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    • 14. 发明申请
    • Evaporator comprising stacked, flat u-shaped tubes
    • 蒸发器包括堆叠的平的U形管
    • US20020184913A1
    • 2002-12-12
    • US09914462
    • 2001-08-29
    • Laurent Palanchon
    • F25B039/02
    • F28F1/126F28D1/0341F28D1/035F28D2021/0085F28F9/0217
    • The invention relates to an evaporator for exchanging heat between an airflow and a coolant, comprising an array consisting of a single row of flat tubes (1) stacked in alteration with wavy dividers (2). Said dividers keep the tubes a distance (d) away from each other, their waves defining the channels for the airflow in the direction of the breadth of the tubes. Each tube has a U-shape, with the ends of each of the two limbs communicating with two chambers of a single fluid container respectively, in such a way as to define a path for the coolant in an even number of segments in the evaporator. According to the invention, the dimension (l) of the evaporator in said direction is between 20 and 48 mm and the distance (d) is between 4.0 and 7.6 mm.
    • 本发明涉及一种用于在气流和冷却剂之间交换热量的蒸发器,其包括由具有波浪分隔器(2)改变堆叠的单排扁平管(1)组成的阵列。 所述分隔器保持管彼此远离距离(d),它们的波在管的宽度方向上限定气流的通道。 每个管具有U形,其中两个肢体中的每一个的端部分别与单个流体容器的两个室连通,以便限定在蒸发器中偶数个段中的冷却剂的路径。 根据本发明,蒸发器在所述方向上的尺寸(l)在20和48mm之间,距离(d)在4.0和7.6mm之间。
    • 15. 发明申请
    • Solenoid valve supporter of kim-chi refrigerator
    • kim-chi冰箱电磁阀支架
    • US20020069669A1
    • 2002-06-13
    • US09946765
    • 2001-09-05
    • Young-gil Lee
    • F25D011/02F25B039/02
    • F25D11/022A47J39/00F25B5/02F25B41/04F25B2400/0403F25B2500/12F25B2600/2501F25D23/006F25D31/005F25D2400/10
    • The present invention relates to a solenoid valve supporter of Kim-chi refrigerator that guarantees the original functions of the solenoid valve with very simplified structure for mounting a plurality of solenoid valves by positioning every solenoid valve corresponding to the evaporators on one supporter body with the same intervals and flowing and emitting the refrigerants into the plurality of solenoid valves through the supporter. The Kim-chi refrigerator comprise a solenoid valve supporter S for supporting the plurality of solenoid valves S1, S2, and S3 every corresponding to the plurality of evaporator 17. The plurality solenoid valves S1, S2, and S3 are positioned on the solenoid valve supporter S with the same intervals each other, and the solenoid valve supporter S comprises a supporter body 11 having a inlet port 15 formed the lower edge central portion of the supporter body 11 and a plurality of outlet ports 18 formed corresponding to the every solenoid valve S1, S2, and S3, an inlet pipe P which sends the refrigerants from the condenser 8 to the every solenoid valve S1, S2, and S3 via inlet holes 15a inside the supporter body 11, and a plurality of outlet ports 18 which sends the refrigerants from the every solenoid valve S1, S2, and S3 to every evaporator via outlet holes 18a inside the supporter body 11.
    • 本发明涉及金鸡冰箱的电磁阀支架,其保证电磁阀的原有功能,其结构非常简单,用于通过将与蒸发器相对应的每个电磁阀定位在一个支撑体上,用于安装多个电磁阀 间隔并流动并通过支撑器将制冷剂排放到多个电磁阀中。 金鸡冰箱包括一个电磁阀支撑器S,用于支持多个电磁阀S1,S2和S3,每个对应于多个蒸发器17.多个电磁阀S1,S2和S3位于电磁阀支架 S,电磁阀支撑体S包括支撑体11,该支撑体11具有形成在支撑体11的下边缘中心部的入口15,以及与每个电磁阀S1对应地形成的多个出口18 S2,S3是将制冷剂从冷凝器8通过支撑体11内的入口孔15a送出到各电磁阀S1,S2,S3的多个出口18, 从每个电磁阀S1,S2和S3通过支撑体11内的出口孔18a到每个蒸发器。
    • 16. 发明申请
    • Expansion valve
    • 膨胀阀
    • US20010018830A1
    • 2001-09-06
    • US09793608
    • 2001-02-27
    • Fujikoki Corporation
    • Eiji FukudaKazuhiko Watanabe
    • F25B041/00F25B039/02
    • B60H1/00485F25B41/062F25B2341/0683
    • An expansion valve 1 comprises a prism-shaped body 10, and a valve chamber 20 is formed within the body 10. Refrigerant supplied from a compressor flows into the valve chamber through a passage 22, passes between a valve means 42 and a valve seat 23, and travels toward an evaporator through a passage 24. Refrigerant returning from the evaporator enters the body 10 through a passage 26, and after the refrigerant temperature information is transmitted to the operating shaft 40, the refrigerant flows out through a passage 28 toward the compressor. Passages 22 and 28 open to a first side surface of the body, and passages 24 and 26 open to a second side surface orthogonal to the first surface. Such structure improves the degree of freedom for mounting the expansion valve 1.
