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    • 4. 发明授权
    • Calibrating device for a water meter
    • 水表校准装置
    • US07093484B2
    • 2006-08-22
    • US11039023
    • 2005-01-20
    • Roger Frank
    • Roger Frank
    • G01F3/08G01F3/12
    • G01F15/18G01F1/12G01F25/0007
    • A water meter has a measurement insert disposed in a meter housing, a measurement display, an intake connection and a discharge connection. An impeller is disposed on a shaft in a measurement insert housing, also referred to as impeller bowl. A first shaft end of the shaft interacts with the measurement display. The meter housing has, on a side facing away from the first shaft end, referred to as a lower side below, recesses or openings for receiving fasteners for fastening a cover, and a calibrating device for adjusting the measurement display. The calibrating device is inserted into at least one of the openings that can be closed by the cover.
    • 水表具有设置在仪表壳体,测量显示器,进气连接和排出连接中的测量插入件。 叶轮设置在测量插入件壳体中的轴上,也称为叶轮碗。 轴的第一轴端与测量显示器相互作用。 仪表壳体在远离第一轴端的一侧被称为下侧,用于接收用于紧固盖的紧固件的凹部或开口,以及用于调节测量显示的校准装置。 校准装置被插入可以被盖封闭的至少一个开口中。
    • 5. 发明授权
    • Turbine flow monitoring device
    • 涡轮流量监测装置
    • US06487919B1
    • 2002-12-03
    • US09992638
    • 2001-11-06
    • Paul K. Edwards
    • Paul K. Edwards
    • G01F1500
    • G01F1/12G01F1/115G01F15/006
    • A turbine type flow meter has a four-vaned plastic torpedo-shaped turbine mounted by portions of the plastic turbine within a housing between first and second bearings. The turbine supports a pair of magnets of the Neodymium-Iron-Boron type which rotate with the turbine. An upstream portion of the housing incorporates a sensor cavity, which is sealed from a flow cavity containing the turbine. A connector and an attached printed circuit board with a Hall effect sensor is mounted within the sensor cavity closely spaced from the rotating magnets. The sensor housing is constructed from two parts. Each part of the housing incorporates mating structures that are designed for joining by spin welding.
    • 涡轮式流量计具有由第一和第二轴承之间的壳体内的塑料涡轮机的一部分安装的四叶形塑料鱼雷形涡轮机。 涡轮支撑一对与涡轮旋转的钕铁硼型磁体。 壳体的上游部分包含传感器腔,该传感器腔与包含涡轮的流动腔密封。 具有霍尔效应传感器的连接器和附接的印刷电路板安装在与旋转磁体紧密隔开的传感器腔内。 传感器外壳由两部分组成。 壳体的每个部分都包含通过旋转焊接设计用于接合的配合结构。
    • 8. 发明授权
    • Measuring turbine for high volume, high viscosity fluids
    • 测量高容量,高粘度流体的涡轮机
    • US4459861A
    • 1984-07-17
    • US364531
    • 1982-04-01
    • Helmuth Hoffmann
    • Helmuth Hoffmann
    • G01F1/10G01F1/12
    • G01F1/12
    • A measuring turbine with a turbine rotor arranged in a flow channel of a measuring tube comprises flow rectifiers, a turbine rotor and an adjusting element capable of influencing the rotating velocity of the turbine rotor through the fluid to be measured. The adjusting element is located after the discharge flow rectifier in the flow channel and is designed to also serve as the discharge connection and the connector fitting. The adjusting element is provided with an element varying the flow cross section of a definite size. The adjusting element preferably has an internal cone with an orifice plate in front of it in the direction of the flow.
    • 具有布置在测量管的流动通道中的涡轮转子的测量涡轮机包括流量整流器,涡轮转子和能够影响通过待测流体的涡轮转子的转速的调节元件。 调节元件位于流动通道中的排放流动整流器之后,并且被设计成也用作排出连接和连接器配件。 调节元件设置有改变具有一定尺寸的流动横截面的元件。 调节元件优选地具有在流体的方向上在其前面具有孔板的内锥体。
    • 9. 发明授权
    • Flow-operated measuring apparatus
    • 流量测量仪
    • US4450726A
    • 1984-05-29
    • US342000
    • 1982-01-06
    • Seppanen Seppo
    • Seppanen Seppo
    • G01F1/12G01K17/10G01F1/82
    • G01F1/12
    • A measuring apparatus is disclosed which is operated by the flowing of a medium. The apparatus comprises a rotor fitted coaxially within a flow pipe, a tachometer of the rotor and a flow guide member comprising a director and a controller. By means of these members the flow can be divided, according to the message received from a sensing element, into two components, of which at least one is screw-shaped or spiralling. By employing such a guide member the rotor is easily started, and its rotating speed is directly comparable to the quantity to be measured, as well as to volume flow. The sensing element can be for example a spiral-shaped bimetallic member reacting to changes in the flow temperature, the member being attached at its one end to the flow pipe and at its other end to the director. According to changes in the temperature the sensing element revolves around the director with respect to the controller, and the mutual proportion of the flow components is changed, as well as the rotating speed of the rotor.
