SU128210A1 - Electric punch meter - Google Patents

Description

A disadvantage of the known sugamerosis is that they are equipped with capacitive sensors that measure the density of the drift in very limited areas of the water flow.

The electric shock tester does not have this drawback. This is achieved by the fact that in this device the sensor is made in the form of a pair of electrodes representing two steel cables, one of which is lowered to the bottom of the river, and the other with wire sections with bare ends, which are lowered into the water, at certain distances. at the depth of the sludge spread, they pull over the upper surface of the river and are connected via a search relay to the measuring unit.

The measurement is based on the difference in the electron conductivity of water and ice. The sludge, floating between the electrodes immersed in water, drastically changes the resistance between them, which makes it possible to record its passage.

A schematic diagram of the device is shown in the drawing.

Measuring node 1 is an ordinary non-equilibrium bridge, in one of whose arms alternately connect the bunks of electrodes formed by a cable lying on the bottom of the river and one of the bare ends of the wire vertically lowered into the water from the surface.

The bridge is powered by alternating current from multivibrator 2 on semiconductor triodes. The signal from the bridge diagonal is fed to a semiconductor phase-sensitive amplifier, the price of which includes a polarized relay 4.

Prior to the start of operation, one of the contacts of the relay of the measuring bridge is set to turn on or pass current through clear water, and the other contact of the relay to turn on when current flows through water with sludge. If we sum up the number of closures of the first and second contacts of the relay, then using these; m data you can determine the thickness of the rod

No. 128210-2 -

each measuring vertical. Such counting functions are performed by a node consisting of a multivibrator 5, operating at a frequency of about 1 Hz, and two electromagnetic counters 6, connected via an multivibrator via a contact relay. The alternate connection of the vertical ends of the wires lowered into the water is carried out with the aid of a relay 7 operating from the same multivibrator 5.

In general, the device works as follows. Relay-finder 7 for several seconds, in turn, includes a pair of electrodes on the vertical x. A polarized relay 4, depending on the presence of a sludge near the electrode, includes in the circuit of the multivibrator 5 one or the other electromagnet counter 6, which, thus, record the relative time of the presence or absence of sludge on the vertical x of the hydraulic array. The average density of a screed for any time interval of a continuous screed is calculated by the formula:

d „., - -.

(. - “w) +“ - “J

where / C is the average density of the scaffold, n and n, the initial and final counts of the counter recording the time in the presence of sludge, and rts and n d the same for the counter recording the time with sludge in the water.

The electroshock gauge is also equipped with a fixture, which fixes the moment of the start of the launch. This device consists of a relay that turns on the multivibrator only in the case of a change in resistance between the electrodes.

Subject invention

An electrosugger containing an electrical sensor and a measuring unit, characterized in that, in order to simplify the process of recording the density of the screed, the sensor is made in the form of two steel cables, one of which is lowered to the bottom of the river, and the other with wire segments attached to it with the bare ends dipping into the water to the depth of the sludge spread, stretch over the surface of the river and are connected via a search relay to a measuring node containing a non-equilibrium bridge powered by alternating current from a multivariate ibrator, phase sensitive amplifier, polarized relay and two electromagnetic counters.