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    • 95. 发明专利
    • Multi-chamber coolant tank
    • 多室冷藏罐
    • JP2010190219A
    • 2010-09-02
    • JP2010030539
    • 2010-02-15
    • Thermo King Corpサーモ キング コーポレーション
    • WESSELS TIMOTHY JDOTZENROD RYAN J
    • F01P11/00
    • F01P11/029F01P11/02F01P11/0204F01P11/0238F01P11/0276
    • PROBLEM TO BE SOLVED: To provide a compact multi-chamber coolant tank.
      SOLUTION: The coolant tank 14 for receiving a fluid from a cooling system includes a pressurized tank 36 having a pressurized reservoir 18 configured to contain the fluid, and an overflow tank 40 integrated with the pressurized tank 36. The pressurized reservoir 18 includes an inlet port 42 configured to receive the fluid from the cooling system, an outlet port 46 configured to direct the fluid from the pressurized reservoir to the cooling system, a fill neck 26 in fluid communication with the pressurized reservoir 18, and a pressure cap 30 removably coupled to the fill neck 26. The overflow tank 40 includes an overflow reservoir 22 maintained at atmospheric pressure and configured to receive overflow fluid from the pressurized reservoir 18 when the liquid of the cooling system expands. At least a portion of the fill neck 26 is positioned within the overflow reservoir 22.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一个紧凑的多室冷却液箱。 解决方案:用于从冷却系统接收流体的冷却剂罐14包括具有构造成容纳流体的加压储存器18的加压罐36和与加压罐36一体化的溢流罐40.加压储存器18包括 被配置为从冷却系统接收流体的入口端口42,被配置为将流体从加压容器引导到冷却系统的出口端口46,与加压容器18流体连通的填充颈部26和压力盖30 溢流槽40包括保持在大气压下的溢流储存器22,并且构造成当冷却系统的液体膨胀时从溢流流体接收溢流流体。 填充颈部26的至少一部分定位在溢流储存器22内。版权所有(C)2010,JPO&INPIT
    • 97. 发明专利
    • Control system for generator
    • 发电机控制系统
    • JP2008099546A
    • 2008-04-24
    • JP2007261437
    • 2007-10-05
    • Thermo King Corpサーモ キング コーポレーション
    • RENKEN DAVID JBENSON BERNARD WAYNEBURNHAM RANDY SLUCHT ERICH
    • H02P9/04B60P3/20F25D11/00
    • H02P9/04B60H1/3222B60H1/3232F25B27/00F25B2327/001
    • PROBLEM TO BE SOLVED: To provide a generator set for a frozen/refrigerated transportation unit capable of operating at a first frequency and a second frequency. SOLUTION: The generator set for the frozen/refrigerated transportation unit can be operated at a first frequency and a second frequency. The generator set includes a generator and a motor combined with the generator. The motor selectively drives the generator at a first speed which is not at least zero, and at a second speed which is not zero. A sensor is electrically connected with the generator in order to detect the load of the generator and transmit a signal for informing the load of the generator. A controller is electrically connected with the generator, the motor, and the sensor to receive the signal for informing the load of the generator. The controller selectively operates the generator at one of the first speed and the second speed correspondingly to the signal for informing the load of the generator. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够以第一频率和第二频率操作的冷冻/冷藏运输单元的发电机组。

      解决方案:用于冷冻/冷藏运输单元的发电机组可以以第一频率和第二频率操作。 发电机组包括发电机和与发电机组合的电动机。 电动机以不是至少为零的第一速度和不为零的第二速度选择性地驱动发电机。 传感器与发电机电连接,以便检测发电机的负载并发送用于通知发电机的负载的信号。 控制器与发电机,电动机和传感器电连接以接收用于通知发电机负载的信号。 控制器对应于用于通知发电机的负载的信号,以第一速度和第二速度中的一个选择性地操作发电机。 版权所有(C)2008,JPO&INPIT

    • 98. 发明专利
    • Compound type temperature regulator
    • 复合型温度调节器
    • JP2007271262A
    • 2007-10-18
    • JP2007154600
    • 2007-06-12
    • Thermo King Corpサーモ キング コーポレーション
    • VIEGAS HERMAN HVANDER WOUDE DAVID JNILSSON HANS-OLOF
    • F25D16/00F25D29/00
    • PROBLEM TO BE SOLVED: To provide a method for carrying out efficiently initial cooling or restoration of temperature elevation due to door opening, in a refrigerating truck or the like. SOLUTION: The problem herein to be solved is attained by a novel method of operating a compound type temperature regulator. The method is provided newly with an evaporator having a discharge pipe line, a supply pipe line, and an evaporator coil, the evaporator coil is fluid-communicated with the discharge pipe line and the supply pipe line, a microprocessor is provided to regulate a supply of a heat absorbing fluid to the evaporator, and a sensor module is connected to the microprocessor. The sensor module is located in the vicinity of the evaporator, and senses a temperature of gas going out from the evaporator to transmit a temperature to the microprocessor. The supply of the heat absorbing fluid to the evaporator is stopped when the microprocessor determines that the temperature of the gas outgoing from the evaporator reaches a prescribed temperature. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种用于在冷藏车辆等中有效地执行初始冷却或由于门打开引起的温度升高的恢复的方法。 解决方案:通过操作化合物型温度调节器的新颖方法可以实现待解决的问题。 本发明提供了一种具有排放管线,供给管线和蒸发器盘管的蒸发器的方法,蒸发器盘管与排出管线和供给管线流体连通,提供微处理器来调节供应 的吸热流体到蒸发器,并且传感器模块连接到微处理器。 传感器模块位于蒸发器附近,并且感测从蒸发器出来的气体的温度以将温度传送到微处理器。 当微处理器确定从蒸发器出来的气体的温度达到规定温度时,停止向蒸发器供应吸热流体。 版权所有(C)2008,JPO&INPIT
    • 99. 发明专利
    • Temperature regulator and operation method therefor
    • 温度调节器及其运行方法
    • JP2005106458A
    • 2005-04-21
    • JP2004276607
    • 2004-09-24
    • Thermo King Corpサーモ キング コーポレーション
    • SRICHAI PANAYU ROBERTMOHS WILLIAM FRANCISLUDWIG BRADLEY MICHAEL
    • B60P3/20B60H1/00B60H1/32F25B27/00F25B40/00F25B41/04F25B47/02F25B49/02F25D11/00F25D29/00
    • F25B49/02B60H1/00914B60H1/3213F25B27/00F25B40/00F25B41/04F25B47/022F25B2327/001F25B2400/0403F25B2400/0411F25B2400/16F25B2400/19F25B2700/21172F25B2700/21173F25D11/003
    • PROBLEM TO BE SOLVED: To prevent efficiency from getting worse by accumulation of a refrigerant inside a cooling circuit in a temperature regulator for cooling a cargo for a motor truck or the like.
