SU1290078A1 - Phase interface transmitter - Google Patents

Abstract

The invention is intended for use in the manufacture of chemical fibers and can be used to measure the level of capron edge in water in the processes of extracting low molecular weight compounds from polymers. The purpose of the invention is to improve the measurement accuracy of fluids with variable electrical resistance. Installed in a water-filled 2 and polycaproamide crumb 3 reactor 1 measuring 4 and 5 and common 6 electrodes are made respectively of two different materials with a large potential gradient of the electrical double layer rto with respect to the components of the controlled medium. Insulating perforated gasket 10 prevents the capillary crumb from falling into the controlled space between the electrodes 5 and 6. When the level of the medium i changes, the potential difference between the electrodes 4 and 6 and the current through the normalizing resistance 7 changes. 1 Il. i (L y with h CX)

Description

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The invention is intended for direct industrial production of chemical fibers and can be used to measure the level of nylon chips in water in the processes of extracting low molecular weight compounds from polymers.

The purpose of the invention is to increase the accuracy of measurement of liquids with variable electrical resistance and variable concentration of suspensions in it along the height of the vessel.

The drawing shows the proposed device.

In the reactor, filled with water 2 and polycaproamide chips 3, measuring 4 cores are installed, compensating 5 and middle 6 electrodes made of metals with a large potential gradient of the electrical double layer when the concentration of the controlled medium changes, such as zinc and brass, to control the content of polycaproamide chips in water . The measuring main 4 and compensating 5 electrodes are connected via standardization resistances 8 and 7 with the middle bis electrode by measuring amplifier 9, and the controlled space between the compensating one. 5 and the middle 6 electrodes are closed with a perforated controlled gasket 10, which prevents polycaproamide chips from getting inside.

The device works as follows.

The value of the nominal resistances is chosen in such a way that, when the polycaproamide chips of the measuring electrodes completely overlap with the measuring electrodes, the output voltages of the resistances 7 and 8 are equal to zero. With a decrease in the level of polycaproamide chips, the area of the primary 4 and average 6 electrodes in contact with water increases from zinc and brass, and the potential difference between the middle 6 and primary 4 electrodes increases accordingly.

VNIIPI Order 7888/35 Circulation 714 Subscription Proizv.-polygr. pr-tie, Uzhgorod, st. Project, 4

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This also reduces the electrical resistance between these electrodes, since the water resistance is lower than the displaced polyamide chips. As a result of reducing the resistance and increasing the potential difference between the middle 6 and the measuring main 4 electrodes, the current through the normalizing resistance 7

fO decreases. The sensitivity and accuracy of the measurement of the phase boundary by this device is significantly increased compared with the prototype, where the phase boundary control is carried out only by the resistance of the controlled medium. The potential difference and resistance between the compensating 5 and the middle 6 electrodes remains unchanged, since there

20, polycaproamide chips do not fall, which makes it possible to correct the readings when water properties change, for example, due to the content of low-molecular compounds, by subtracting this potential from the signal applied to the measuring amplifier 9.

Ula Invention Form

30 Phase interface sensor containing three sensing electrodes, one of which is common to form two pairs of electrodes placed in a controlled area. A vessel at one mark, and an electrical measuring circuit, characterized in that, in order to measure the accuracy of liquids With variable electrical resistance, both measuring and common electrodes are made of two different materials with a large potential gradient of dual electric

 layer between them with respect to the components of the monitored medium, and one measuring half ij half of the surface of the common electrode, as well as the space between them, is enclosed in the clip, bounded by the introduced insulating perforated gasket.

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Claims (1)

Claim A phase boundary control sensor containing three sensitive electrodes, one of which is common for the formation of two pairs of electrodes placed in the monitored zone of the vessel at one mark, and an electrical measuring circuit, characterized in that, in order to improve the accuracy of measurements of liquids with variable electric resistance, both measuring and common electrodes are respectively made of two different materials with a large potential gradient of the double electric layer between them with respect to the compo nents of the controlled environment, and one measuring completely half the surface of the common electrode, as well as the space between them, is enclosed in a clip limited by the inserted insulating perforated gasket. VNIIPI Order 7888/35 Circulation 714 Subscription Manufacturing ave, city of Uzhhorod, st. Project, 4