SU480966A1 - Concentrometer conductometric - Google Patents

Description

one

A conductometric concentration meter is known, which includes a temperature compensation system consisting of an electrolytic cell, or a temperature compensating chain consisting of a thermistor and of some 1 n resistors.

In the circuit of the device there is an additional bridge with a thermistor in one of its arms for thermal compensation on the “fan.

Odeako setting known devices difficult.

The purpose of the invention is to simplify the setting and the device when measuring in a wide range of temperatures and improving the measurement accuracy.

The goal is achieved by the fact that in the proposed concentrator, in series with a temperature sensor, a resistor is connected in the diagonal of the temperature bridge, a differential coil is connected parallel to the resistor, and an additional winding connected to the differential coil is inductively connected to the measuring transformer.

The layout of the described device is presented on the Circuit.

The device consists of a Tpi power transducer with a: Wi wmt and a Tpz measuring transformer, amplifier U, reversing motor D, differential transducer | compensator with coil L, liquid coil, counter current coil, inductive bridge and additional feedback circuit We Rt.

The specific feature of the proposed coma center of the meter is that the compensating voltage on the concentration is entered in. the diagonal of the inductive bridge and it is separated on the high impedance resistor connected next to the thermal compensator.

In order to more completely eliminate the effect of the thermal resistance of the thermal compensation bridge on the characteristics of the systemic thermolines, a additional countercurrent was introduced into the meritory circuit. Thus, two systems are created. A liquid coil system consisting of a liquid coil and a counter-turn P1, their total conductivity equal to the difference between the conductivities of the liquid coil and the counter-turn, and the sensational system whose total conductivity also equals the difference of the conductivities of the two circuits brought to the liquid coil system. The operation of these systems is clearly illustrated by the operation of the circuit.

Based on the conditional equality of the magnetic fluxes in the core of the measuring transformer, the conductivity of the liquid flow system and the compensation system should be equal, 11 / 1I) -W, W ,. RI + Rt i + Rt + RI Due to the fact that the values of resistors Ri and Rz are much smaller than the value of Rt, then the twist is always greater than R. Therefore, you can replace the sum with f + A, (2) where & R is the difference between the values resistance coil and countercurrent. After substitution of the value in formula (1) and simple ones: products, 10, H, s, provided that 1 "and W, W, K, formula (il) takes the form:, Rs Rl + R, AR Rj + Rt + RI Thus, By determining certain ratios of the values of the indicated resistors, it is possible to determine the value of the co-motive of the anti-blinker. In this scheme, the two-wire condition Rt is achieved easily, since the increase in the number of windings Wi and W, due to their counter-switching, is practically not affected by the sensitivity of the circuit. Balancing the circuit when the conductivity of the controlled medium changes due to a change in its concentration is produced by introducing a voltage into the diagonal of a switching bridge due to the balance of the differential transformer coil. The thermal offset of the fan is automatically due to the fact that the unbalance current of the bridge, in its diagonal, depends proportionally on the applied voltage in this diagonal, i.e., the sum of the voltage of the preliminary unbalance of the bridge In this case, under the condition that the temperature coefficient of the liquid coil is constant to the measuring range, the circuit provides full thermal compensation. In the case when the controlled medium has a variable temperature coefficient over the measuring range, a linear correction of the temperature coefficient is provided for in the circuit. The comparison is carried out due to the fact that the part of the total compensation, step-by-step flow, varying in the range of measurement, does not change with the change in the value of the thermal resistance of the thermal compensator. The subject matter of the invention is a conductometric concentrometer containing measuring transformers, a liquid circuit, a temperature compensation bridge with a temperature-sensitive sensor in the diagonal, and a differential coil, in which a resistor is inserted in the diagonal of the temperature compensation bridge in series with the temperature-sensitive sensor to improve the accuracy of measurement; parallel to which a differential coil is connected, and an additional winding is inductively connected to the measuring transformer, including Enna in the differential coil circuit.

Tr1 P

--13