SU1032390A1 - Conductometer - Google Patents

Abstract

A CONDUCTOMETER containing a generator, connected via a switch with two 4 xagors, a measuring instrument measuring and comparing the embedded coils, emmers, a full circuit containing a series-connected detector, an adder, a switch and a register, and moreover; Coupling through the connection winding is connected with the measuring layer, about tl and h, and Kush and g & l, chgogo, with a chain vvapeni. measurement accuracy, measured and measured, the coil is filled in the form of two windings placed on one side of the coil. The shock core is ikhetsy for air along the formed surface, while the coils and 4epEgeln (H1 coils are located on the outer surface of the servo conductor, their planes are perpendicular to;

Description

The invention relates to the physicochemical analysis of the property., Of a liquid by its specific electrical conductivity, and can be used to automatically control the state of liquid or pulp-like technopic media of chemical productions. A known meter of the electrical conductivity of solutions contains a generator of the best frequency and two series-connected circuits, one of which is connected to an effective-type sensor. Voltages removed from voltage circuits are detected and q) are equivalent to i. The lack of electrical solutions vzmersya - the use of a capacitive sensor, which in contaminated environments, does not differ much in accuracy from a two-electrode two-electrode sensor. In addition to the tslgo, the submersible-type capacitive sensor practically does not become ejektrolvgvcheskoy constant. Closest to the proposed ohm is a conductometer containing a generator connected through a switch with two circuits containing a measuring and comparative to cores, a measuring circuit containing sequentially pinned aegekTqp, adder, usvpvtel and registrator device, and the contours through the windings of the link connected to the measuring circuit 2. A disadvantage of the known conductometer is the decrease in measurement accuracy due to the error due to a change in the loss of the cores of the circuits. The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that in a conductometer containing a generator connected through a switch with two circuits containing a measuring and comparative coils, a measuring circuit containing a series-connected detector, adder, amplifier and recording device, the contours being connected through the coupling winding with the measuring circuit, the measuring and comparative coils are made in the form of windings placed on a single pop cylindrical core, T filling the gap along its surface, with In this case, the turns of the measuring coil are located on the outer surface of the core, their planes are perpendicular to the axis of the core, and the flatness of the turns of the comparative coil passes through its axis. The drawing shows the proposed conductivity meter. The conductometer contains a high-frequency generator 1, a switch 2, a sensor 3, a differential detector 4, an adder 5, an amplifier 6, a compensation element 7 and a meter 8. The sensor 3, in turn, consists of a ferrite core 9 made of toroidal rings and equipped with an airfoil clearances 10. On the outer part of the core, winding 11 of the measuring circuit and winding 12 of the measurement of the gravity circuit are located perpendicular to the centerline of the set, and winding 13 is compared to the core of the set - winding 13 compare-. body circuit and winding 14 of its connection. The sensor also contains a fluid circuit from the analyzed medium 15, which is the volume of the counterpart sredy. The conductivity meter works in the following way. The voltage from the output of the high-frequency generator 1 through the switch 2 is alternately applied to the windings 11 and 13 kdatur. The voltages from these processors are wired through the wiring 12 and 14 to the differential detector 4 and then to the adder 5. The voltage difference at the output of the adder 5 is amplified by the amplifier 6 and acts as a control signal on the compensation element 7. Physical parameter The compensating element 7 is measured by the meter 8, which gives the I1f) information about the parameter of the protective medium. For example, when the conductivity of a controlled environment is detected, the quality factor of the measuring circuit decreases. Reduce and voltage on the winding 12 connection. This will determine the difference between the signals on the adder. The amplified difference signal, by changing the resistance value of the compensation element (resistor optocoupler, etc.), will bring the systole into equilibrium. The meter 8 will record the value of the resistance of the compensator, by which the output signal will be generated. For the measuring and comparison contours, the same core is used, which during operation is in certain conditions, the same for both the measuring circuit and the comparative one. Changing these conditions will have the same effect on both circuits. Variables as changed

Claims (1)

A CONDUCTOMETER containing a generator connected through a switch with two circuits containing a measuring and comparative coil, a measuring circuit containing sequentially connected detector, adder, amplifier and a recording device, moreover, the circuits are connected through a coupling winding to the measuring circuit, h to>. sh i with that, with a chain of enhancement. >. measurement accuracy, the measuring and comparative coils are made in the form of two windings placed on one hollow cylindrical core having a gap along its surface forming, while the coils of the measuring coil are located on the outer surface of the core, their planes are perpendicular to the I axis of the core, and the plane of the coils is comparative coils pass through its axis. ζ © о