SU514627A1 - Disintegrator for microorganisms - Google Patents

Description

(54) DESIGNER FOR FUG-1 MICROORGANISMS

This invention relates to a technique for disintegrating microorganisms and may be used in the microbiological, pharmaceutical, and food industries.

A disintegrator for microorganisms is known, consisting of a thermostatically controlled cylindrical grinding chamber filled with grinding working bodies with inlet and outlet channels, as well as a mixing device. The proposed design allows for highly efficient disintegration of microorganisms of various types, as well as to achieve practical elimination of the wear of all working surfaces in the disintegrator chamber. This is achieved by the fact that the grinding chamber is made in the form of a hollow disk, the input and output channels are located respectively in the center and around the periphery of the chamber, and the grinding media are made of antifriction viscoelastic polymer material with a density, different density of the microbial suspension being processed, for example

from polystyrene and.

To simplify construction and maintain sterile conditions

The device is made in the form of a rotor with radial grooves, concentric mounted in a hollow disk.

The invention is illustrated in the drawing, where in FIG. i schematically depicted; sen general view of the proposed desintegrate (fa, per g 2 cut mill chamber according to A-A of Fig. 1.). The disintegrator consists of a thermostatically controlled cylindrical grinding chamber made in the form of a hollow disk I filled with grinding working bodies 2, which use antifriction granulated viscoelastic polymeric material with a density equal to the density of the processed microbial suspension, for example, from polystyrene; input and output channels with respectively 3, 4 and a mixing device made in the form of a rotor 5 s radial grooves 6, driven in rotation high-speed electric drive 7, the shaft 8 of which passes through the gland 9 in the wall of the chamber.

Works disintegrator as follows.

Claims (2)

The aqueous suspension of microorganisms through the inlet channel 3 enters the space between the polymer granules, which are actively mixed by the rotor 5 in the entire volume of the chamber. During friction in the viscoelastic granules, the microorganisms are destroyed and their contact area and the disintegrator are carried by centrifugal force to the periphery of the grinding chamber, from where they are removed through exit chamber 4, which delays the granules of the working fluid. Claims. A deinegrate solution for microorganisms, consisting of a tubular cylindrical grinding chamber filled with grinding media, with inlet and outlet channels, as well as a mixing device, characterized in that, in order to increase productivity and more effectively destroy microorganisms, the form of a hollow disk, the input and output channels are located respectively in the center and around the periphery of the chamber, and the grinding working bodies are made antifriction in an ecoelastic polymer material la with a density equal to or close to the density of the microbial suspension being processed, and, for example, from polystyrene. 2. Disintegrator according to Claim., Distinguished by the fact that, in order to simplify the construction and maintain sterile conditions, the mixing device is made in the form of a rotor with radial grooves concentrically mounted in a hollow disk. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 149668, cl. B 02 C 17/10, 1965. Aa Phi.1