RU2248847C1 - Apparatus for disintegrating hard materials and producing finely divided systems and emulsions - Google Patents

Abstract

FIELD: disintegration of hard materials, production of finely divided systems and emulsions.

SUBSTANCE: apparatus includes housing with inlet and outlet branch pipes and arranged in cavity of housing oscillation concentrator in the form of pack of pates secured to housing by means of pins. Outer plates are fastened to both ends with possibility of creating forming profile by means of regulating members. Inner plates are fastened at one end and they are mounted in such a way that their free ends may freely enter one behind another at forming slits between them. Regulating members may be in the form of bolts passed through nuts. The last are rigidly secured to housing that may have rectangular or square cross section.

EFFECT: enhanced efficiency of process for preparing suspensions and finely divided powders.

5 cl, 2 dwg

Description

The invention relates to a device for grinding solids, obtaining fine systems, emulsions and can be used in medical, food, metallurgical, chemical and other industries.

A device for grinding materials, containing a housing for grinding with inlet and outlet nozzles, made in the form of a vibration concentrator located in the cavity of the housing (US patent No. 5035363, CL 02 02/19, 1991).

A disadvantage of the known technical solution is the insufficiently high efficiency of the process for preparing suspensions, emulsions and fine powders of solid substances.

The objective of the invention is to increase the efficiency of processes for the preparation of suspensions, emulsions and fine powders.

This problem is solved by the fact that in the device for grinding solids and obtaining finely dispersed systems and emulsions, including a housing with inlet and outlet nozzles and an oscillation concentrator located in the cavity of the housing, the vibration concentrator is made in the form of a package of plates fixed with pins to the housing, while the outer the plates are fixed at both ends with the possibility of creating a forming profile by means of adjusting elements, and the inner plates are fixed at one of the ends and installed with a sequential one after the other, their free ends approach with the formation of gaps between them.

And also the fact that the adjusting elements are made in the form of bolts inserted into the nuts, rigidly fixed to the housing.

And also the fact that the body is made of rectangular cross section.

And also the fact that the body is made of square section.

And also the fact that the inlet and outlet nozzles are made of circular cross section.

The invention is illustrated by drawings, where figure 1 schematically shows a General view of the device in section, figure 2 - section aa in figure 1.

A device for grinding solids and obtaining finely dispersed systems and emulsions consists of a housing 1, to which pipes 2 are welded on both sides, for example, of circular cross-section with a thread for connecting hoses from a centrifugal pump (not shown). An oscillation concentrator is located inside the housing 1, made of a package of outer plates 3 and inner plates 4, mounted on pins 5 so that the plates 3 and 4 have a certain degree of mobility. In this case, the outer plates 3 are fixed at both ends with the possibility of creating a forming profile by means of adjusting elements made in the form of bolts 6, inserted into the nuts 7, rigidly mounted on the housing 1. And the inner plates are fixed by one of their ends (the mounting pins of the inner plates are not shown ) at the inlet or outlet nozzles and are installed with the sequential approach of their free ends one after another with the formation of gaps between them. The formed row of slots forms a shape similar to a Laval nozzle.

The device operates as follows.

A fluid stream with solid particles to be milled, or a mixture of two liquids or a two-phase mixture to be mixed, under the influence of a circulation pump constantly passes through the device. The liquid passing between plates 3 and 4 accelerates and excites ultrasonic vibrations of the plates, which, in turn, excite hydrodynamic effects in the fluid flow (cavitation, hydropercussion, thermal, etc.). The effect of hydrodynamic effects on the solid particles of the crushed powder causes their destruction, and on the mixed substances their intensive mixing. Thermal effects that occur during the passage of the fluid increase the degree of mixing.

Due to the high speed of the passing stream, the cavitation effects that occur in the device do not develop on the surface of the plates, but in the stream itself, which helps to increase the durability of the plates.

By adjusting the flow rate using the regulating elements - bolts 7, you can change the intensity of the hydrodynamic effects, and therefore the degree of their impact on the environment, which increases the efficiency of the process of grinding solids and obtaining finely dispersed systems and emulsions.

Claims (5)

1. A device for grinding solids and obtaining finely dispersed systems and emulsions, comprising a housing with inlet and outlet nozzles and a vibration concentrator located in the cavity of the housing, characterized in that the vibration concentrator is made in the form of a package of plates fixed with pins to the housing, while the outer plates fixed from both ends with the possibility of creating a forming profile by means of adjusting elements, and the inner plates are fixed by one of the ends and installed with their sequential approach with rim all one after the other to form gaps between them. 2. The device according to claim 1, characterized in that the adjusting elements are made in the form of bolts inserted into the nuts, rigidly fixed to the housing. 3. The device according to claim 1, characterized in that the casing is made of rectangular cross-section. 4. The device according to claim 1, characterized in that the housing is made of square section. 5. The device according to claim 1, characterized in that the inlet and outlet nozzles are made of circular cross section.

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