SU481774A2 - Volumetric Flow Meter - Google Patents

Description

one

The invention relates to a device for measuring fluid flow.

The known volumetric flow rates; the liquors have insufficient measurement accuracy due to the formation of gas puffs in the fuel.

The proposed flow meter makes it possible to increase the measurement accuracy and prevent the appearance of gas bubbles due to the fact that in it the entrance and exit are connected to each other by a rigid chamber divided into two cavities by an elastic partition.

The drawing shows a schematic diagram of the proposed volume flow of a liquid.

The volumetric flow meter of the fluid consists of piston 1, metering chambers 2 and 3, small piston 4, adjusting screws .5 and 6, electromagnets 7 and 8, electromagnetic valves 9-12, contact 13, triggering device 14, rigid chamber 15 and elastic septum 16.

The main piston 1 is made of a ferromagnetic material and is placed between

The metering chambers 2 and 3, the Small piston 4, adjacent to the same chambers, and the adjusting screws 5 and 6 are placed in the chambers 2 and 3 and are simultaneously contacts with which the small piston interacts. The electromagnets 7 and 8 are located in the metering chambers 2 and 3 and are designed to move and fix the main piston. Solenoid valves 9-12 control the flow of fluid entering and leaving the dosing chambers.

The small piston 4 is connected to the trigger device 14 by means of the contact 13. To the trigger device are also connectors 5 and 6 serving as contacts, electromagnets 7 and 8 solenoids 9-12.

The rigid chamber 15 is divided by an elastic partition 16 into two cavities, one of which is connected to the inlet, and the other to the outlet of the flow meter.

The flow meter works as follows.

When the liquid exits the dosing

 3 through the valve 11, the piston 1 under the action of a vacuum and with the help of the electromagnet 7 moves to the left until it stops, and then a small pore 4 comes into operation. In the chamber 2, through the valve 10, a portion of the liquid flows. Valves 9 and 12 are closed. The liquid comes out of chamber 3, and the gap 4 moves yo to the stop in screw 5 and closes the menada with screw 5 and contact 13. At the same time

the trigger device 14 receives a signal for closing valves 10 and 11 and opening valves 12 and 9.

The switching valve switches the electromagnets accordingly, the electromagnet 7 is turned off and the electromagnet 8 is turned on. The fluid passes through valve 9 into chamber 3, and out of the catacer 2 through valve 12 leaves until the piston 1 moves up to the stop four.

At the same time, contacts 6 and 13 are closed and a signal is sent to the trigger device 14, which outputs; control signals to the corresponding solenoid valves and electromagnets. The number of volumes measured in this way is recorded by an electropulse counter or by some other known device.

When measuring low flow rates, the main Porsche 1 is stopped by electromagnets 7 or 8. For this, electromagnets. disconnect from the trigger arms and to one of them, they are CONSTANTLY, supply voltage is applied. In this case, the measurement is carried out only by a small piston 4.

When the piston 4, moving left or right, comes to the stop, and the electromagnet

Because of the inertia of the valve, the valves have not been switched yet; there is an increase in pressure in the inlet line and an increase in pressure in the outlet line. This leads to the fact that the elastic partition 16 in the chamber 15 is deformed to the side of the output line with reduced pressure and some liquid is supplied to it, which compensates for the absence of supplying it through the flow meter during the switching time of the valves.

After the valves are switched, the pressure in the inlet and outlet lines is equalized and the elastic partition 16 returns to its original position,

As an elastic partition 1.6. It is possible to use a spring; a piston intact on both sides.

As a result of the damping effect of the elastic partition 16 in the chamber 15, the hydraulic shocks in the flow meter at the time of switching the valves are drastically reduced and the phenomenon of cavitation and the formation of gas bubbles at nominal flow rates are not observed. This U) allows to increase the accuracy of measurement and to calculate the range of measured costs.

The subject matter of the invention

Volumetric flow meter liquid av aut. St. 353148, characterized in that, in order to increase the measurement accuracy by preventing the formation of gas bubbles, in it the entrance and the exit are interconnected by a rigid chamber divided into two cavities by an elastic partition.

entrance

Output