SU635409A1 - Pulp density determining apparatus - Google Patents

Description

The invention relates to pulp density control devices and can be used in the metallurgical, oil producing, mining, and other industries. A device is known for determining and controlling the density of liquid media, suspensions and slurries 1. The device contains jet pneumatic or hydraulic amplifiers associated with a U-shaped tube or with a hydrostatic sensor and are complex in design. The operation of the device is based on changes in the level or frequency of fluctuations in the level of a liquid in a sensitive element with a change in density. A device is known for determining and controlling the percentage of gases in a mixture of 2, comprising, as a sensitive element, a liquid jet oscillator. The operation of this device is based on a change in the frequency of pressure fluctuations in the sensitive element as the monitored parameter changes. The prior art device comprises an inkjet oscillation generator, rigidly connected to the slurry pipeline, a pressure oscillation transducer into an electrical signal, mounted on the wall of one of the feedback channels of the inkjet oscillator, and a measuring device. Due to the presence in the jet oscillators of feedback channels having sections with a very small angle of inclination of the walls relative to the horizontal plane, and, as a result, the presence of a sufficiently high concentration of solid particles near the external walls of the feedback channels due to nonlinear pulp movement, The known device cannot be used to determine the pulp density, since, due to the factors listed above, significant additional errors occur, and during long-term operation it is also possible complete blockage of the feedback channels with a solid fraction. When a solid fraction of pulp is deposited on the walls of the feedback channels (i.e., a change in their flow section), additional errors are caused by a change in the feedback coefficient and, ultimately, the frequency of pressure fluctuations at the same pulp density. The aim of the invention is to improve the accuracy of measurements of the density of the pulp in the stream. This goal is achieved by the fact that in the device for determining the density

a pulp containing an inkjet oscillation generator, rigidly connected to the pulp line, a pressure oscillation transducer into an electrical signal mounted on the wall of one of the feedback channels, and a measuring device, the feedback channels of the jet generator are made in an elastic elastic pipe made of elastic material.

The use of feedback channels, made in the form of resilient elastic pipes made of an elastic material, makes it possible to avoid the deposition of solid fractions and on the walls due to the elastic deformation of the channels during pressure fluctuations in them and the transfer of solid particles by the flux.

FIG. 1 schematically shows a device for determining the density of the pulp in section with the body of the jet oscillator in an in-line casting; in fig. 2 - that} ke, with the housing of the jet generator in the form of a welded construction of pipes or sheet material.

The device comprises an inkjet oscillation generator, having a housing 1, an input channel 2, a chamber for interaction of the jets 3 with receiving channels 4 and 5, which are combined into an output channel 6, feedback channels made in the elastic elastic pipes 7 and 5. The housing is rigidly connected to the slurry pipeline 9 by means of flanges 10. Elastic nozzles 7 and 8 are rigidly inclined at their ends in the annular cages of the housing.

A converter 15 of pressure oscillations into an electrical signal is connected to the inlet of the measuring device 16 on the wall of the elastic nozzle 8.

The device works as follows.

Through the jet oscillator, pulp flows continuously, the density of which is measured. A stream of pulp flows from channel 2 through the chamber of interaction of the jets 3 into receiving channel 4 or 5, depending on the asymmetry of the input stream. If the pulp stream enters channel 4, then the pressure pressure spreads through the elastic nozzle 7 (feedback channel) and transfers the stream to the receiving channel 5. The switching frequency of the pulp flow to channels 4 or 5 is a function of the rate of propagation of the pressure signal in the channel feedback, as well as the kinetic energy of the input pulp flow, i.e., under other constant conditions, is a function only of the density of the pulp. Thus, the frequency of the electrical signal at the output of converter 15 is an unambiguous function of the density of pulses. The measuring device 16 is calibrated in units of density.

The precipitating solid fraction of the pulp at a pressure variation is separated from the walls due to their elastic pulsation by deforming the nozzles 7 and 8 and is transferred by the pulp flow into the chamber of interaction of the jets 3, falling into the main flow.

The use of feedback channels made in the form of elastic pipes made of an elastic material favorably distinguishes the proposed device for determining the density of pulses from known ones and makes it possible to increase the measurement accuracy.

Claims (2)

1. Authors certificate of the USSR 206205, cl. G 05 D 11/02, 1965. 2. The patent of France No. 2278065, cl. G 01 N 9/04, 1970.