    • PCT No.PCT / FI81 / 00034 Sec。 371日期1982年1月6日 102(e)日期1982年1月6日PCT提交1981年5月18日PCT公布。 公开号WO81 / 03378 日期:1981年11月26日。公开了一种通过介质的流动操作的测量装置。 该装置包括同轴地安装在流管内的转子,转子的转速计和包括导向器和控制器的导流构件。 通过这些构件,根据从感测元件接收的消息,可以将流量分成两个部件,其中至少一个是螺旋形或螺旋形的。 通过采用这样的引导构件,转子容易启动,并且其转速与被测量直接相当,以及体积流量。 感测元件可以是例如螺旋形双金属构件,其响应于流动温度的变化,该构件的一端附接到流动管并且在另一端附接到导向器。 根据温度的变化,感测元件相对于控制器围绕导向器旋转,并且流动分量的相互比例改变,以及转子的旋转速度。
    • 10. 发明授权
    • Device for bypassing flow rate pulsations around a flow rate transducer
    • 用于绕过流量传感器周围的流量脉动的装置
    • US4011757A
    • 1977-03-15
    • US577188
    • 1975-05-14
    • Wilfried Baatz
    • Wilfried Baatz
    • G01F1/12G01F1/72G01F1/06G01F15/02
    • G01F1/72G01F1/12
    • A device for bypassing flow rate pulsations resulting in reverse flow and abrupt flow rate surges around a volumetric flow rate transducer includes a housing defining a chamber. One end of the chamber is coupled in fluid communication with the inlet or upstream side of the transducer while the other end of the chamber is coupled in fluid communication with the outlet or downstream side of the transducer. A flexible, fluid impervious diaphragm is mounted in the housing so as to divide the chamber into two compartments. The diaphragm is affixed to the walls of the chamber so as to maintain a fluid seal between the two compartments of the chamber. When a forward flow rate pulsation occurs the resultant rise in the fluid pressure differential between the upstream and downstream compartments of the chamber will shift the diaphragm toward the downstream compartment. As the diaphragm moves, fluid is forced out of the downstream compartment and into the fluid stream on the downstream side of the transducer. After the pulse reaches its maximum and the flow begins to reverse, the reverse flowing fluid will drive the diaphragm back toward the compartment coupled to the upstream side of the transducer. As this occurs, the volume of the fluid that was driven into this chamber during the flow rate increase is exhausted from the upstream side of the chamber and is driven into the fluid stream upstream of the transducer. The net effect of the operation of the pulsation bypass device is to allow flow rate pulsations resulting in reverse flow to pass through the diaphragm, isolating the flow transducer from the pulsations by allowing the diaphragm to flex against the biasing spring and time averaging the flow through the transducer. Thus, the transducer is not exposed to sudden increases or decreases in flow rate.
    • 用于绕过导致逆向流动的流速脉动的装置和围绕体积流量换能器的突然流速冲击的装置包括限定腔室的壳体。 腔室的一端与换能器的入口或上游侧流体连通地联接,而腔室​​的另一端与换能器的出口或下游侧流体连通地连接。 柔性的,不透液体的隔膜安装在壳体中,以将腔室分成两个隔间。 隔膜固定在腔室的壁上,以便在室的两个室之间保持流体密封。 当正向流速脉动发生时,腔室的上游和下游隔室之间的流体压力差的最终上升将使膜片向下游隔室移动。 当隔膜移动时,流体被迫离开下游隔室并进入换能器下游侧的流体流中。 在脉冲达到最大值并且流量开始反向后,反向流动的流体将驱动隔膜返回耦合到换能器上游侧的隔室。 当这种情况发生时,在流速增加期间被驱动到该腔室中的流体的体积从腔室的上游侧排出并被驱动到换能器上游的流体流中。 脉动旁路装置的操作的净影响是允许导致反向流动的流速脉动通过隔膜,通过允许隔膜挠曲偏置弹簧并且使流过的时间平均,从而将流量传感器与脉动隔离 传感器。 因此,传感器不会暴露于流量的突然增加或减少。