SU147766A1 - Device for measuring pressures and flow rates - Google Patents

Description

The device is designed to measure pressures, velocity and its pulsating components in the flow of liquid, as well as in flows of two-component (liquid and sediment) and three-component (aerated flow with sediment) mixtures.

In the known devices for measuring pressures and flow rate of a fluid, the velocity head perceived by the receiving tip is transmitted to a sensor placed inside the stream. Such devices, when immersed in a fluid flow due to their large dimensions, cause disturbances and distortions in the flow structure. The large inertia of such devices makes it difficult to measure the flow rate.

In the proposed device, the sensor (measuring organ) is moved out of the flow, and only the receiving tip (working organ) is placed in the liquid, the dimensions of which can be increased to 1-2 lines. Pressure on the working organ is transmitted to the measuring organ through a connecting tube, filled with incompressible fluid, which is used as a transmission lever. The receiving tip is made in the form of a spar probe with five measuring channels directed towards the flow. The measuring channels are connected to the ends of connecting tubes, the second ends of which are connected to sensors included in the oscilloscope circuit. This reduces the inertia of the device and increases the accuracy of the measurement of the velocity and its pulsating components in the flow.

№ 147766

FIG. 1 is a schematic diagram of the device; in fig. 2 - structural scheme; in fig. 3 - the measuring part of the device, top view.

The device is made in the form of a tube T, which is hermetically sealed from above, filled with liquid, which provides an instantaneous transfer to the sensor (at point 5) of each pressure change perceived by the receiving tip (point L). By measuring the pressure pulsation P at point B, one can judge the magnitude of the velocity and its pulsation at point A. The readings of the recording device (oscilloscope) depend on the magnitude of the velocity and the distance I from the top of the tube to the surface of the liquid. This dependence is established by calibration.

The device consists of the following components: a receiving tip /, a bar 2 with inside connecting pipes 5 and pressure sensors 4 placed on the platform 5 in boxes 6.

The connecting tubes are made of rigid material (brass, copper) in order to prevent them from being compressed or stretched during the measurement. Semiconductor, inductive, strain gauge, piezoelectric and other types of sensors can be used as a measuring body. Semiconductor sensors can be mounted on the lid of the boxes, and the elasticity of the lid should be appropriately selected. The sensor records are recorded on an oscilloscope, if necessary with a preliminary signal force. To install the bar 2 in a vertical position on the platform 5, a point level 7 is strengthened. The device has a stand 8 for fastening.

The design of the device may be different depending on the task: for measuring one component of speed, one connecting tube is required, for three components - five tubes.

The orientation of the receiver tip in the flow is carried out using a tool that allows determining the depth of its immersion in the flow and the location of the measuring channels relative to the flow direction. The readings of the pressure sensors are recorded continuously, therefore, it is possible to determine not only the value of the flow velocity, but also the pulsations of its components.

The Main Administration of the Hydrometeorological Service under the Council of Ministers of the USSR and the Institute of Energy of the Academy of Sciences of the Georgian SSR noted the usefulness of the proposed device in the practical solution of the problems of hydraulics.

Subject matter

A device for measuring pressures and flow velocity, containing a shtang, a receiving tip, such as a bowl probe, a sensor and an oscilloscope, characterized in that, in order to improve the accuracy of the velocity measurements and its pulsating components in the flow, the receiving tip is equipped with five measuring channels connected sealed from above tubes filled with liquid for transferring pressure from the point of flow to the measuring organ, with sensors, for example semiconductor devices connected to the circuit of the recording device.

-as

Fig

FIG. g