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    • 1. 发明申请
    • PROCESS FOR THE DETERMINATION OF THE CROSS-SECTIONAL AREA AND VOLUME OF AN OBJECT
    • 确定对象的跨区域和体积的过程
    • US20170038200A1
    • 2017-02-09
    • US15302757
    • 2015-04-10
    • PERACUTUS HOLDING B.V.
    • Hans STEMKENSFrans HOUWEN
    • G01B13/00G01F17/00G01F23/00A61B5/107
    • G01B13/00A61B5/1072A61B5/1073G01B13/20G01F17/00G01F23/00
    • A process for the determination of the cross-sectional area and volume of an object including the steps of a. Providing a container having a closed bottom, an open top, a side wall, a tap at a reference height, b. Providing a flowable medium having a surface in the container, c. Providing at least one measuring means for measuring a height of the surface of the flowable medium in the container relative to the reference height, d. Providing an object having a vertical Z-axis relative to the X,Y plane of the surface and positioning the object in the container, the object being at least partly submerged in the flowable medium, e. Providing calculating means for calculating the cross-sectional area and/or volume of the object in the X,Y plane relative to a position on the Z-axis, f. Opening the tap in the container to allow the flowable medium to flow out of the container, g. Measuring the height of the surface of the flowable medium relative to the reference height as a function of time (h(t)) during the outflow of the flowable medium, h. Calculating the cross-sectional area of the object (Ao) as a function of the height relative to the reference height based on the determined height of the surface as a function of time (h(t)) during the outflow of the flowable medium in step f). A device for measuring the cross-sectional area and volume of an object.
    • 一种用于确定物体的横截面积和体积的方法,包括以下步骤:a。 提供具有封闭底部,开口顶部,侧壁,参考高度的水龙头的容器,b。 提供在容器中具有表面的可流动介质,c。 提供至少一个用于测量容器中的可流动介质的表面相对于参考高度的高度的测量装置,d。 提供相对于表面的X,Y平面具有垂直Z轴的物体并将物体定位在容器中,物体至少部分地浸没在可流动介质中,例如, 提供计算装置,用于计算X,Y平面中物体相对于Z轴上的位置的横截面面积和/或体积,f。 打开容器中的水龙头以允许可流动介质从容器中流出,g。 h在可流动介质流出期间,测量流动介质表面相对于基准高度的高度,作为时间(h(t))的函数。 基于在流动介质流出期间作为时间(h(t))的函数的确定的表面高度,计算作为相对于参考高度的高度的函数的对象(A)的横截面积。 步骤f)。 一种用于测量物体的横截面积和体积的装置。
    • 2. 发明授权
    • Fluidic gaging device
    • 流体吸收装置
    • US3728894A
    • 1973-04-24
    • US3728894D
    • 1971-04-02
    • GEN ELECTRIC
    • STERN H
    • B65H63/06D01H5/38D01H13/22F15C1/00G01B13/08G01B13/20G01B13/04
    • G01B13/20B65H63/067B65H2701/31D01H5/38D01H13/22F15C1/005G01B13/08
    • A fluidic gage having no moving mechanical parts is utilized for continuous monitoring of a particular parameter such as wire diameter, sliver density and object proximity. The gage comprises a bridge circuit including a pair of fluidic resistors having fixed resistances to fluid flow therethrough and a first fluidic variable resistor in three legs of the bridge circuit. A sensing head is connected in the fourth leg of the bridge circuit in fluid communication with the monitored material to function as a second fluidic variable resistor. The first variable resistor is preset to a predetermined resistance value corresponding to a desired value of the monitored parameter. Deviation from the desired value of the monitored parameter causes a linear change in fluid pressure at the input to the sensing head thereby causing an unbalanced condition of the bridge circuit and developing a pressurized fluid signal which may be utilized for operating a suitable readout device or initiating a control action.
    • 没有移动机械部件的流量​​计用于连续监测特定参数,例如线径,条子密度和物体接近度。 量具包括桥电路,其包括一对具有流体流动的固定电阻的流体电阻器和桥接电路的三个支路中的第一流体可变电阻器。 感测头连接在桥接电路的第四支路中,与被监测的材料流体连通,用作第二流体可变电阻器。 第一可变电阻器预设为对应于所监视参数的期望值的预定电阻值。 与监测参数的期望值的偏差导致在感测头的输入处的流体压力的线性变化,从而导致桥接电路的不平衡状况并且开发可用于操作合适的读出装置或启动的加压流体信号 控制动作。
    • 9. 发明申请
    • Device for optically measuring distances
    • 用于光学测量距离的设备
    • US20040012770A1
    • 2004-01-22
    • US10333496
    • 2003-06-16
    • Joerg StierlePeter Wolf
    • G01C003/08
    • G01S7/4814G01B13/20G01S17/08G01S17/32
    • The invention relates to an apparatus for optical distance measurement, having a transmitter unit (12) for emitting optical radiation (13), in particular laser radiation, in the direction of a target object (15); having a receiver unit (14) for receiving the radiation (16, 49) reflected by the target object (15); and having a control and evaluation unit (56) for ascertaining the distance between the apparatus and the target object (15), and also having at least one optical means (26, 28, 30, 50) for beam guidance. It is proposed that the relative position of the at least one optical means (26, 28, 30, 50) and the light source (17, 18) of the apparatus to one another be variable.
    • 本发明涉及一种用于光学距离测量的装置,具有用于在目标物体(15)的方向上发射光辐射(特别是激光辐射)的发射器单元(12)。 具有用于接收由目标物体(15)反射的辐射(16,49)的接收器单元(14)。 并具有用于确定设备与目标物体(15)之间的距离的控制和评估单元(56),并且还具有用于光束引导的至少一个光学装置(26,28,30,50)。 提出了装置的至少一个光学装置(26,28,30,50)和光源(17,18)的相对位置是可变的。
    • 10. 发明授权
    • Sliver density sensing apparatus
    • 条子密度感测装置
    • US4184361A
    • 1980-01-22
    • US862825
    • 1977-12-16
    • Ludwig Erben
    • Ludwig Erben
    • G01B13/04D01G15/46G01B13/00G01B13/20G01N33/36D01G23/06D01H5/38G01N9/26
    • G01B13/00G01B13/20G01N33/365
    • An apparatus for sensing the density variation of a sliver, includes a sliver funnel through which the sliver passes and which has an intake portion, a discharge portion and a chamber formed as an enlarged part of the discharge portion. The chamber is, through a lateral opening, in communication with a source of pressurized air and a pressure sensing device. The pressure sensing device receives pneumatic signals as a function of the variation of pressure in the chamber dependent upon the density of the sliver portion momentarily present in the chamber. The sliver funnel is arranged at an output of a carding machine for receiving a web discharged thereby and for combining the web into a sliver passing through the chamber. The pressure sensing device comprises a pressure-responsive precision sensor which includes an arrangement for converting the pneumatic signals into digital signals.
    • 一种用于感测条子的密度变化的装置,包括一条条子漏斗,纱条通过该条子漏斗,并具有一个入口部分,一个排出部分和一个形成为放电部分的放大部分的腔室。 腔室通过侧向开口与加压空气源和压力感测装置连通。 压力感测装置根据室内暂时存在的条子部分的密度,接收作为腔室中压力变化的函数的气动信号。 纱条漏斗布置在梳理机的输出处,用于接收由此排出的织物,并将织物组合成通过该室的纱条。 压力感测装置包括压力响应精密传感器,其包括用于将气动信号转换成数字信号的装置。