SU375488A1 - WEIGHT FLUID FLUID - Google Patents

Description

one

The invention relates to a measurement technique and can be used to measure the weight flow of liquids, such as fuel, when testing engines.

Known liquid flow meters, including scales with a measuring tank, a tank level regulator, a transmitter of indications, weights, an electric signal connected to an electronic computing device and an automation unit to which the remote valve is connected do not provide the necessary accuracy and reliability of measurements, as in them The transmitter of the readings of a scale into an electrical signal has several sensors with an inevitable spread of characteristics. This variation leads to inaccuracies in the measurement of weight intervals.

The purpose of the invention is to improve the accuracy and reliability of the flow meter.

This is achieved by the fact that the transducer readings of the balance into an electrical signal is made in the form of an optical displacement sensor with a rotary stepped gate between the photocell and the illuminator. The sensor is equipped with a range switch in the form of a kinematically multi-position switch of electrical circuits connected to the knob and a transparent shutter with slits according to the number of stages of the flap, which is applied to a transparent disk from a common

radial straight concentric paths (opaque stripes) of different lengths.

FIG. 1 shows a flow meter diagram; in fig. 2 shows the construction of a balance reading into an electrical signal. The liquid flow meter contains scales /, transducer 2 readings of scales into an electrical signal, measuring tank 3, regulator 4 levels, remote valve

5, block 6 automation and electronic computing device 7.

The balance reading into an electrical signal is made in the form of an optical displacement sensor with a rotary stepped flap 8 between the photocell 9 and the illuminator 10. The sensor is equipped with a switch // ranges kinematically connected with the handle 12 of the multiposition switch 13 electrical circuits of the opaque blind 14 with slots 15 according to the number of stages of the shutter 8. The shutter is a radially straight concentric path (opaque strip) deposited on a transparent disk 16 of total 15

lengths

The axis 18 of the disk 16 is kinematically connected with the indicator axis of the scales. The optical converter system contains lenses 19, 20 and an opaque screen 21 with a narrow slit. The measuring tank is mounted on a scale / and is connected by pipelines to a fuel line 22 and to an auxiliary tank 23, by which air is prevented from entering the consumer’s fuel system.

The electronic computing device 7 comprises an amplifier 24, a differentiating unit 25, an electronic valve 26, a crystal oscillator 27, an information processing unit 28, and a power supply unit 29. Weights 30 are used to calibrate the flow meter.

The flow meter works as follows.

In the period between the measurements, the fuel is supplied to the consumer directly from the storage through the open remote control valve 5, and the initial fuel level is maintained in the measuring and compensation tanks with the help of the level control. When measuring the flow, use the knob of the multi-position switch to set the proper measuring range and press the button 31 "Measurement of the automation unit, shutting off valve 5 with the supply of fuel from the storage and blocking level regulator. The switch, kinematically connected with the knob of the multi-position switch, moves in such a way that one of the slits transmits the light beam to the corresponding track of the stepped flap.

From this moment on, fuel is supplied to the consumer from a measuring tank mounted on the scales. Associated with the indicator axis of the scale, the step flap, turning, obstructs the photocell of one of its tracks, and upon further movement through a period of time, depending on the length of the track used and the flow rate, again opens the path to the light beam.

The photocell generates an electrical pulse, which is amplified and fed to the input of the differentiating unit, highlighting

the points of inflection of the front and cutoff of the received pulse and extracts two pulses controlling the electronic valve. The electronic valve transmits a packet of pulses of the reference frequency to the information processing unit from the crystal oscillator.

In the information converting unit, the ratio of the length of the used stepwise damper track to the number of pulses in a pack is calculated, which is a measure of the fluid's weight flow.

At the end of the measurement, the automation unit sends a signal to a remotely controlled valve that connects the consumer directly to the fuel storage.

Subject invention

A liquid flow meter containing a scale with a measuring tank, a tank level regulator, a scale weighing converter into an electrical signal connected to an electronic computing device and an automation unit to which a remote valve is connected, characterized in that in order to increase accuracy and reliability flow meter, in it the converter readings scales in the electric signal is made

in the form of an optical displacement sensor with a rotary stepped flap between the photocell and the illuminator, equipped with a range switch in the form of kinematically connected with the knob of a multi-position electrical circuit switch of an opaque curtain with slots My concentric roads (opaque strips) of different lengths.