space. A water delivery unit is operatively associated with the water vapor conversion element and is configured to deliver water in liquid form to the water vapor conversion element. The water delivery unit can comprise a drip chamber configured to deliver the water essentially one drop at a time. The enclosure can comprise a drawer in a refrigeration appliance such as a household refrigerator. A sensor configured to determine the water vapor level present in the confined space can be operable to selectively control the distribution of water vapor to the confined space.
    • 外壳限定了限定空间,其被配置为存储可以有利地通过控制商品暴露于的水蒸汽水平来维持的货物。 液体水被转化为水蒸汽的水蒸汽转化元件可以与限制空间可操作地相关联,以将该水蒸气分配到密闭空间。 水输送单元与水蒸气转换元件可操作地相关联并且被配置为将液体形式的水输送到水蒸气转换元件。 水输送单元可以包括滴水室,其被配置为一次输送水基本上一滴。 外壳可以包括诸如家用冰箱的制冷设备中的抽屉。 被配置为确定存在于受限空间中的水蒸汽水平的传感器可以被操作以选择性地控制水分到密闭空间的分布。
    • 2. 发明申请
    • VARIABLE POWER DEFROST HEATER
    • 可变电力除冰加热器
    • WO2012108996A2
    • 2012-08-16
    • PCT/US2012/022056
    • 2012-01-20
    • ELECTROLUX HOME PRODUCTS, INC.HALL, David, L.
    • HALL, David, L.
    • F25D21/08F25B49/00
    • F25D21/006F25B2700/11F25B2700/2117F25D21/08
    • A refrigeration appliance includes a storage compartment. An evaporator cools the storage compartment. A defrost heater is associated with the evaporator. A temperature sensor senses an evaporator temperature and generates a temperature signal based on the evaporator temperature. A controller receives the temperature signal and generates a defrost heater power control signal. A power supply receives the defrost heater power control signal and controls a power level supplied to the defrost heater based on the defrost heater power control signal. A first power level is supplied to the defrost heater during a first heating interval of a defrosting operation, and, based on an evaporator temperature rise occurring during the first heating interval, the controller adjusts the defrost heater power control signal such that an adjusted power level is supplied to the defrost heater during a second heating interval of the defrosting operation.
    • 制冷器具包括储藏室。 蒸发器冷却储藏室。 除霜加热器与蒸发器相关联。 温度传感器感测蒸发器温度,并根据蒸发器温度产生温度信号。 控制器接收温度信号并产生除霜加热器功率控制信号。 电源接收除霜加热器功率控制信号,并根据除霜加热器功率控制信号控制供给除霜加热器的功率。 在除霜运转的第一加热间隔期间,向除霜加热器供给第一功率水平,并且基于在第一加热间隔期间发生的蒸发器温度升高,控制器调节除霜加热器功率控制信号,使得调节功率水平 在除霜操作的第二加热间隔期间被供给到除霜加热器。
    • 4. 发明申请
    • TEMPERATURE-CONTROLLED STORAGE UNIT
    • 温度控制存储单元
    • WO2008154176A3
    • 2009-11-05
    • PCT/US2008065195
    • 2008-05-30
    • ELECTROLUX HOME PROD INCCUSHMAN ROBERT LHALL DAVID LRICHARDSON EDMUND SCOTT
    • CUSHMAN ROBERT LHALL DAVID LRICHARDSON EDMUND SCOTT
    • F25D17/06
    • F25D17/065F25D2317/061F25D2317/063F25D2317/0665F25D2400/02F25D2400/28
    • The invention concerns a storage unit (10) that is adapted to be located in a refrigeration appliance. The storage unit includes a holding compartment (20) for holding articles the temperature of which is to be controlled. The holding compartment is adapted to be placed in air flow communication with a source of cold air whereby the cold air may be delivered to the holding compartment. An air-flow passageway (49) for recirculating air discharged from the holding compartment back to the holding compartment is provided along with a mixing area (32) where the cold air and the recirculated air may be mixed in selected quantities. A user interface (70) providing for the selection of a temperature- control procedure from a group of available temperature-control procedures for application to the interior (22) of the holding compartment is included. The storage unit can include a controller for controlling the implementation of the temperature-control procedure selected by the user.
