SU526775A1 - Flow meter - Google Patents

Description

one

The invention relates to a measurement technique and can be used, in particular, to measure the flow rates of various media in irrigation, chemicals, and so on. In. industries.

In the well-known flow meters containing a measuring tube with a floating head with an N-Nym hollow (a magnet interacting with magnetically sensitive elements placed on top of the tube and a secondary device), the accuracy of flow measurement is complicated by the conversion of H1, its circuitry and therefore, with the reliability of the device 1

Flow meters are known that contain a measuring tube of a non-magnetic material with a float with a magnet in it, interacting with a pneumatic relay damper, the nozzle of which is mounted on the movable part of a pneumatic servo motor moving with pressure change, and an external magnet associated with the damper. 2

This flow meter is designed to convert the bench shop to the next mode, i.e., the position of the magnetically sensitive pneumatic relay, which is monitored by the movement of the pneumatic servo motor, corresponds to a definite position of the floating position.

from; change; and pressure in the nozzle-damper system.

In such a flow meter, it is not possible to convert the float movement directly to a time interval.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that at the expense of the platform, the platform is filled with an additional magnetically sensitive element, on which a permanent magnet is fixed.

The drawing shows the flowmeter diagram.

The flow meter contains; a conical non-magnetic tube 1, inside of which is placed a float 2 with a permanent magnet 3. Outside the tube 1, a screw 4 is installed with a multi-way thread, the bearings of which are bearings 5 connected by means of a gearbox 6 to a reversible motor 7. A screw 4 is fitted with a nut 8, having a guide 9. On the nut 8 there are fixed reed switches 10 and II; as the latter, any non-contact switches can be used, the sensitive elements of which can be used to change the magnetic field. The reed switches 10 and M1 are connected to the corresponding input of the meter 12 time intervals. At the level.

corresponding to the lower limit of measurement, fixed / permanent magnet 13. In the initial state nut 8 "is in the lower position.

The flow meter works as follows.

Under the action of the flow of the medium under study, the float 2 occupies a certain position corresponding to the value of the measured flow.

When the engine 7 is turned on, the nut 8 and the reed switches 10 and I. move at a CONSTANT speed 9. When the permanent magnet 13 reaches reipKOHOM 10, it triggers, as a result of which the measuring device 12 is turned off and the countdown begins. When the nut 8 reaches the level of the Corresponding Position of the float 2, under the influence of the permanent Magnet 3, the reed switch 11 is triggered, which turns off the time interval meter and reverses the engine 7. Thus o paisoM, the value of the time interval fixed by the meter 12 will be normal to the height of the movement of the nut 8, and Le.Co.Co., the value of the measured flow. When the nut 18 reaches its initial state, the limit switch (not shown in the diagram) shuts down the motor 7, thereby setting the device to the next measurement cycle, at the beginning of which the previous result is reset.

The use in the flow meter of converting the movement of the float into a time interval that can be measured with high accuracy by means of a corresponding iMS measurement of the rotational speed of the screw 4 increases the accuracy of flow measurement.

The use of a measurer 12 with a coded device will allow the use of a flow meter in digital information management systems 1x systems.

Claims (2)

1. Patent of Germany No. 1648097, cl. 42e, 23/01, 1971. 2. Auth. St. No. 100378, cl. G 01 f 1/00, 1953. d