SU640121A1 - Gas small rate-of-flow meter - Google Patents

Description

The invention relates to the field of measurement of industrial equipment, in particular, to devices for measuring the flow of gases.

There are known devices for measuring low gas flow rates, containing a measuring pipeline, a full gas field with a nozzle for charging, a gas MiQPO control system, a photoelectric signal pickup system, and an electronic processing system using a gas-Bubble gas metering method through a layer of liquid 1 .

The disadvantage of these devices is the dependence of the size of the bubbles on the value of the flow rate of the pelvis, i.e. the non-irrationality of the frequency of the signal on the value of the flow, which necessitates the presence of these special electrode correction devices.

The purpose of the invention is to establish the magnitude of the gas gaps and simplify the design of the device.

This is due to the fact that the measuring pipeline is curved in the form of a closed loop, the branches have a different diameter, at the junction of these branches in the lower part there is a variable section cross-section, and the gas supply pipe is located UNDER the fragrance: dia.

The drawing schematically shows the device.

The device contains a nozzle / gas supply, located at an angle to the measuring section 2 of the pipe. The measuring pipeline was made in the form of a closed loop 3, the branches of which have different diameters, and the measuring section has a smaller diameter, which is selected from the condition that the diameter of the vesicus of the controlled gas is free (the NIP state was several times larger than - meters of this section. The branches of the closed circuit of the measuring pipeline in the lower part are connected via a variable choke 4.

Light source 5 is set at an angle to the illuminated surface of the measuring section. On the path of the refracted beam} -set photodiamen: -ik 6, connected via} -speed T -constant current to the trigger-former of 5 signals. Signals after a trigger of constant duration and amplitude are fed to the rectifier 9 and then the inverter 10 of the signal tracking frequency 3 analog output, fixed by the measuring device 11.

The cross section of the throttles is determined at -: device setup, during operation the cross section of the throttles does not change, and the size of the bubbles and their frequency depends on the ratio: .1, which hold the l-pin in the side opening i of the shifting eto (archimedean force and force dynamic head). Power di The head pressure is: the sieve of the speed of the incident flow, the zgline of which is o-defined by the cross-section of the increment.

Have a trip about ys TV about work a-g t

3) M

The gas whose flow rate is measured at the nozzle. enters h ;; 3me; 1 section 2, in which the rising and rising of the alternating pelvic gaps and liquids occurs. The number of gaps of the gas is fixed by a photo sensor. The value of the sitnal is determined by the size of the gas gaps and their frequency. Because the gas gap is stable, the gas flow rate is proportional to the frequency of the gas gap.

F o rmly inventions

A device for measuring low gas flow rates, containing a measuring pipeline, a gas supply nozzle, a photoelectric signal pickup system and an electronic sipnal processing system, which, in order to stabilize the magnitude of the gas gaps and simplify the design of the device, the measuring conduit is closed A coitur, the branches of which are made with different diaM eters, at the junction of STiix, a veppway is installed in the lower part

variable throttle, and the gas supply nozzle is located at an angle to the Vezzi circuit with a small diameter.

A source of information,

taken into account in the examination:

1. USSR author's certificate L 314075, cl. G 01 F 3/00, 1970.