SU647533A1 - Device for measuring rate-of flow of filtration liquid streams at the pond bottom - Google Patents

Description

In this way, the working position of the roshodometer is monitored and the measurement accuracy is improved.

K; fR is known; repeated repetition of a zomer increases the reliability of its result. Therefore, the readings of several sensors measuring the flow on isolated from each other, closely spaced areas of the inner cylinder and sections can be considered as the results of repeated measurements on the area bounded by the outer cylinder. If there are discrepancies in the sensor readings, the average value of several closest sensor readings is taken as the final measurement result. This increases the accuracy of the measurements.

The presence, along with the inner cylinder, of several sections with a given area ratio allows the calibration of the recording device for one measurement. The calibration curve, i.e., the dependence of the instrument readings on the magnitude of the fluid flow at the bottom of the reservoir, is based on the difference between the readings of the sensors of different sections. -, v /

FIG. 1 shows the proposed device, the cut; in fig. 2 shows section A-A in FIG. one.

A device for: measuring the flow rate of a fluid at the bottom of a reservoir comprises a housing 1 consisting of a short-circuit cylinder 2 and an inner cylinder 3. The partitions 4 have the space between the cylinders divided into sections. The outer cylinder has an annular stop 5 to prevent the flowmeter from being deeply immersed in the bottom of the reservoir. For lowering the bottom of the reservoir in the case, suspended loops 6 are suspended. For cleaning the WATER flowing through the device filter 7 is integrated into the housing. In each section, a measuring tube 8 with sensors 9 of the flow arm is installed. Sensors are connected in a waterproofing box 10 and are connected to a recording device II. As a flow sensor in the proposed device, we used a thermo resistive power tool. .,; ..

Before starting the measurements, the recording priyor is calibrated as follows. . The flow meter is immersed in a measuring vessel, a vessel with an artificial fluid flow rate and,

the amount of liquid flowing out of the vessel is recorded by the instrument readings in one sensor from the sections. Due to the previously known area clearance, it is determined what the sensor readings of the remaining sections should be, and build a calibration curve.

Subsequently, to measure with the aid of suspended loops 6, the flow meter is lowered to the bottom of the reservoir on the filtering surface. Then the sensor 9 is sampled and the filtration flow rate is determined as the average of the readings of the date / clock. In the event of a large discrepancy, the flow sensor is moved in the sensor readings. measure at the bottom of the reservoir and make a new measurement. . .- -,; - ,. .. .. .-.

Manufacturing laboratory tests of the proposed device have shown that the flow meter has increased sensitivity; The flowmeter of this design allows you to reduce the time of the measurement unit, and all ST6 improves 1: measurements, which is also confirmed by tests.

Claims (1)

Invention formula I. Device for measuring the flow rate of fluid flow at the bottom of reservoirs, containing the body in the form of a cap and sealed along the bottom perimeter and a flow sensor associated with a secondary priyor characterized in that, in order to increase measurement accuracy and reliability, the housing is made in the form of two coaxially arranged cylinders and the cavity between them is divided by partitions into sections with different cross-sectional areas, the device is equipped with additional flow sensors installed in each section and in the central part of the cylindrical body. 2 A device according to claim 1, characterized in that the ratio of areas, sections of sections is selected in a bidet of geometric progressions with denominator "2. Sources of information taken into account in the examination: . USSR Author's Certificate No. 302610, cl. G 01 F 1/05, 1969. S