RU2010108188A - METHOD FOR GRADING ULTRASONIC DOPLER FLOW METERS AND STAND FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. The method of calibration of ultrasonic Doppler flow meters, including measuring the speed of movement of a portion of the test fluid relative to the receiving surface of the surface sensor of the flow meter and adjusting the measured value according to the reference speed meter, characterized in that the fluid is carried out along a closed path, for example, a circle in a sealed, acoustically transparent container , the shape and dimensions of which are selected based on the duration and reliability of the acoustic contact with the transceiver surface of the sensor, and the reading of the reference speed meter is obtained by recording the speed of movement of the container. ! 2. The stand for implementing the method according to claim 1, comprising a base carrying a container with a portion of liquid to be studied, a device for moving liquid relative to the receiving-emitting surface of the surface sensor of the flow meter, comprising an electric motor and a housing with a drive shaft and an exemplary liquid velocity meter, characterized in that the container is made in the form of a sealed acoustically transparent container, consisting of a disk with a peripheral annular groove for accommodating a liquid having a rigid transverse a partition, and a round lid mounted above it, the centers of which are fixedly connected via a detachable connection to the upper end of a vertically mounted drive shaft emerging from the housing, the hole for which is made in the housing in two stages, the upper section of the housing with an opening of a smaller diameter provided with a base plate supporting one side

Claims (10)

1. The method of calibration of ultrasonic Doppler flow meters, including measuring the speed of movement of a portion of the test fluid relative to the receiving surface of the surface sensor of the flow meter and adjusting the measured value according to the reference speed meter, characterized in that the fluid is carried out along a closed path, for example, a circle in a sealed, acoustically transparent container , the shape and dimensions of which are selected based on the duration and reliability of the acoustic contact with the transceiver surface of the sensor, and the reading of the reference speed meter is obtained by recording the speed of movement of the container. 2. The stand for implementing the method according to claim 1, comprising a base carrying a container with a portion of liquid to be studied, a device for moving liquid relative to the receiving-emitting surface of the surface sensor of the flow meter, comprising an electric motor and a housing with a drive shaft and an exemplary liquid velocity meter, characterized in that the container is made in the form of a sealed acoustically transparent container, consisting of a disk with a peripheral annular groove for accommodating a liquid having a rigid transverse a partition, and a round lid mounted above it, the centers of which are fixedly connected via a detachable connection to the upper end of a vertically mounted drive shaft emerging from the housing, the hole for which is made in the housing in two stages, the upper section of the housing with an opening of a smaller diameter provided with a base plate supporting one side has a clamping scanning mechanism that ensures the interaction of the transmitter-emitting surface of the sensor with liquid through the bottom of the annular groove, and on the other, about raztsovy velocity meter designed as a tachometer, interacting via a gear mechanism to a lower end of the drive shaft, kinematically connected to the motor mounted in the bore having the larger diameter bottom portion of the housing made with a side window for placing the transmission mechanism. 3. The stand according to claim 2, characterized in that the disk and the cover are provided with central coaxial holes through which the upper end of the drive shaft is passed, having a threaded thread and an annular stop contacting on one side with the end surface of the housing and on the other with the disk installed using a compensating coupling made, for example, based on a pin connection, while the cover is equipped with a clamping nut interacting with a threaded thread. 4. The stand according to claim 2, characterized in that the groove of the disk is made with annular sealing beads, and the lid is equipped with an annular gasket of elastic plastic material, while the width of the gasket is made with overlapping radial distance between the beads. 5. The stand according to claim 2, characterized in that the casing is made in the form of a stand forming a circular ring in cross section, and in the longitudinal section along the external contour basically repeating the contour of the hole. 6. The stand according to claim 5, characterized in that the stand is made of two parts rigidly joined together, the lower of which is mounted on the base and has the shape of an inverted glass with a neck on the outside of its bottom, covering the lower end of the upper part to the ring stop, performed with him as one. 7. The stand according to claim 2, characterized in that the kinematic connection of the drive shaft with the electric motor is made in the form of a groove-tail connection with a floating coupling. 8. The stand according to claim 2, characterized in that the clamping scanning mechanism is made in the form of a U-shaped bracket mounted on a base plate using spring-loaded rods and carrying a self-aligning table for quick-detachable fixed placement of a sensor holder on it, made in the form of covering it along the length of two U-shaped brackets interconnected by clamping screws, the lower of these brackets equipped with fixing pins for interaction with mating holes provided in the body of the table, and the upper one is made in the form of a pressure pad having a polished work surface that interacts with a contact strip of the same clean finish formed on the outer surface of the bottom of the groove. 9. The stand of claim 8, characterized in that the means of self-installation of the table is made in the form of a gimbal. 10. The stand of claim 8, characterized in that the clamping scanning mechanism is equipped with a contact fluid supply unit on the surface of the contact path, made in the form of a reservoir rigidly connected to the U-shaped bracket of the reservoir with this fluid and partially rolled into the side of the contact path spring-loaded towards the contact path a roller with a tire made of an elastoplastic material.