    • 本发明涉及适于位于制冷设备中的存储单元(10)。 存储单元包括用于保持其温度被控制的物品的保持室(20)。 保持室适于与冷气源进行空气流动连通,由此冷空气可以被输送到保持室。 与从混合区域(32)一起提供用于将从保持室排出的空气再循环回到保持室的气流通道(49),其中冷空气和再循环空气可以以选定的量混合。 包括用于从用于应用到保持室的内部(22)的一组可用的温度控制程序中选择温度控制程序的用户界面(70)。 存储单元可以包括用于控制由用户选择的温度控制过程的实现的控制器。
    • 6. 发明申请
    • VARIABLE POWER DEFROST HEATER
    • 可变电力除冰加热器
    • WO2012108996A3
    • 2012-12-13
    • PCT/US2012022056
    • 2012-01-20
    • ELECTROLUX HOME PROD INCHALL DAVID L
    • HALL DAVID L
    • F25D21/00F25D21/08
    • F25D21/006F25B2700/11F25B2700/2117F25D21/08
    • A refrigeration appliance (10) includes a storage compartment (12). An evaporator (32) cools the storage compartment. A defrost heater (30) is associated with the evaporator. A temperature sensor (36, 37, 38) senses an evaporator temperature and generates a temperature signal based on the evaporator temperature. A controller (40) receives the temperature signal and generates a defrost heater power control signal. A power supply receives the defrost heater power control signal and controls a power level supplied to the defrost heater based on the defrost heater power control signal. A first power level is supplied to the defrost heater during a first heating interval of a defrosting operation, and, based on an evaporator temperature rise occurring during the first heating interval, the controller (40) adjusts the defrost heater power control signal such that an adjusted power level is supplied to the defrost heater during a second heating interval of the defrosting operation.
    • 制冷装置(10)包括储藏室(12)。 蒸发器(32)冷却储藏室。 除霜加热器(30)与蒸发器相关联。 温度传感器(36,37,38)感测蒸发器温度,并根据蒸发器温度产生温度信号。 控制器(40)接收温度信号并产生除霜加热器功率控制信号。 电源接收除霜加热器功率控制信号,并根据除霜加热器功率控制信号控制供给除霜加热器的功率。 在除霜运转的第一加热间隔期间,向除霜加热器供给第一功率水平,并且基于在第一加热间隔期间发生的蒸发器温度上升,控制器(40)调节除霜加热器功率控制信号,使得 在除霜操作的第二加热间隔期间,将调节后的功率水平供给到除霜加热器。
    • 7. 发明申请
    • FRESH FOOD ICE MAKER CONTROL
    • 新鲜食品制冰机控制
    • WO2010099041A3
    • 2011-06-16
    • PCT/US2010024718
    • 2010-02-19
    • ELECTROLUX HOME PROD INCHALL DAVID LSCOVILLE JAMES
    • HALL DAVID LSCOVILLE JAMES
    • F25D29/00F25B41/06
    • F25D29/00F25B5/00F25B40/00F25B41/00F25B41/062F25B2341/0652F25B2500/19F25B2600/01F25B2600/2513F25B2700/21175F25C5/08F25C5/22F25D11/02Y02B30/72
    • A refrigeration system is provided with an ice maker chamber (20) within a fresh food compartment (14). The refrigeration system includes a refrigeration path and an ice maker path. The ice maker path includes an electronic expansion valve (216) for controlling the refrigerant entering an ice maker evaporator (218) and an evaporator pressure regulator. Controlling the refrigeration system includes the steps of sensing a first refrigerant temperature at an exit of the ice maker evaporator (218) and controlling a first control of the electronic expansion valve (216) until the temperature reaches a temperature target. The method of controlling can further include comparing a slope of the temperature to at least one of a minimum (261), a target (263), or a maximum setting (265) to adjust the control. Subsequently, a second control for the electronic expansion valve (216) can be repeatedly adjusted by evaluating the first refrigerant temperature and the slope.
