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公开(公告)号:US08844314B2
公开(公告)日:2014-09-30
申请号:US13166102
申请日:2011-06-22
申请人: Anderson Bortoletto , Rogerio Soares Brisola , Douglas D. Leclear , James Peterson , Fabio E. Rosa , Vanessa Christina Riberio , Simone M. Vidal , Ronald L. Voglewede
发明人: Anderson Bortoletto , Rogerio Soares Brisola , Douglas D. Leclear , James Peterson , Fabio E. Rosa , Vanessa Christina Riberio , Simone M. Vidal , Ronald L. Voglewede
CPC分类号: F25C1/08 , F25C1/18 , F25C2305/022 , F25C2400/10 , F25C2400/14
摘要: A clear ice making system and method utilizes an ice tray including a plurality of ice forming cavities extending into a fluid supply cavity. Fluid supplied to the fluid supply cavity flows into each of the plurality of ice forming cavities and out through respective fluid outlets located in a bottom portion of the ice forming cavities to a fluid outlet chamber below. Cooled ice forming members extend into respective ice forming cavities. Fluid is continuously cycled through the ice forming cavities and around the ice forming members during an ice making event such that clear ice pieces gradually form on each of the ice forming members. During an ice harvest event, ice forming members are heated to release formed ice pieces, and the ice pieces are transferred from a fresh food compartment of a refrigerator to an ice storage bucket located in a freezer compartment of the refrigerator.
摘要翻译: 清晰的制冰系统和方法利用包括延伸到流体供应腔中的多个成冰腔的冰盘。 提供给流体供应腔的流体流入多个冰形成空腔中的每一个,并且通过位于冰形成腔的底部中的相应流体出口流出到下面的流体出口室。 冷成冰构件延伸到各自的制冰腔中。 流体在制冰事件期间连续循环穿过成冰腔并在冰层周围,从而在每个冰成形构件上逐渐形成清晰的冰块。 在冰捕获事件期间,加热冰形成部件以释放形成的冰块,并将冰块从冰箱的新鲜食物室转移到位于冰箱的冷冻室中的储冰桶中。
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公开(公告)号:US08695359B2
公开(公告)日:2014-04-15
申请号:US13166016
申请日:2011-06-22
申请人: Anderson Bortoletto , Rogerio Soares Brisola , Fernando Luiz Freitas Filho , William Silva , Vanessa Christina Riberio , Simone M. Vidal , Ronald L. Voglewede
发明人: Anderson Bortoletto , Rogerio Soares Brisola , Fernando Luiz Freitas Filho , William Silva , Vanessa Christina Riberio , Simone M. Vidal , Ronald L. Voglewede
IPC分类号: F25C1/00
CPC分类号: F25D21/14 , F25C1/08 , F25C2400/10 , F25C2400/14
摘要: A refrigerator having a water circulation and drainage system includes a fresh food compartment with a liner and a drain, an icemaker system having an ice forming cavity with a draining mechanism, and an ice storage bin coupled to a drain line for draining excess liquid from the ice storage bin. The water circulation and drainage system includes a water tank having an inlet port and an overflow device for draining water. The system also includes a drainage tank having a first water tank inlet port for receiving water from the overflow device of the water tank, a second water inlet port for receiving water from the ice storage bin, and a third inlet port for receiving water from the liner.
摘要翻译: 具有水循环和排水系统的冰箱包括具有衬里和排水口的新鲜食物室,具有排水机构的冰形成腔的制冰机系统和联接到排水管的储冰箱,用于从 储冰箱 水循环和排水系统包括一个具有入口的水箱和用于排水的溢流装置。 该系统还包括排水箱,其具有用于从水箱的溢流装置接收水的第一水箱入口,用于从储冰箱接收水的第二进水端口和用于从储水箱接收水的第三入口 衬垫。
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公开(公告)号:US20100001084A1
公开(公告)日:2010-01-07
申请号:US12167279
申请日:2008-07-03
CPC分类号: F24F1/027 , B05B12/081 , B05B17/0676 , F24F6/14 , Y02B30/545
摘要: The present invention relates to air conditioning equipment capable of controlling the level of relative air humidity through a closed-loop system, enabling a stable relative air humidity level to be obtained for a pre-adjusted value. Thus, the present application describes air conditioning equipment comprising at least one cooling system and a humidification module associated to each other, said humidification module characterized by being removably built-in to the air conditioning equipment and by being controllable independently from the cooling system through at least one electronic sub-module.
摘要翻译: 本发明涉及能够通过闭环系统控制相对空气湿度水平的空调设备,能够获得预调节值的稳定的相对空气湿度水平。 因此,本申请描述了包括至少一个冷却系统和彼此相关联的加湿模块的空调设备,所述加湿模块的特征在于可移除地内置于空调设备中,并且可独立于冷却系统通过 至少一个电子子模块。
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公开(公告)号:US06276156B1
公开(公告)日:2001-08-21
申请号:US09367585
申请日:1999-08-17
IPC分类号: F25D2312
CPC分类号: F24F13/20 , F24F1/027 , F24F2013/205
摘要: According to the present invention, an air directing housing is provided for an air conditioning unit of the type having a basepan which supports indoor and outdoor sections. The basepan includes a vertical wall extending upwardly for a part of the height of the unit to define a lower portion of a partition which separates the unit into the indoor and outdoor sections. The indoor section includes an evaporator disposed in the basepan generally forwardly of the partition. A centrifugal fan is mounted between the evaporator coil and the vertical wall for rotation about an axis extending from front to back of the air conditioning unit. The fan is a centrifugal flow fan which has a circular inlet at the front thereof. The air directing housing is adapted to be mounted in the basepan rearwardly of the evaporator coil and surrounding the fan. The housing includes a lower section having a front wall which has a circular opening formed therein which is substantially coextensive with the circular inlet of the fan. The lower section also includes an interior scroll section for receiving the fan, and an open back. The air directing housing further includes an upper section defining an enclosed top structure for cooperation with the upper discharge structure of the lower section to define the air discharge opening of the air conditioner. The upper section further includes a rear wall having a lower edge adapted to engage the vertically extending wall of the basepan to define the upper portion of the partition. As a result, when the lower and upper air directing housing sections are installed in the housing, they cooperate with one another, the basepan, and the vertically extending wall to define the fan housing, the air intake and air discharge of the air conditioner.
摘要翻译: 根据本发明,提供了一种用于具有支撑室内和室外部分的底盘的类型的空调单元的空气引导壳体。 底盘包括向上延伸部分高度的垂直壁,以限定将该单元分离成室内和室外部分的隔板的下部。 室内部分包括设置在大致向前分隔开的底盘的蒸发器。 离心风扇安装在蒸发器盘管和垂直壁之间,用于围绕从空调单元的前后延伸的轴线旋转。 风扇是在其前部具有圆形入口的离心式流动风扇。 空气引导壳体适于安装在蒸发器盘管的后面的底盘中并围绕风扇。 壳体包括具有前壁的下部,前壁具有形成在其中的圆形开口,其与风扇的圆形入口基本上共同延伸。 下部还包括用于接收风扇的内部涡旋部分和敞开的背部。 空气引导壳体还包括限定封闭顶部结构的上部部分,用于与下部部分的上部排放结构配合,以限定空调的排气口。 上部部分还包括后壁,后壁具有适于与底盘的垂直延伸的壁接合以限定隔板的上部的下边缘。 结果,当下部和上部空气导向壳体部分安装在壳体中时,它们彼此配合,底盘和垂直延伸的壁来限定风扇壳体,空气调节器的进气和空气排放。
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