SU449245A1 - Device for measuring fluid flow - Google Patents

Description

The invention relates to a measurement technique and can be used, in particular, for measuring the flow rate of a medium in the chemical industry. Known rotometric instruments for measuring the flow rate of the medium have a small measuring range. To extend the range, it is necessary to replace the measuring tube or float. The proposed device is characterized in that it is provided with an additional scale of the angle of inclination of the measuring tube, in this case the upper end of the tube is provided with an arrow and a lock, and the lower one is mounted on a hinge support. The drawing shows the proposed device for measuring the flow of the medium. The device contains a measuring cone rotometric tube 1, on which a scale 2 is applied, spherical poppavok 3; placed inside the tube, flexible tubes 4 and .5 for supplying and discharging the measured medium, hinged support 6 for the tube, arrow and clamp 8 fixed in; the top of the tube, and the scale 9 of the inclination angle of the measuring tube. The device operates as follows. Before starting the measurement, the tube 1 is set by the angle oC to the horizontal, and cX. ageo to liiv ® friction coefficient float: 3 on the tube. When measuring the flow, the upper end of the tube is lowered until the float 3 moves up the tube to its middle. In this position, the tube is fixed with a clamp 8 and the races are counted: - medium progress on a scale 2. As the flow rate increases, the upper end of the tube is raised to such a level that the float stops approximately in the middle of the tube, and the flow rate is counted, and reducing the flow rate, the upper end of the tube is lowered so that the float takes up a position that is convenient for reading. With a maximum oC angle, the device allows you to measure costs that exceed the costs measured by a conventional rotameter, and with a minimum angle ct, very small media expenses. The limiting values of the oC angle are determined by the magnitude of the coefficient of frictional force of the pair for a BOC – tube. . If Р is the weight of the float, оС is the angle between the horizontal and the tube wall along which the float moves, then the component of the force is the weight Р Р 5i / toC. In this case, the strength of the float friction against the wall of the tube F А Ph. D K - coefficient of friction force; RD is a normal component of the weight force, so that at the highest angle of ° C the float 3 would not be lowered if there is no flow of the measured medium, it must be given a condition. : f fWr -Pc05o (P i "-OC. Hence Q (X k or dtcig., Thus, the lower limit of the measuring range is limited by the angle utcto K. Selection: of the material of the float and tube, you can change the lower limit of the measuring range. Upper limit of the measuring range from the condition of the extremum of the function: cFМ) Pcocr- F Р 5mo (/ РCufcX; i.e., condition when the sum of the forces is maximal. On. If the first derivative is equal to zero k. о С О; O K is the angle at which the flow meter will measure the maximum possible (for a given pair of float-tube) costs. In principle, the proposed device allows to measure the flow at angles satisfying the following condition: / Wcctqk ° C J Subject of the Invention The device for measuring the flow rate of the medium, containing a measuring rotometric cone tube with a spike applied on it and a spherical float placed inside it that, in order to expand the flow measurement range, it is equipped with an additional scale of inclination of the measuring tube, the upper end of the latter is provided with an arrow and a lock, and the lower end is installed and the pivot bearing .. -,