    • 制冷系统在新鲜食物室(14)内设置有制冰室(20)。 制冷系统包括制冷路径和制冰机路径。 制冰机路径包括用于控制进入制冰机蒸发器(218)的制冷剂和蒸发器压力调节器的电子膨胀阀(216)。 控制制冷系统包括以下步骤:感测制冰机蒸发器(218)的出口处的第一制冷剂温度并控制电子膨胀阀(216)的第一控制,直到温度达到温度目标。 控制方法还可以包括将温度的斜率与最小(261),目标(263)或最大设定(265)中的至少一个进行比较,以调整控制。 随后,可以通过评估第一制冷剂温度和斜率来重复地调节用于电子膨胀阀(216)的第二控制。
    • 8. 发明申请
    • FRONT-TO-BACK SHOWCASE LIGHTING FOR A REFRIGERATOR
    • 用于制冷机的正面展示照明
    • WO2010099038A3
    • 2010-12-23
    • PCT/US2010024708
    • 2010-02-19
    • ELECTROLUX HOME PROD INCHALL DAVID L
    • HALL DAVID L
    • F25D27/00
    • F25D27/00F25D23/066F25D23/067F25D25/025
    • A refrigeration appliance (11) includes an appliance housing and a liner within (19,21) the housing, defining an interior storage chamber (13,15) at least partially enclosed by the liner, and providing a storage chamber rear wall (23), a first storage chamber sidewall (25), and a second storage chamber sidewall (27). The first storage chamber (25) sidewall has a plurality of openings through the first storage chamber sidewall (25). The second storage chamber sidewall (27) has another plurality of openings through the second storage chamber sidewall (27). A plurality of lighting devices (41) illuminates the interior storage chamber (13,15). Each of the lighting devices (41) is mounted within a respective one of the openings and emits light toward the storage chamber rear wall (23) providing a showcase lighting effect. Each of the lighting devices (41) includes a cover (59) located in the interior storage chamber (13,15) and a device housing (71) located within the respective one -of the openings. An illumination level within the storage chamber (13,15), due to light emitted by the plurality of lighting devices (41), is substantially vertically uniform.
    • 制冷设备(11)包括在壳体(19,21)内的器具壳体和衬套,限定至少部分地被衬套包围的内部存储室(13,15),并且提供储存室后壁(23) ,第一储存室侧壁(25)和第二储存室侧壁(27)。 第一储存室(25)侧壁具有穿过第一储存室侧壁(25)的多个开口。 第二储存室侧壁(27)具有穿过第二储存室侧壁(27)的另外多个开口。 多个照明装置(41)照亮内部储存室(13,15)。 每个照明装置(41)安装在相应的一个开口内,并朝向存储室后壁(23)发射光,从而提供橱窗照明效果。 每个照明装置(41)包括位于内部存储室(13,15)中的盖(59)和位于相应的一个开口内的装置壳体(71)。 由于多个照明装置(41)发射的光,储存室(13,15)内的照明水平基本上垂直均匀。
    • 10. 发明申请
    • HOT GAS DEFROST METHOD AND APPARATUS
    • 热气预测方法和装置
    • WO2009006139A2
    • 2009-01-08
    • PCT/US2008068120
    • 2008-06-25
    • ELECTROLUX HOME PROD INCHALL DAVID L
    • HALL DAVID L
    • F25B47/02
    • F25B47/022F25B2400/0403F25B2400/0411
    • A method of and apparatus for defrosting an evaporator in a cooling system are provided. The cooling system includes a compressor, a condenser, an evaporator and a refrigerant that is circulated in sequence from the compressor to the condenser, to the evaporator and back to the compressor during routine operation of the cooling system. The method and apparatus comprise shutting off the flow of the refrigerant from the compressor to the evaporator through the condenser while continuing to operate the compressor so as to apply suction to the refrigerant in the evaporator and thereafter directing compressed refrigerant from the compressor to the evaporator while bypassing the condenser and continuing to shut off the flow of the refrigerant from the compressor to the evaporator through the condenser.
    • 提供了一种用于在冷却系统中对蒸发器进行除霜的方法和装置。 冷却系统包括压缩机,冷凝器,蒸发器和在冷却系统的常规操作期间从压缩机顺序循环到冷凝器到制冷器并回到压缩机的制冷剂。 该方法和装置包括通过冷凝器关闭制冷剂从压缩机到蒸发器的流动,同时继续操作压缩机,以便向蒸发器中的制冷剂施加吸力,然后将压缩的制冷剂从压缩机引导到蒸发器,同时 绕过冷凝器并继续通过冷凝器关闭制冷剂从压缩机流到蒸发器的流动。