Compartmentalized transport refrigeration system
    1.
    发明授权
    Compartmentalized transport refrigeration system 失效
    分区运输制冷系统

    公开(公告)号:US5129235A

    公开(公告)日:1992-07-14

    申请号:US749775

    申请日:1991-08-26

    IPC分类号: B60H1/32 B60P3/20

    CPC分类号: B60H1/3232

    摘要: A vehicle (14) having first and second cargo spaces (32,34) to be conditioned by a transport refrigeration unit (12), with the vehicle having a front wall (24) and a rear wall (26). A partition (30) in the vehicle defines the first and second cargo spaces, which extend side-by-side from the front wall to the rear wall. The rear wall is provided with separate doors (36,38) for gaining access to the first and second cargo spaces. The transport refrigeration unit includes a frame (44) supporting first and second evaporator units (50,52). The frame and evaporator units are mounted on the outside front wall of the vehicle, with the first and second evaporator units being in air flow communication with the first and second cargo spaces, respectively, via suitable openings (40,42) in the front wall. Electrical control independently controls the first and second evaporator units to condition the air in the first and second cargo spaces.

    摘要翻译: 具有由运输制冷单元(12)调节的第一和第二货物处所(32,34)的车辆(14),车辆具有前壁(24)和后壁(26)。 车辆中的隔板(30)限定了从前壁到后壁并排延伸的第一和第二货物处所。 后壁设置有用于进入第一和第二货物处所的单独的门(36,38)。 运输制冷单元包括支撑第一和第二蒸发器单元(50,52)的框架(44)。 框架和蒸发器单元安装在车辆的外部前壁上,其中第一和第二蒸发器单元分别通过前壁中的适当开口(40,42)与第一和第二货物空间进行空气流动连通 。 电气控制独立地控制第一和第二蒸发器单元以调节第一和第二货物处所中的空气。

    Transport refrigeration system having means for enhancing the capacity
of a heating cycle

    公开(公告)号:US4748818A

    公开(公告)日:1988-06-07

    申请号:US61767

    申请日:1987-06-15

    IPC分类号: F25B13/00 F25B41/04 F25D29/00

    CPC分类号: F25D29/003 F25B41/04

    摘要: A transport refrigeration system 10, and method of operating same, which includes a compressor 14, a receiver 26, an evaporator 42, an accumulator 44, and valve means 18 which initiates heating and cooling modes or cycles which utilize hot compressor gas. Instead of pressurizing receiver 26 at the start of a heating cycle, which traps refrigerant in condenser 24, the heating capacity of a heating cycle is enhanced by connecting the outlet of receiver 26 and the inlet of accumulator 44 in direct fluid flow communication during a heating cycle. Lower pressure in accumulator 44 allows liquid refrigerant in receiver 26 to be directed into accumulator 44, while permitting refrigerant in condenser 24 to drain into receiver 26, to make additional liquid refrigerant available during the heating cycle.