SU1694397A1 - Dispenser-mixer - Google Patents

Abstract

The invention relates to dispersant mixers for activating a slurry and allows for improved slurry quality and reliability. The disperser-mixer contains a vertical hermetic tank 1 mounted on shock absorbers 2 with a lid 3, coaxially with perforated bowl 23 placed on springs 9, connected to cap 22, inside which the oscillation pathogen 21 is mounted, supported on upper plate perforated diaphragm 20 with curvilinear working by the surface. Inside the tank 1 on the bottom 10 through the springs 13 on the stops 14 there is installed a membrane 15, on the bottom surface of which a magnetostrictive transducer 16 is placed, through a convex surface 17 there is a hub of ultrasonic vibrations, made in the form of sections 18, between which membranes 19 of equal diameter and curvature. The disperser is equipped with a stop-dispensing valve mounted on the nozzles 4, 11 for the input and output of the suspension. 1 h. item f-ly, 1 ill. SL С о ю сю 4

Description

The invention relates to construction equipment, in particular, to installations for the activation of mineral substances and the preparation of a suspension.

The purpose of the invention is to improve the quality of the suspension and reliability.

The drawing shows a dispersant-mixer, a slit.

The disperser-mixer consists of a vertical sealed container 1 mounted on shock absorbers 2 with a lid 3 having a coaxially inlet 4 with a cork valve 5 of the distributing valve and a vacuum fitting 6 eccentrically located and connected to a vacuum system (not shown) with the lower end 7 bent to the side of the vessel wall and the cork valve 8, and from the bottom side springs 9 "coaxially and symmetrically fixed around the circumference, as well as the bottom 10 with the outlet 11 having a cork valve 12 and springs 1 3 inside the vessel, located on the protrusions 14 of the lower plate perforated membrane 15, with a curved working surface and thickness that decreases from the center to the periphery with rigidly mounted magnetostrictive transducer 16 on the bottom side of the ultrasonic oscillation concentrator on the working surface through the convex surface 17 on which Bottom-up sections 18 and perforated disc membranes 19 are installed, the thickness of which decreases from the central part to the periphery. The upper membrane 20 is provided with an oscillation pathogen 21 located under the cap 22 connected to a coaxially mounted perforated pan 23, which abutting the edges against the springs 9.

In order to connect the sections 18 of the concentrator with perforated membranes 15, 19 and 20 of the same curvature and diameter, the latter have central holes 24, and sections 18 have protrusions 25.

Disperser-mixer works as follows.

When the cork valve 12 is closed and the cork cranes 5 and 8 are open, they include a magnetostrictive transducer 16 connected to an ultrasonic oscillator (not shown) and a vacuum system (not shown) connected to nozzles 6, an oscillation pathogen 21, and a suspension 4 is fed through nozzle 4 in capacity 1.

From the pipe 4, the suspension enters the vibrating perforated bowl 23, and then is evenly distributed by the vibrating cap 22 onto the upper perforated disc plate 20. At this suspension is subjected to vibration treatment, mixing and uniform distribution throughout the working

membrane surface. Under the action of an increased amplitude of the oscillatory displacement of particles on the membrane 20, the suspension is subjected to ultrasonic and cavitation treatment, and when passing through

0 holes - treatment in the area of the circular action of the ultrasonic field, which contributes to the occurrence of cavitation under the membrane. The disc membranes 19, being a component of the ultrasonic wave concentrator, work as amplifiers of ultrasonic vibrations, the increase in the intensity of which is amplified in part of the space compared to the intensity at the surface by the fact that they work

0 as concentrators that focus and change the direction of ultrasound.

The multidirectionality of the action of ultrasound and the significant difference in the amplitudes of oscillations create favorable conditions for the formation of flow turbulence and the occurrence of cavitation. The cavitation effect is enhanced by the removal of the gaseous phase from the slurry through the nozzle 6.

Thus, on the membrane 20, the solid particles of the suspension are subjected to the most powerful dispersing effects of ultrasound and cavitation, since this is facilitated by the oscillation pathogen 21, the work of which enhances the turbulent movement of the suspension. This mechanism of action is similar on all membranes 19,15 and on the convex surface 17.

The washing of the magnetostrictive transducer 16, the suspension cools it and through the pipe 11 with the full or partial opening of the cork valve 12 is removed.

The operation of the plug valve 12 is coordinated5 with the operation of the plug valve 5 and serves as a regulator of the movement of the suspension flow over time.

Upon completion of work, the disperser-mixer is washed, after which the magnetostrictive transducer 16, the exciter 21 oscillator and the vacuum system (not shown) are switched off.

When the dispersant-mixer resumes operation, the processes are repeated.

Claims (2)

1. Disperser-mixer containing mounted on the shock absorbers vertical sealed container with a lid, coaxially with which a concentrator is mounted on the magnetostrictive converter ultrasonic vibrations with diaphragm mounted perforated diaphragms with curvilinear working surfaces fixed at its height, stop-distributing armature mounted on nozzles for inlet and outlet of cement slurry and vacuum fitting, characterized in that, in order to improve the quality of the suspension and reliability the disperser-mixer is equipped with a vibration exciter mounted on the upper membrane and connected through a cap with a spring-loaded perforated cup fixed on the container lid, and Rathore ultrasonic vibrations vypol0 It is sectioned, each section is located between membranes of equal diameter and curvature, while the end face of the concentrator has a convex surface connected to the working surface of the lower membrane, installed by means of springs in the container. 2. A disperser-mixer according to claim 1, characterized in that each section of the concentrator is made with at least one protrusion housed in a central opening corresponding to the membrane, and the length of the protrusion does not exceed half the length of the opening.