会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Compact cooling system
    • 紧凑型冷却系统
    • US06886624B2
    • 2005-05-03
    • US10326334
    • 2002-12-19
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • F01P3/18F01P5/02F01P5/04F28D1/04F28F9/00B60H3/04F01P1/06F28D1/00B06K11/06B06K11/08
    • F28F9/002F01P5/02F01P5/043F01P2003/182F01P2003/185F01P2070/50F28D1/0426F28D2021/0082F28D2021/0094Y10S165/916
    • A compact cooling system includes a mounting panel adapted to receive a plurality of at least three cooling units, a cooling fan, and a fan drive mechanism. The mounting panel supports the fan and drive mechanism in a manner allowing rotation of the fan about the axis of rotation. A front side of the mounting panel is adapted for receiving and supporting the cooling units in a pattern defining a cantilevered, tubular polygonal solid disposed about the fan. The mounting panel includes a convex central region extending into the tubular polygonal solid and receiving the drive mechanism in operative connection to the fan. By virtue of this arrangement, a very compact cooling system is provided. The tubular polygonal shape of the cooling units, when mounted on the mounting panel, forms an air duct for directing a flow of cooling air induced by the fan through the cooling units. Positioning the drive mechanism inside the convex central region of the mounting panel significantly reduces the length of the cooling system along the axis of rotation.
    • 紧凑型冷却系统包括适于容纳多个至少三个冷却单元的安装面板,冷却风扇和风扇驱动机构。 安装面板以允许风扇围绕旋转轴线旋转的方式支撑风扇和驱动机构。 安装面板的前侧适于以限定围绕风扇设置的悬臂,管状多边形固体的图案接收和支撑冷却单元。 安装面板包括延伸到管状多边形实心中的凸起的中心区域,并接收与风扇可操作地连接的驱动机构。 凭借这种布置,提供了非常紧凑的冷却系统。 当安装在安装面板上时,冷却单元的管状多边形形成用于引导由风扇引起的冷却空气流通过冷却单元的空气管道。 将驱动机构定位在安装面板的凸形中心区域内,显着地减小了冷却系统沿着旋转轴线的长度。
    • 5. 发明授权
    • Cooling system, especially for a vehicle
    • 冷却系统,特别适用于车辆
    • US06363892B1
    • 2002-04-02
    • US09672430
    • 2000-09-28
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • F01P502
    • F28D1/0426F04D29/582F04D29/626F28D2021/0082F28D2021/0094
    • Fan efficiency problems are substantially reduced in a cooling system having a plurality of heat exchangers (10), (18), (20), (22) positioned with respect to each other to define a housing in the form of a polygonal solid with certain of the heat exchangers being employed in heat exchange fluid while others may be utilized to cool one or more other heat exchange fluids different from the first. A radial fan (42) is disposed within a space (26) within the housing and provided with blades (52) for flowing air generally radially outward through the heat exchangers (10), (18), (20), (22). The ratio of the location of the center line (d) of the fan blade outer edges (56) with respect to the front (30) of the heat exchanger to the diameter (D) of the fan (42) at the outer edges (56) is in the range of about 0.20 to about 0.36.
    • 在具有相对于彼此定位的多个热交换器(10),(18),(20),(22)的冷却系统中,风扇效率问题显着降低,以限定具有多边形固体形式的壳体 的热交换器用于热交换流体,而其它热交换器可用于冷却不同于第一流体的一种或多种其它热交换流体。 径向风扇(42)设置在壳体内的空间(26)内,并设置有用于使空气大致径向向外流过热交换器(10),(18),(20),(22)的叶片(52)。 风扇叶片外边缘(56)的中心线(d)相对于热交换器的前部(30)的位置与外边缘处的风扇(42)的直径(D)的比率 56)在约0.20至约0.36的范围内。
    • 6. 发明授权
    • Vehicle charge air cooler with a pre-cooler
    • 带预冷器的车辆增压空气冷却器
    • US06755158B2
    • 2004-06-29
    • US10201473
    • 2002-07-23
    • Wolfgang KnechtJörg SoldnerFrank Vetter
    • Wolfgang KnechtJörg SoldnerFrank Vetter
    • F01P100
    • F28F9/0234F02B29/0412F02B29/0456F02B29/0462F02B29/0493F28D1/0461F28D2021/0082F28F9/02Y02T10/146
    • An air-cooled charge air cooler for vehicles with a coolant-filled pre-cooler oriented in an air collection tank of the charge air cooler. The pre-cooler is sized to contact a majority of the charge air entering the charge air cooler. The pre-cooler has flow paths carrying coolant between manifolds of the pre-cooler and the flow paths define channels therethrough to direct charge air through the pre-cooler and into a cooling grate of the charge cooler. The channels have a depth that allows for a corresponding adjustment in the length of the cooling grate of the charge air cooler while maintaining the overall space requirement for the charge air cooler in a vehicle and meeting the increasing performance requirements for such charge air coolers.
