SU152083A1 - Automatic meter - Google Patents

Description

Float level sensors are known with a telemetry information device for measuring and recording a level connected to level gauges. Known as well are lever-type devices for determining the density of a liquid.

A distinctive feature of the proposed automatic meter is that the sensitive element of the medium-density sensor is made in the form of a system of three buoys of certain volumes, the lower of which, remaining stationary, is suspended from the thread to the left arm of the lever and is set to a certain depth on yarns, thrown respectively through blocks with diameters equal to one to two ratios. This makes it possible to increase the accuracy of measuring the weight of oil products in containers.

The drawing shows a schematic diagram of the proposed meter.

The meter measures a level gauge 1, a meter 2 of the average density of light oil products and a computer 3. The level gauge 1 is an electrical device designed for local and remote measurement of the level of oil products in open II closed containers and providing constant monitoring of the level of liquid.

To measure the specific gravity of the liquid, a meter 2 of the average density of light oil products was used, installed directly above the tank and interlocked with the level gauge 1 flexible waA 152083

Scrap 4. Three buoys 5, 6 and 7 were selected as the sensitive element of the average density meter, the position of each of which in the reservoir fluid should correspond to the levels stipulated by GOST 2517-60.

The specific gravity of the fluid is determined at three levels. This is done as follows. The thread 8 of the upper displacer 5 is wound on the drum 9, and the thread 10 of the middle displacer on the drum 11 with a radius of half as much. The lower buoy 7 is suspended from the holder 12. When the oil level in the tank changes, the upper buoy 5 moves with the buoy 13 of the level gauge. Since the drum radius // is twice as small as the drum radius I, the middle buoy 6 with the same level change passes a path two times smaller than the path traversed by the upper buoy 5. The lower buoy 7 is always stationary. Regardless of the level change, the buoys 5, 6 and 7 are always at three measured levels. The average samples collected from these levels are: at the upper level — one part, at the middle — three parts, and at the lower level — one part, which affects respectively the volumes of the buoys.

The effect of the average density meter is based on the change in the weight of the buoy system depending on the specific gravity of the fluid. When the specific weight changes, the buoyant force acting on the displacer increases or decreases, and depending on this, the force applied to the left arm of the measuring arm 14 changes. To the right arm of the arm 14, the weight of the adjusting weight 15 is applied so that the arm 14 was in equilibrium when the specific gravity of the liquid being measured was equal to the minimum value of the measuring range of the instrument.

The change in the weight of the buoys is made according to the principle of force compensation, which means that when the specific gravity of the oil product changes, the force acting on the left arm of the lever 14 changes and its balance is disturbed. This causes the control flag 16 to move. When the control flag approaches the flat inductance coil 17 of the grid circuit of the generator 18, the inductive resistance of the circuit decreases and, consequently, the negative bias on the lamp grid is reduced. A decrease in bias causes an increase in the constant component of the anode type. Similarly, when the flag 16 is removed from the plane of the coil 17, the inductive resistance of the circuit increases, the bias on the grid of the generator 18 increases, and the constant component of the anode current decreases.

The magnitude of the constant component of the anode current is the output signal of the average density meter 2. The output signal enters the feedback feedback coil 19 located in the field of the permanent magnet 20. At the same time, an opposing rotational moment is created on the measuring lever 14, proportional to the output signal of the average density meter 2. The change in the magnitude of the constant component of the anode current will occur until the moment created on the measuring lever from the change in specific gravity is balanced by the opposing moment created by the feedback action.

The readings of the level gauge / in discrete form in the form of a code and the readings of the average density meter 2 in analog form in the form of direct current will be fed to the computer 3. This machine, in memory of which the calibration calibration data is stored, determines the weight of the fluid in the latter.

The subject of gain

An automatic meter that contains a float level sensor with a telemetry system, and is designed for remote measurement and is based on the code-pulse method, interlocked via a flexible shaft with an average density sensor, which is a two-arm measuring lever, to the right arm of which a tuning weight is attached and to the left arm - a buoy system, characterized in that, in order to increase the measurement accuracy, the sensitive element of the average density sensor is made in the form of a system of three buoys defined x volume, the lower of which, while remaining stationary, is suspended by a thread to the left shoulder and arm installed at a certain depth, and middle and top suspended on filaments, hitched respectively by blocks with diameters equal to the ratio of one to two.

No. 152083

Compiled by Yu. I. Tesnen. Editor N. L. KorchenkoTehred, T.P. KurilkoKorrektor S. Yu. Tsverina

Sub. to pec. 25 / HP-62 g. Format boom. 70 X lOS / iaVolume 0.35 ed. l

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TsBTI Committee for Inventions and Discoveries

at. USSR Council of Ministers Moscow, Center, M. Cherkassky Lane, 2/6.

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