SU1631359A2 - Device for measuring pulp density - Google Patents

Abstract

The invention relates to a measuring and control technique, namely, devices for measuring the density of the pulp, and can be used in the metallurgical, chemical and construction industries. The purpose of the invention is to improve the accuracy and extend the range of measurements. With the intensive accumulation of solid particles of the pulp on the float, the compression of the calibrated springs and the inclusion of an induction motor sensor, which with the help of it starts to rotate the screw, the blades of which begin to rotate the liquid and wash away solid particles pulp caps from floats. At this point, no measurement takes place.

Description

The invention relates to a control and measuring technique and can be used in the ore-dressing, chemical, metallurgical and construction industry.

The purpose of the invention is to improve the accuracy and the expansion of the measuring range.

The drawing shows a schematic diagram of the proposed device.

A float 1 is placed in a vessel with controlled liquid, which is kinematically connected through lever 2 to a calibrated spring 3 and an inductive sensor plunger 4. The float 5 through the lever 6 is kinematically connected to the coil 7 of the induction sensor. The upper part of the sensor housing is equipped with a calibrated spring 8. The sensitive elements of the device, the floats are made with the same total surface and different in weight

volume. A screw 9, mounted between the floats, is connected via shaft 10 to the engine 11. Sensors 12 and 13 of the fully compressed calibrated springs are electrically connected to the engine,

The device works as follows

A body immersed in a liquid medium is affected by a force equal to 1 different weight G of this body and the buoyant force P. In the proposed device, the forces are FI and F2. acting on the floats 1 and 5 through the levers 2 and 6 are transmitted and balanced by the forces of the calibrated springs 3 and 8. Gi-Pi Ft

G2 - P 2 F2.

With the same weight of floats 1 and 5 (Gi and 62), the corresponding buoyancy forces Pi and P2 vary with the density of the fluid. In steady state mode

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The forces FI and F2 correspond to the compression of the calibrated springs 3 and 8 for a certain distance, which leads to a change in the position of the plunger 4 and the body of the coil 7 of the induction sensor.

When the pulp density changes, due to the fact that the floats 1 and 5 have a different volume, the buoyancy forces Pi and g change in the same way. This causes an unequal change in the efforts of FI and F2, i.e. the positions of the plunger 4 and the housing of the coil 7 of the induction sensor. As a result, the signal from the sensor changes, which corresponds to a change in the density of the liquid.

With the intensive adhesion of solid particles of the pulp to the floats (with an increase in the content of clay materials in the initial ore), the calibrated springs are fully compressed. Sensors 12 and 13 complete

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the compression of the calibrated springs turns on the impeller engine 11 for a short time. The rotation of the engine through the shaft 10 is transmitted to the screw 9, which washes away the solid particles of the pulp from the float. When the engine is turned on, the measurement does not occur, since the rotation of the blade distorts the true value of the pulp density,

Fo rumulai z o brie n A device for measuring the density of the pulp according to ed. St. No. 1122919, characterized in that, in order to increase the accuracy and expand the measurement range, it is additionally equipped with an impeller consisting of an engine, on the shaft of which a screw is mounted, located in the vessel for controlled pulp between floats at the midpoint of their height, and connected with induction sensor.

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Claims (1)

Claim A device for measuring pulp density according to ed. St. No. 1122919, characterized in that, in order to improve the accuracy and expand the measuring range, it is additionally equipped with an impeller consisting of an engine, on the shaft of which a screw is located, located in the vessel for the controlled pulp between the floats at the mid-level of their heights, and connected with the induction sensor. ol