SU1080855A1 - Disintegrator rotor - Google Patents

Abstract

ROTOR DISINTEGRATOR, including installed vertically. parallel and rotatably in opposite directions disks, in one of which a loading opening is made, characterized in that, in order to make it possible to measure the conditional strength characteristics of microbial cells by increasing the efficiency of the impact of cells with impact elements, one of the peripheral disks has an enveloping other disk annular protrusion, in which transverse through channels are made, and in the covered disk - through radial channels communicated with the loading opening and spreading Proposition opposite channels vystupa.g

Description

The invention relates to structural devices for grinding materials, namely disintegrants, and can be used in biotechnology for conducting scientific and scientific research in the field of disintegration of microorganisms, in particular for determining the strength characteristics of microbial cells and microbial biomass subjected to disintegration under microbiological conditions production

The closest to the invention to the technical essence is the rotor of the disintegrator, including mounted-vertically, parallel to each other and rotatably in opposite directions disks, in one of which a loading opening 1 is made.

A disadvantage of the known rotor is the impossibility of measuring the conditional strength characteristics of microbial cells.

The purpose of the invention is to provide the possibility of measuring the conditional strength characteristics of microbial cells by increasing the efficiency of the impact of cells with impact elements,

This goal is achieved by the fact that in the rotor of the disintegrator, including vertically mounted, partially and rotatably in opposite directions disks, one of which has a loading opening, one of the disks has a peripheral circumference of another disk, an annular protrusion in which transverse through channels are made , and in the covered disk - through radial channels communicated with the loading opening and located opposite to the protrusion channels.

The drawing shows the rotor disintegrator, a General view.

The rotor of the disintegrator includes disks 1 and 2 mounted vertically, in parallel and rotatably in opposite directions. Disk 1 has a loading opening 3 and radiating through channels 4 communicated with it. Disk 2 on

the periphery has an annular protrusion 5 covering the disk 1. In the protrusion 5 transverse through channels 6 are made, inclined at an angle about from the DA to 60 to the vertical axis and located opposite to the radial channels 4. The boundary values of the angle of inclination of the channel 6 are chosen by definition effective mode of cell destruction.

At an angle ot of the cell to be destroyed, predominantly compressive forces act and the mode of its destruction is far from optimal. At an angle of t: 30, 5) the destruction of the force does not affect the cell to be destroyed, and it slips in channel 6.

The surface of the protrusion 5 is made concave in order to form an interdisk space for the accelerating forces to work and to eliminate the edge effect of microturbulization of air at the periphery of the disk 1.

The rotor disintegrator works as follows.

The particles of the starting material are fed through the charging opening 3 and accelerated in the radial channels 4. In order to improve the acceleration of the particles of the material, the channels 4 can be made spiral.

When material particles enter the inclined channel 6, the particles (cells) have a radial component of the speed of movement, which makes the main contribution to the destruction of the cell by hitting the walls of channel 6. The channels 6, which are made in the protrusion 5, undergo centrifugal forces. from the rotor area ..

The use of the invention makes it possible to determine the objective characteristic of the strength of microbial cells, which allows determining the biomechanical and biotechnological disintegration indicators of microbial biomass before making a reasonable choice of the method of mechanical disintegration and its implementation in scientific research and in microbiological production.

Claims (1)

DISINTEGRATOR ROTOR, including disks mounted vertically, parallelly and rotatably in opposite directions, in one of which a loading hole is made, characterized in that, in order to enable the measurement of conditional strength characteristics of microbial cells by increasing the efficiency of collision of cells with shock elements, one of the discs on the periphery has an annular protrusion spanning another disc, in which transverse through channels are made, and in the male disk - through radial ny channels communicated with the feed hole and located opposite the channels of the protrusion. §