    • 膨胀阀1包括棱柱体10,阀体20形成在主体10内。从压缩机供给的制冷剂通过通道22流入阀室,在阀装置42和阀座23之间通过 并通过通道24朝向蒸发器行进。从蒸发器返回的制冷剂通过通道26进入主体10,并且在制冷剂温度信息被传递到操作轴40之后,制冷剂通过通道28朝向压缩机流出 。 通道22和28向主体的第一侧表面开口,并且通道24和26通向与第一表面正交的第二侧表面。 这种结构提高了安装膨胀阀1的自由度。
    • 18. 发明申请
    • Evaporator
    • 蒸发器
    • US20040206488A1
    • 2004-10-21
    • US10826900
    • 2004-04-16
    • Shiro Ikuta
    • F25B039/02F28F003/08F28D007/06
    • F28F9/026F28D1/0341
    • An evaporator includes a plurality of laminated tubes, each of which is provided therein with a refrigerant passage, an inlet header chamber which is in communication with one end of the refrigerant passage, and an outlet header chamber which is in communication with the other end of the refrigerant passage. The inlet header chamber is located above the refrigerant passage. The inlet header chamber is partitioned by a partition wall into an inner header chamber and an outer header chamber which is disposed around the inner header chamber and which is in communication with the refrigerant passage. The inner header chambers of the adjacent tubes are in communication with each other. An assembly of the inner header chambers forms a header inlet tank chamber. The partition wall is provided with refrigerant holes located above a lowermost point a of the inner header chamber and at different levels.
    • 蒸发器包括多个层压管,每个层叠管中设置有制冷剂通道,与制冷剂通道的一端连通的入口集管室和与另一端连通的出口集管室, 制冷剂通道。 入口集管室位于制冷剂通道的上方。 入口集管室由分隔壁分隔成内集管室和外集管室,其设置在内集管室周围并与制冷剂通道连通。 相邻管的内部集管室彼此连通。 内部集管室的组件形成集管入口箱室。 分隔壁设置有位于内集管室的最低点a上方且处于不同水平的制冷剂孔。
    • 19. 发明申请
    • Evaporator, manufacturing method of the same, header for evaporator and refrigeration system
    • 蒸发器,制造方法相同,蒸发器和制冷系统的头
    • US20040159121A1
    • 2004-08-19
    • US10480259
    • 2003-12-18
    • Hirofumi HoriuchiRyoichi HoshinoNoboru OgasawaraTakashi TamuraTakashi TeradaFutoshi Watanabe
    • F28D001/02F25B039/02
    • F25B39/02F28D1/05391F28D2021/0085F28F9/0214F28F9/0278F28F21/089
    • The evaporator according to the present invention is equipped with a core (1) including an upper side and lower side heat exchanging tube groups P1 and P2 arranged front and rear and an upper side and lower side header members (10) and (50) disposed at the upper and lower end of the core (1). The inside of the upper header member is divided front and rear to form an inlet-side tank (11) and an outlet-side tank (12). On end of each tube (6) constituting the upstream-side tube group P1 is connected to the inlet-side tank (11), while the other end is connected to the lower header member (50). On end of each tube (7) constituting the downstream-side tube group P2 is connected to the outlet-side tank (12), while the other end is connected to the lower header into the inlet-side tank (11) is introduced into the outlet-side tank (12) by passing through the upstream-side tube group P1, the lower header member (50) and the downstream-side tube group P2. On the other hand, the refrigerant passing through both the heat exchanging tube groups P1 and P2 evaporates by exchanging heat with ambient air A. accordingly, it becomes possible to improve the heat exchange performance and to decrease the thickness.
    • 根据本发明的蒸发器装备有包括前后配置的上侧和下侧热交换管组P1和P2的芯体(1),以及设置有上侧和下侧集管构件(10)和(50) 在芯(1)的上端和下端。 上集管部件的内部被前后分配以形成入口侧罐(11)和出口侧罐(12)。 在构成上游侧管组P1的各管(6)的端部与入口侧箱(11)连接,另一端与下集管部件(50)连接。 在构成下游侧管组P2的每个管(7)的端部连接到出口侧罐(12),而将另一端连接到下部集管进入入口侧罐(11),导入 出口侧罐(12)通过上游侧管组P1,下集管部件(50)和下游侧管组P2。 另一方面,通过热交换管组P1和P2两者的制冷剂通过与环境空气A交换热而蒸发。因此,可以提高热交换性能并减小厚度。