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    • 1. 发明申请
    • CONNECTION FITTING
    • 连接配件
    • US20140026996A1
    • 2014-01-30
    • US14044185
    • 2013-10-02
    • Roland Blumenthal
    • Roland Blumenthal
    • F16L41/02
    • F16L41/02E03B7/045E03B7/09Y10T137/776Y10T137/86493Y10T137/87338Y10T137/87539Y10T137/87547Y10T137/9029
    • The present invention relates to a connection fitting for the connection of a ring with at least one consumer to a storey or rising main branch with inlet and outlet openings (2, 4) which can be connected to the branch and an intervening merge opening (34) for the ring main which is preceded in the flow direction (S) by a cross-section constriction (16). The present invention also relates to a water pipe system with at least one storey or rising main branch to which several ring mains are connected via separation and merge openings and a cross-section constriction provided between the separation and merge openings of the assigned ring main in the branch. The object of the present invention is to specify a connection fitting which leads to improved flow characteristics in the region of the ring main assigned to the connection fitting and to provide a water pipe system which fulfils the practical requirements in an improved manner. With this invention the object is solved by suggesting a connection fitting and a water pipe system of the prior known type, which are characterised in that they comprise means (12, 28) for varying the passage area of the cross-section constriction (V).
    • 本发明涉及一种用于将环与至少一个消费者连接到楼层或上升主分支的连接配件,其具有可连接到分支的入口和出口(2,4),以及中间合并开口(34) )用于通过横截面收缩(16)在流动方向(S)之前的环形主体。 本发明还涉及一种水管系统,其具有至少一个层叠或上升的主分支,多个环形主干通过分离和合并开口连接到该水管系统上,并且在分配环主体的分离和合并开口之间设置横截面收缩 分支。 本发明的目的是指定一种连接配件,其导致在分配给连接配件的环形主体的区域中改进的流动特性,并且提供以改进的方式满足实际要求的水管系统。 利用本发明,通过提出现有已知类型的连接配件和水管系统来解决该问题,其特征在于它们包括用于改变横截面收缩部(V)的通道面积的装置(12,28) 。
    • 4. 发明申请
    • Drag Vacuum Pump
    • 拖拉真空泵
    • US20080206041A1
    • 2008-08-28
    • US11664142
    • 2005-09-21
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • F04D19/00F01D1/36F04D29/52F04D3/02
    • F04D19/044F04D29/644
    • A friction vacuum pump (10) comprises a housing (12) defining a vaneless pump stator (30), a rotor drive and a rotor support which rotatably supports a pump rotor (16) provided with a vane (18). The housing (12) surrounds the overall axial length of the pump rotor (16), the rotor drive and the rotor support. Prior art housings are of multipart configuration and thus comprise seals between the housing portions. The seals are difficult to coat and may be or become locations where leaks occur. In contrast, the housing (12) is of one-piece configuration such that, in any case, the region of the housing (12) which is in contact with the vacuum gas is free of seals.
    • 摩擦真空泵(10)包括限定无叶泵定子(30)的壳体(12),转子驱动器和可旋转地支撑设置有叶片(18)的泵转子(16)的转子支撑件。 壳体(12)围绕泵转子(16),转子驱动器和转子支撑件的整个轴向长度。 现有技术的壳体具有多部分构造,因此包括壳体部分之间的密封。 密封件难以涂覆,并且可能是或成为泄漏发生的位置。 相反,外壳(12)是一体式构造,使得在任何情况下,与真空气体接触的壳体(12)的区域都没有密封。
    • 5. 发明申请
    • Evacuating device
    • 疏散装置
    • US20050220607A1
    • 2005-10-06
    • US10517113
    • 2003-05-16
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • F04D19/04F04D29/32F01D1/36
    • F04D29/32F04D19/044
    • A device (1), for evacuating a chamber to pressures in the high vacuum range includes a suction-side vacuum pump (2) and an atmospheric-pressure-side vacuum pump (3). The suction-side vacuum pump (2) is a mechanical kinetic vacuum pump with a rotor (11) and a stator (10). The stator (10) has a rotationally-symmetrical inner surface which matches the outer rotor geometry. The rotor (11) in the mechanical kinetic vacuum pump (2) is provided with a structure (13) carrying out the gas pumping. Said gas pumping structure comprises webs (14), the angle and width of which decrease from the suction side to the pressure side. The gas throughflow is improved. The outer diameter of the rotor (11) and the inner diameter of the stator (10) of the suctnion-side pump decrease from the suction side to the pressure side.
