RU2017812C1 - Disintegrator - Google Patents

Abstract

FIELD: microorganisms disintegration. SUBSTANCE: disintegrator has a cylindrical body with stepped in cross section inner surface of wall and situated in the bode horizontal working disk. upper surface of which bears uniformly placed along circumference vertical bulges of three-cornered form. Spacer-shaped inserts are situated on the bulges. Side surfaces of the inserts form narrowing canals for disintegrated mass passage. Spacer-shaped inserts in cross-section have asymmetric pattern and one of side surfaces of the inserts in the cross-section is made concave to the center of the disk. In the case inserts side surfaces in canals for disintegrated mass passage have abrasive cover for additional reduction of disintegrated mass. EFFECT: disintegrator is used for disintegration of microorganisms and production of physiologically active stuff. 5 dwg

Description

 The invention relates to techniques for the disintegration of microorganisms and can be used to obtain nucleic acids, enzymes, vitamins, trace elements, biostimulants, drugs and other physiologically active substances.

 Known disintegrator, mainly for microorganisms, containing a cylindrical body with a stepwise cross section of the inner surface of the wall, with nozzles for supplying the disintegrable mass and removal of the disintegrate, and a horizontal working disk located in the housing, on the upper surface of which vertical protrusions of a triangular profile are uniformly arranged around the circumference, on which wedge-shaped inserts of elastic material are installed, with the formation between their side surfaces tapering to the periphery channels for the passage of the disintegrable mass and the formation of a gap between one of the side surfaces of each protrusion and the insert on it for additional vibration of the insert, in which a low degree of disintegration and, accordingly, a low yield of physiologically active substances.

 The purpose of the invention is to increase the degree of grinding of the mass and thereby increase the yield of physiologically active substances.

 The goal is achieved in that the wedge-shaped triangular inserts in the cross section are made with an asymmetric profile and one of the side surfaces of the inserts in this section is made curved to the center of the disk, while the side surfaces of the inserts in the channels for passage of the disintegrable mass have an abrasive coating for additional grinding of the disintegrate.

 Wedge inserts due to the asymmetric profile with a side surface curved to the center of the disk provide shock-hydrodynamic effects on the disintegrable mass due to their oscillations in the direction of the opposite side surface of the subsequent insert with simultaneous erosion of microorganism fragments with an abrasive coating, for example, boron carbide, silicon grains, synthetic diamonds and other abrasives that make up the coating.

 Figure 1 shows a longitudinal section of a disintegrator; figure 2 is a cross section aa in figure 1; figure 3 - node I in figure 2; figure 4 is a section EE in figure 3; figure 5 - node I in figure 2, enlarged.

The disintegrator comprises a cylindrical body 1 with a stepwise transverse cross-section of the inner surface of the wall 2, with a nozzle 3 for supplying the disintegrable mass and a nozzle 4 for disintegrate removal, and a horizontal working disk 5 located in the housing 1, on the upper surface of which there are vertical protrusions 6 of a triangular profiles on which wedge-shaped inserts 7 of elastic material are installed, with the formation of channels 8 for tearing apart between the lateral surfaces of the channels 8 for disintegration mass and the formation between one of the side surfaces of each protrusion 6 and the insert 7 on it a gap 9 for additional vibration of the insert 7. The wedge-shaped triangular inserts 7 in cross section are made with an asymmetric profile and one of the side surfaces of the inserts 7 in this section 10 is made curved to the center of the disk 5, while the side surfaces of the inserts 7 in the channels 8 for passage of the disintegrable mass have an abrasive coating 11 for additional grinding of the disintegrate. The working disk 5 is made with a labyrinth seal 12 and a cover disk 13 forming a retaining cavity 14 with a change in the level of disintegrable mass from D _o to D ₁ under the influence of disintegrate in the annular gap 15 between the wall 2 and the upper part 16 of the insert 7 on the diameter D _{2 of the} gap 15 The protrusions 6 are mounted on the working disk 5 on the spikes 17 with the possibility of shifting relative to its axis, and the working disk 5 is mounted on the drive shaft 18, and the inserts 7 are made with vertical slots 19.

 The disintegrator works as follows.

The disintegrable mass through the pipe 3 enters the retaining cavity 14 between the working disk 5 and the cover disk 13, rotating on the drive shaft 18, passes through the channels 8 into the annular gap 15 between the inner surface of the wall 2 and the upper part 16 of the insert 7 and disintegrate is discharged through the pipe 4 A pressure P is created in the retaining cavity 14 at the levels D _o and D _{1. The} insert 7 oscillates with respect to the gap 9, the vibrations that occur due to the flow in the annular gap 15 ensure the disintegration of the mass. At the same time, hydrodynamic effects occur in the vertical slots 19 and the stepped surfaces of the wall 2 and the upper part 16 of the insert 7, coupled with cavitation phenomena, which increases the degree of grinding of the mass to fragments at the level of D ₂ with multiple rarefaction and excessive pressures in the gap 15.

 Increasing the degree of grinding simplifies the further use of the disintegrate during its processing into a marketable product.

Claims (1)

 DISINTEGRATOR mainly for microorganisms, containing a cylindrical body with a stepwise cross-sectional inner surface of the wall, with nozzles for supplying the disintegrable mass and removal of the disintegrate, and a horizontal working disk located in the housing, on the upper surface of which there are vertical protrusions of a triangular profile, on which are mounted wedge-shaped inserts of elastic material with the formation between their side surfaces tapering to the periphery of the channels for I pass the disintegrable mass and the formation between one of the side surfaces of each protrusion and insert a gap on it for additional vibration of the insert, characterized in that, in order to increase the degree of grinding of the mass and thereby increase the yield of physiologically active substances, wedge-shaped triangular inserts in the cross section are made with an asymmetric profile and one of the side surfaces of the inserts in this section is made curved to the center of the disk, while the side surfaces of the inserts in the channels for disintegration passage The masses to be coated have an abrasive coating for additional grinding of the disintegrate.

Images