RU1788009C - Disintegrator - Google Patents

Abstract

Usage: in wastewater treatment plants of livestock farms of the agricultural sector, in the microbiological industry. SUMMARY OF THE INVENTION: The disintegrator comprises a cylindrical housing with a nozzle for supplying the disintegrable mass and disintegrating outlet and a horizontal working disk provided with a drive located in the housing. The disk has vertical projections arranged evenly around the circumference. Wedge-shaped inserts made of elastic material are installed on the protrusions with the formation of channels narrowing towards the periphery for the passage of the disintegrable mass between their lateral surfaces. Vertical grooves are made on these surfaces of the inserts to create a pressure differential along the direction of the disintegrable mass. The peripheral surface of the inserts facing the housing wall has a toothed profile in horizontal section. Each insert is provided on the peripheral surface with a tab protruding above the teeth and having an undercut facing the direction of rotation of the disk. The insert is mounted on the protrusion to form a gap between them and the tab to create vibration of the latter. The edge of the adjacent tooth tooth, facing it, is beveled to enhance the hydrodynamic effect on the disintegrable mass. 4 ill. l e C

Description

The invention relates to techniques for the disintegration of microorganisms by hydrodynamic and cavitation effects on shells and can be used in the production of nucleic acids, enzymes, vitamins and other physiologically active substances for the needs of the pharmaceutical industry, pharmaceutical industry, stimulants in biotechnology, as well as microbial sewage treatment, containing biodegradable contaminants such as phenols, surfactants, radionuclides, petroleum products, heavy metal salts.

According to the main ed. St. No. 12 M 1/00, a disintegrator is described, mainly for

microorganisms, containing a cylindrical body with nozzles for supplying the disintegrable mass and disintegrating discharge, a horizontal working disk equipped with a drive located in the housing, the disk has vertical protrusions arranged uniformly around the circumference on which wedge inserts of elastic material are mounted, with the formation between their side surfaces tapering to the periphery of the channels for the passage of the disintegrable mass, while vertical grooves are made on the indicated surfaces of the inserts to create repada pressure during the movement disintegratable mass, the peripheral poverhXS O ©

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The inserts facing the case wall have a toothed profile in horizontal section.

The known disintegrator does not use additional hydrodynamic and vibration effects due to a change in the cross section of the channels narrowing towards the periphery between the wedge inserts, which reduces the degree of disintegration.

A further object of the invention is to increase the degree of disintegration.

This is achieved by the fact that in the disintegrator, each insert is provided on the peripheral surface with a tab that protrudes above the teeth and has an undercut facing the direction of rotation of the disk, while the insert is mounted on the protrusion with the formation of a gap between it and the tab to create vibration of the latter first, and the edge of the adjacent tooth tooth, facing it, is beveled to enhance the hydrodynamic effect on the disintegrable mass.

When the disk rotates, the insert tab interacts with the protrusions and depressions of the gear profile of the housing. When the tongue is located opposite the protrusion, it is pressed against the subsequent insert with a change in the cross section of the narrowing channel between the inserts and vice versa, when the tongues pass opposite the cavity, the waste leads to vibrations and the tongue acts on the cell membranes, and the vibrations of the tongue cause changes in the transfer movements of speed and static pressures, i.e. hydrodynamic effects on the shell of microorganisms. Performing a tooth adjacent to the tongue with a chamfered edge ensures that the medium is supplied to the tongue and creates a speed pressure running on the tongue surface.

Figure 1 shows a disintegrator with a partial longitudinal section; figure 2 is a cross section aa in figure 1; Fig. 3 is a cross-sectional view of adjacent wedge inserts with narrowing channels between them; in Fig.4-node tab in longitudinal section.

The disintegrator contains a cylindrical housing 1 with nozzles 2 for supplying the disintegrable mass and 3 disintegrate outlets, a horizontal working disk 4, equipped with a drive 5, located in the housing, the disk 4 has vertical projections 6 arranged uniformly around the circumference, on which wedges are mounted inserts 7 of elastic material, with the formation between between the side surfaces tapering to the periphery of the channels

8 for the passage of the disintegrable mass, while vertical grooves 9 are made on the indicated surfaces of the inserts 7 to create a pressure differential along the disintegrable mass, the peripheral surface of the inserts 7 facing the wall of the housing 1 in horizontal section has a toothed profile. Each insert 7 is provided on the periphery with a tab 10 protruding above the teeth 11 and having an undercut 12 facing the direction of rotation of the disk 4 in the direction of arrow D, while the insert 7 is mounted on the tab 6 with the formation of a gap 13 between it and the tab 10 to create vibrations of the latter moreover, the edge 14 of the tooth adjacent to the tab 10 of the tooth 11 facing it is beveled to enhance the hydrodynamic effect on the disintegrable mass. The housing 1 is made with a lining 15, consisting of protrusions 16 and depressions 17, with the formation of an annular channel 18.

When the disk 4 is rotated from the drive 5, the tab 10 with the undercut 12 oscillates between the slots 8 and 13 in the direction of arrow E. The size of the slot 8 decreases when the tab 10 passes relative to the protrusion 16 of the lining 15 of the housing 1, i.e. the resistance force of the product in the direction of the arrow in the annular channel 18 becomes greater than the pressure force of the product in the slot 8, which leads to a decrease in the size of the gap 8. When the tongue 10 passes with the undercut 12 relative to the cavity 17, the resistance force Zh decreases and the tongue 10 moves away from the gap 8 to the side slits 13. Vibration of the tab 10 relative to the slit 8 provides additional transformation of speed and static pressures, contributing to the disintegration of microorganisms.

The use of the invention increases the degree of disintegration and, accordingly, the yield of physiologically active substances, biostimulants of enzymes in order to prepare bacteria to absorb biodegradable contaminants, i.e. prerequisites are being created for the intensification of local wastewater treatment.

Claims (1)

The claims The disintegrator is predominantly for microorganisms according to St. Petersburg No. 1745764, in that, in order to increase the degree of disintegration, each insert is provided on the peripheral surface with a tab protruding above the teeth and having an undercut facing the direction of rotation of the disk, the insert is mounted on the protrusion with the formation of a gap between it and the tab to create vibration the latter, and the edge of the tooth adjacent to the reinforced to enhance the hydrodynamic tooth facing it was made to affect the disintegrable mass.  2 -L /.