    • 用于将室抽空到高真空范围内的压力的装置(1)包括吸入侧真空泵(2)和大气压侧真空泵(3)。 抽吸侧真空泵(2)是具有转子(11)和定子(10)的机械动力学真空泵。 定子(10)具有与外转子几何形状匹配的旋转对称的内表面。 机械动力学真空泵(2)中的转子(11)设置有执行气体抽吸的结构(13)。 所述气体抽吸结构包括腹板(14),其角度和宽度从吸力侧减压到压力侧。 气体通流得到改善。 转子(11)的外径和阀门侧定子(10)的内径从吸入侧减压到压力侧。
    • 6. 发明授权
    • Connection fitting
    • 连接配件
    • US08578962B2
    • 2013-11-12
    • US12668522
    • 2008-07-11
    • Roland Blumenthal
    • Roland Blumenthal
    • E03B7/07
    • F16L41/02E03B7/045E03B7/09Y10T137/776Y10T137/86493Y10T137/87338Y10T137/87539Y10T137/87547Y10T137/9029
    • The present invention relates to a connection fitting for the connection of a ring with at least one consumer to a storey or rising main branch with inlet and outlet openings (2, 4) which can be connected to the branch and an intervening merge opening (34) for the ring main which is preceded in the flow direction (S) by a cross-section constriction (16). The present invention also relates to a water pipe system with at least one storey or rising main branch to which several ring mains are connected via separation and merge openings and a cross-section constriction provided between the separation and merge openings of the assigned ring main in the branch. The object of the present invention is to specify a connection fitting which leads to improved flow characteristics in the region of the ring main assigned to the connection fitting and to provide a water pipe system which fulfills the practical requirements in an improved manner. With this invention the object is solved by suggesting a connection fitting and a water pipe system of the prior known type, which are characterized in that they comprise means (12, 28) for varying the passage area of the cross-section constriction (V).
    • 本发明涉及一种用于将环与至少一个消费者连接到楼层或上升主分支的连接配件,其具有可连接到分支的入口和出口(2,4),以及中间合并开口(34) )用于通过横截面收缩(16)在流动方向(S)之前的环形主体。 本发明还涉及一种水管系统,其具有至少一个层叠或上升的主分支,多个环形主干通过分离和合并开口连接到该水管系统上,并且在分配环主体的分离和合并开口之间设置横截面收缩 分支。 本发明的目的是指定一种连接配件,其导致在分配给连接配件的环形主体的区域中改进的流动特性,并且提供以改进的方式满足实际要求的水管系统。 利用本发明,通过提出现有已知类型的连接配件和水管系统来解决该问题,其特征在于它们包括用于改变横截面收缩部(V)的通道面积的装置(12,28) 。
    • 7. 发明授权
    • Turbomachine
    • 涡轮机
    • US08083468B2
    • 2011-12-27
    • US11990074
    • 2006-07-24
    • Roland Blumenthal
    • Roland Blumenthal
    • F04D29/48
    • F16C17/18F01D25/16F04D19/048F05D2240/51F05D2240/52F16C27/02F16C32/0442F16C39/02F16C2360/45
    • A high-speed turbomachine includes a magnetic bearing (22, 23) and a retainer bearing for mounting the rotor. The retainer bearing is embodied as a sliding bearing (26, 27) and encompasses a bearing shell (28) at the stator end, a bearing shaft (20) at the rotor end, and an intermediate bushing (30) between the bearing shell (28) and the bearing shaft (20). The intermediate bushing (30) is spaced apart from both the bearing shaft (20) and the bearing shell (28) by a circular gap (33, 34). The intermediate bushing (30) is rotatable relative to the bearing shell (28) and the bearing shaft (20). As a result of this design, the sliding bearing (26) is provided with two pairs of sliding surfaces, onto which all occurring dynamic forces are distributed such that wear is significantly reduced, thus allowing sliding bearings to be used as retainer bearings in a magnetically mounted high-speed turbomachine.
    • 高速涡轮机包括磁性轴承(22,23)和用于安装转子的保持器轴承。 保持器轴承被实施为滑动轴承(26,27)并且包括在定子端处的轴承壳(28),在转子端处的轴承轴(20)和在轴承壳( 28)和轴承轴(20)。 中间衬套(30)通过圆形间隙(33,34)与轴承轴(20)和轴承壳(28)间隔开。 中间衬套(30)可相对于轴承壳(28)和轴承轴(20)旋转。 作为该设计的结果,滑动轴承(26)设置有两对滑动表面,所有发生的动力分布在该对滑动表面上,使得磨损显着减小,从而允许滑动轴承用作磁性的保持器轴承 安装高速涡轮机。
    • 10. 发明授权
    • Evacuating device
    • 疏散装置
    • US07264439B2
    • 2007-09-04
    • US10517113
    • 2003-05-16
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • Ralf AdamietzRoland BlumenthalDirk Kalisch
    • F01D5/00F01D1/36
    • F04D29/32F04D19/044
    • A device (1), for evacuating a chamber to pressures in the high vacuum range includes a suction-side vacuum pump (2) and an atmospheric-pressure-side vacuum pump (3). The suction-side vacuum pump (2) is a mechanical kinetic vacuum pump with a rotor (11) and a stator (10). The stator (10) has a rotationally-symmetrical inner surface which matches the outer rotor geometry. The rotor (11) in the mechanical kinetic vacuum pump (2) is provided with a structure (13) carrying out the gas pumping. Said gas pumping structure comprises webs (14), the angle and width of which decrease from the suction side to the pressure side. The gas throughflow is improved. The outer diameter of the rotor (11) and the inner diameter of the stator (10) of the suctnion-side pump decrease from the suction side to the pressure side.
    • 用于将室抽空到高真空范围内的压力的装置(1)包括吸入侧真空泵(2)和大气压侧真空泵(3)。 抽吸侧真空泵(2)是具有转子(11)和定子(10)的机械动力学真空泵。 定子(10)具有与外转子几何形状匹配的旋转对称的内表面。 机械动力学真空泵(2)中的转子(11)设置有执行气体抽吸的结构(13)。 所述气体抽吸结构包括腹板(14),其角度和宽度从吸力侧减压到压力侧。 气体通流得到改善。 转子(11)的外径和阀门侧定子(10)的内径从吸入侧减压到压力侧。