SU1743888A1 - Disperser-mixer - Google Patents

Abstract

The invention relates to dispersant mixers and makes it possible to increase the dispersion of the suspension. The disperser-mixer contains a hermetic tank 1 mounted on shock absorbers 11, cascaded in it on supports with rectilinear 12 and 13 and curvilinear surfaces through damping pads 15 main membranes 16-18 and 24, which are interconnected with each other. forming a zigzag line of their axes and are made with a concave working surface, as well as holes 20 for vertical placement of an additional membrane 21 on which a magnetostrictive transducer 22 is mounted. Capacity 1 is equipped with nozzles 5 and 9 inlet and outlet suspensions, respectively, and fitting 2 for connection to a vacuum system. 2 Il. (L C a x | 4 CJ 00 00 00 Phage

Description

The invention relates to construction equipment, in particular to installations for dispersing and mixing mineral substances used in the building materials industry.

The purpose of the invention is to increase the dispersion of the suspension.

FIG. 1 shows a dispersant-mixer; in fig. 2 is a section A-A in FIG. one.

The disperser-mixer is a sealed container 1, equipped with a pipe 2 with a cork valve 3 shut-off valve, a lid 4 made with a pipe 5 with a cork valve 6 and a guide reflector 7, and a bottom 8 having a pipe 9 with cork a crane 10 and mounted on shock absorbers 11. On the inner surface of the bottom 8, the bottom support 12 is rigidly fixed, and on the lateral internal surface of the container 1, the linear 13 and arc 14 supports, on which the curvilinear surface main membranes interconnected with the formation of a zigzag line of their axes, made with a concave working surface and fitted in the lower points of the upper 16 and middle 17 and 18 membranes with hydrodynamic emitters 19. In the middle membranes 17 and 18 there are holes 20 they have a vertical additional membrane 21 with a magnetostrictive transducer 22 and holes 23 above their working surfaces. The membrane 21 is supported on the lower surface of the upper 16 and the upper surface of the lower 24 main membranes.

The magnetostrictive transducer 22 consists of a housing 25, a magnetostriction package 26, a textolite pad 27, a winding 28, a lead-out wire 29, a band 30, a rubber pad 31 and a rubber seal 32.

Disperser-mixer works as follows.

With the cork valve 10 closed, the pipe 9, the cork valve 3 open, the pipe 2 connected to the vacuum system (not shown), and the magnetostrictive transducer 22 connected (the ultrasonic wave generator is not shown) are fed through the pipe 5 with the cork valve 6 open. for example, a water-cement slurry that, under the action of its own mass and pressure difference (atmospheric

and vacuum) is moved along the guide reflector 7 to the upper zone of the membrane 16 installed at an angle to the vertical, subjected to ultrasound and cavitation. Further, moving along curvilinear surfaces of the membranes, cement particles are additionally dispersed under the action of an intense ultrasonic field of several sources of ultrasound-hydrodynamic emitters 19 installed at the lower points of the upper 16 and middle 17 and 18 membranes, and the vertical additional membrane 21 with openings 23, also working as hydrodynamic radiators. When the suspension passes through the membranes, the action of ultrasound, turbulent flow, cavitation, collision of solid particles, their impact on the metal parts of the installation and mechanical erosion causes intense dispersion of particles and mixing of the suspension. The processed slurry is removed through the port 9 with the cork cock 10. The cork valves 6 and 10 regulate the flow and removal of the treated slurry.

At the end of the work, the dispersant-mixer is washed with water, shut off the cork valve 3, the nozzle 2 connected to the vacuum system (not shown), and turn off the magnetostrictive transducer 22 (ultrasonic wave generator not shown).

When resuming, the processes are repeated.

Shock absorbing pads 15 exclude the transfer of ultrasound to the tank 1.

Claims (1)

Invention Formula A disperser-mixer containing a hermetic tank mounted on shock absorbers, cascaded in it through main and additional membranes with a curvilinear surface with a magnetostrictive transducer mounted on the latter, inlet and outlet nozzles and fittings for connecting to a vacuum system, valves and dispensing valves differing from the fact that, in order to increase the dispersion of the suspension, the main membranes are interconnected with the formation of a zigzag line of their axes, concave working surface and the holes for arranging therein an additional membrane, wherein the additional diaphragm is positioned vertically and simply supported on the lower and upper main membrane. Aa FIG. 2