      SOLUTION: The problem to be solved herein is solved by the temperature regulator and an operation method for the temperature regulator described hereinafter. The temperature regulator is provided with the cooling circuit sealed with the refrigerant, and having a compressor, a condenser and an evaporator coil, and the first flow passage for the refrigerant used in a cooling operation, and the second flow passage for heating to remove the refrigerant having the possibility of the accumulation inside the cooling circuit, a risk of the accumulation of the refrigerant inside the cooling circuit is removed to prevent the lowering of the efficiency. The method includes the provision of the first flow passage extended through the compressor, the condenser and an evaporator, the provision of the second flow passage extended through the compressor and the evaporator, and for by-passing one portion of the cooling circuit, the introduction of the refrigerant through the first flow passage during an operation of a cooling mode, the introduction of the refrigerant through the second flow passage during an operation of a heating mode, and the recovery of the refrigerant from the one portion of the cooling circuit during an operation of a recovery cycle.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了防止冷却回路中的制冷剂积聚在用于冷却马达或其类似物品的温度调节器中的效率变差。 解决方案:本文要解决的问题由温度调节器和下文描述的温度调节器的操作方法来解决。 温度调节器设置有用制冷剂密封的冷却回路,并且具有压缩机,冷凝器和蒸发器盘管,以及用于制冷运转中的制冷剂的第一流路,第二流路用于加热以除去 具有积存在冷却回路内的可能性的制冷剂被去除,制冷剂在冷却回路内积聚的风险被消除,以防止效率降低。 该方法包括提供通过压缩机,冷凝器和蒸发器延伸的第一流动通道,设置延伸穿过压缩机和蒸发器的第二流动通道,并且用于旁通冷却回路的一部分,引入 的制冷剂在冷却模式的操作期间通过第一流路通过,在加热模式的操作期间通过第二流动通道引入制冷剂,并且在制冷模式期间从冷却回路的一个部分回收制冷剂 操作恢复周期。 版权所有(C)2005,JPO&NCIPI
    • 100. 发明专利
    • Hybrid temperature control system
    • 混合温度控制系统
    • JP2003028554A
    • 2003-01-29
    • JP2002150100
    • 2002-05-24
    • Thermo King Corpサーモ キング コーポレーション
    • VIEGAS HERMAN HVANDER WOUDE DAVID JNILSSON HANS-OLOF
    • F25D16/00
    • PROBLEM TO BE SOLVED: To provide a method of efficiently effecting initial cooling of a freezing track and the like or recovery of temperature increase due to door opening.
      SOLUTION: Achievement is effected by a new method to operate a hybrid temperature control device. This method newly provides an evaporator having a discharge line, a feed line, and an evaporator coil. The evaporator coil is in fluid communication with the discharge line and the feed line. A microprocessor is provided to regulate a feed of heat absorbing fluid to the evaporator, and further a sensor module is coupled to the microprocessor. In the vicinity of the evaporator, the sensor module detects the temperature of gas coming out from the evaporator and feeds the temperature to the microprocessor. When it is decided by the microprocessor that the temperature of gas coming out from the evaporator reaches a given temperature, a feed of the heat absorbing fluid to the evaporator is stopped.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种有效地实现冻结轨道等的初始冷却或由于门打开引起的温度升高的恢复的方法。 解决方案:通过使用混合温度控制装置的新方法实现成就。 该方法新提供了具有排出管线,进料管线和蒸发器盘管的蒸发器。 蒸发器盘管与排出管线和进料管线流体连通。 提供了一个微处理器来调节吸热流体到蒸发器的进料,并且还有一个传感器模块耦合到微处理器。 在蒸发器附近,传感器模块检测从蒸发器出来的气体的温度,并将温度馈送到微处理器。 当由微处理器确定从蒸发器出来的气体的温度达到给定的温度时,停止向蒸发器的吸热流体的进料。