SU778758A1 - Rotor-type pulsative apparatus - Google Patents

Description

(54) ROTARY AND PULSANT UNIT

The invention relates to designs of rotary pulsation apparatus for processing coarse products.

Known rotary apparatus, which have a housing with fittings of the input and output of the product, the rotor and stator in the form of discs, provided with crowns of the teeth 1..

The processed product is fed through an inlet central nozzle, successively passes between no moving and rotating teeth crowns, and then is withdrawn from the apparatus.

However, in these devices process the product, the particles of which have. The dimensions are smaller than the openings 1 between the teeth in the rims. In the case of the passage of the product through the apparatus, the particles undergo significant grinding, which in many cases is unacceptable due to the deterioration of the quality of the final product.

Known rotary pulsation apparatus for processing coarse products, comprising a housing, a stator, a rotor and a blank wall installed between the input and output naTpy6KaNM. The rotor and stator in this apparatus are cylindrical in the form of discs fitted with all 2J teeth.

The disadvantage of this apparatus is one-sided radial processing of the product, depending on the flow rate of the working medium supplied through the central nozzle, thus the working medium is used once.

The purpose of the invention is to eliminate these drawbacks, increase the intensification of the process and the uniformity of product processing.

This goal is achieved by the fact that in a rotor-pulsation apparatus, including a housing, a rotor, a stator and a blank wall, installed

20 between the inlet and outlet nozzles, the stator and the rotor are made in the form of hollow rings, while the stator is placed inside the rotor, made with an annular gap.

25

The invention provides not only radial pulsations, but also axial pulses, and the achievement of the circulation of the working fluid makes it possible to significantly reduce its consumption.

FIG. 1 shows the proposed device; in fig. 2 - section AA

ig. .one. ;

The rotary-pulsating anWapaf treatment of the coarse-grained product will possess a cylindrical body, consisting of left 1 and right 2 halves. Along the axis of the semi-hull 1, a tozer 3 is placed to enter the working medium. The stator 4 is a collar, the internal cavity of which is divided by a blank septum 5. Near the strap 5 on both sides, a patra & b and 7 are installed, respectively, for the input and output of the coarse product. The stator 4 is attached to the semi-bodies 1 and 2 by means of pipes b and 7, the spokes 8 and the intermediate flange 9. There is a hollow rotor 10, the inner surface of which is similar to the outer surface of the stator 4, the stator has smaller dimensions on these surfaces than the rotor 10 and is installed inside it. The stator 4 and the rotor 10 have a guaranteed clearance between them. The interaction surfaces of the rotor 10 and the stator 4 are formed by rotating the geometric

figures (for example, a circle, a rectangle, a square) about an axis lying in the plane of this figure and not intersecting it. The rotor 10 is attached to the shaft 11 by means of the spokes 12 and the hub 13. According to the assembly conditions, the rotor 10 is made of left and right | 1C | L: twins .. And has an annular gap for passing the nozzles 6 and 7 during the rotation of the rotor 10. Between the end walls of the semi-bodies 1, 2 and the rotor 10, cavities are provided for the possible circulation of fluid. The rotor 10 and the stator 4 S have holes in their walls, from which they tilt Dicler’s dialectically (in radial direction and parallel (in axial direction) to the shaft axis 11, and are located along the entire interaction surface of the rotor 3 O and stator 4.

 The device works at. rotation of rotor 10, feeding the processed product, through pipe 6 in the form of suspension or with the help of a feeder into the rash.

Chituzer 3 working environment (eg, solvent, water vapor). The working medium, having passed under the action of pressure through the holes of the rotor 10 and the stator 4, is ejected in the form of pulsiruntsj jets into the stator cavity, where it processes the solid phase. Moreover, the processing is carried out both in the radial axial direction and the direction inclined to the axis of the vehicle.

The working fluid supplied through the nozzle 3, as well as the fluid supplied through the nozzle 6, can be transferred into the cavity of the stator 4 by the action of centrifugal forces, flow out of it and return through the rotor cavity to re-process the coarse dispersed product. At the same time, there is no mechanical contact of the solid phase with the rotating parts. The coarse product is removed through the nozzle 7.

The invention allows an increase in the specific surface area of the processing of a coarse product due to the comprehensive treatment of the flow through the apparatus. Apart from 1 GB, reduction or elimination of the use of the working medium, fed through the nozzle 3, is achieved due to the circulation of these fluids.

Claims (2)

1. USSR author's certificate No. 331811, cl. B 01 F 11/02, 21.03.69. 2. USSR author's certificate №330877, cl. At 01 F 3/08, 08.31.70 (prototype).