    • 一种用于车辆的空气冷却增压空气冷却器,其具有定向在增压空气冷却器的空气收集罐中的冷却剂填充的预冷器。 预冷器的尺寸适于接触进入增压空气冷却器的大部分增压空气。 预冷器具有在预冷器的歧管之间承载冷却剂的流动路径,并且流动路径限定穿过其中的通道,以将增压空气引导通过预冷器并进入充电冷却器的冷却炉排。 通道具有允许对增压空气冷却器的冷却炉排的长度进行相应调整的深度,同时保持对车辆中的增压空气冷却器的整体空间要求,并满足对增压空气冷却器的不断增长的性能要求。
    • 7. 发明授权
    • Cooling system, especially for a vehicle
    • 冷却系统,特别适用于车辆
    • US06832643B1
    • 2004-12-21
    • US09672429
    • 2000-09-28
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • Werner ZobelMichael EhlersFrank VetterJörg Soldner
    • B60H304
    • F28F9/02F01P5/02F01P2003/182F01P2003/185F28D1/0426F28D2021/0082F28D2021/0094Y10S165/916
    • Optimization of the efficiency of a compact cooling system for air cooling of at least two different heat exchange fluids is obtained in a construction including three heat exchangers (10), (12), (14) arranged in a housing-like shape with an open center. A radial fan (44) is located within the housing and is rotatable about an axis (42). A front panel (36) having an air inlet (38) on the axis (44) abuts a corresponding one of the opposed sides (26), (62) of each of the heat exchangers while a rear panel abuts the other of the opposed sides (64) of each of the heat exchangers (10), (12), (14) and journals the fan (44) for rotation about the axis (44). The assembly is characterized by the fact that the core width “Wc” of one of the heat exchangers (10) is greater than that of another of the heat exchangers (14) such that one or both of the opposed sides (62), (64) of the one heat exchanger projects forwardly and/or rearwardly of a corresponding one or both of the opposed sides (26), (64) of the heat exchanger (14).
    • 在包括三个热交换器(10),(12),(14)的结构中获得用于至少两种不同热交换流体的空气冷却的紧凑冷却系统的效率的优化,所述热交换器(10),(12),(14) 中央。 径向风扇(44)位于壳体内并可围绕轴线(42)旋转。 在轴线(44)上具有空气入口(38)的前面板(36)邻接每个热交换器的相对侧(26),(62)中的一个,而后面板邻接在相对的 每个热交换器(10),(12),(14)的侧面(64)和风扇(44)周围围绕轴线(44)旋转。 组件的特征在于,一个热交换器(10)的芯宽度“Wc”大于另一个热交换器(14)的芯宽度“Wc”,使得相对侧(62)中的一个或两个 一个热交换器的一个或多个热交换器(14)的相对侧(26),(64)的前方和/或后方突出。
    • 9. 发明授权
    • Heat exchanger
    • 热交换器
    • US06920918B2
    • 2005-07-26
    • US10402899
    • 2003-03-28
    • Wolfgang KnechtRoland SträhleJörg SoldnerWalter GühringRainer KaisslingHarald SchatzAndreas Stolz
    • Wolfgang KnechtRoland SträhleJörg SoldnerWalter GühringRainer KaisslingHarald SchatzAndreas Stolz
    • F28D7/16F28D9/00F28F3/04F28D9/02
    • F28F9/001F28D7/1684F28D9/0037F28D21/0003F28F3/044F28F2240/00F28F2250/104
    • An economically manufactured heat exchanger is provided and includes a plurality of elongated, straight, flat tubes (16), each formed of two identical halves (78,80) joined to each other in mirror image fashion and each having opposed open ends and all arranged in a stack (18). At least one spacer wall (36) is disposed within each tube and extends generally from end to end thereof to define at least two side-by-side first fluid flow paths within a tube. An elongated housing (10) contains the stack and includes spaced headers (20,22) with each header including a tube slot for the adjacent end of each tube (16) in the stack (18). Spacers (26) in the stack separate adjacent tubes in the stack from one another and the spacers include ribs defining a serpentine flow path for a second fluid. An opening (30) is located in the housing (10) near each end thereof and is in fluid communication with the second fluid flow path (28).
    • 提供了经济制造的热交换器,并且包括多个细长的直的扁平管(16),每个管子由两个相同的半部(78,80)形成,其彼此以镜像的方式相互连接并且各自具有相对的开口端,并且全部布置 在堆叠(18)中。 至少一个间隔壁(36)设置在每个管内并且大体上从其端部延伸到端部,以在管内限定至少两个并排的第一流体流动路径。 细长的壳体(10)包含堆叠并且包括间隔的集管(20,22),每个集管包括用于堆叠(18)中的每个管(16)的相邻端的管槽。 堆叠中的间隔件(26)将堆叠中的相邻管彼此分隔开,并且间隔件包括限定用于第二流体的蛇形流动路径的肋。 开口(30)位于壳体(10)的每个端部附近并且与第二流体流路(28)流体连通。