SU644543A1 - Filtering centrifuge with inertia-type sediment discharge - Google Patents

Description

one

The invention relates to the field of the separation of suspensions into their constituent fractions and can be used in the chemical, food and other sectors of the national economy.

A known filtering centrifuge with an inertial discharge of sediment, comprising a housing, a conical rotor with a lid, a feeding nozzle and a device for distributing the suspension onto the inner surface of the rotor.

The rotor cover is fixed and forms with a rotor flange a narrow annular slot for unloading the solid phase, {1.

The initial suspension in such a centrifuge is loaded through the feed port into the rotating rotor in the region of its minimum diameter. Under the action of centrifugal forces, the product is separated and the solid phase is transported from the minimum rotor diameter to the maximum, where sediment is discharged from the rotor through an annular gap under the action of the same centrifugal forces.

This device is closest to the invention in its technical essence and the achieved result.

Its disadvantage is the instability of the centrifugal separation process and the impossibility of its regulation in a wide

when processing various kinds of products.

The residence time of the product in the rotor depends on the coefficient of friction of the product on the surface of the rotor, the angle of inclination of the generatrix of the surface of the rotor and the separation factor.

As a rule, the movement of the product along the rotor surface is carried out by a thin

layer, which is due to the short residence time of the product in the rotor cavity, therefore, in order to obtain more intensive "dewatering", it is necessary to perform an angle of inclination of the generatrix of the rotor close to the angle of friction of the product on the surface of the rotor. As a result, to control the movement of sediment in the rotor, it is necessary to create a narrow annular gap, which cannot be changed within wide limits, since with its slight increase the effect of sediment deceleration disappears, and with a slight decrease, "jamming of sediment, i.e., discharge unloading

solid phase and filling it with the cavity of the rotor. In addition, the loaded prodct, as a rule, does not possess the stability of the composition and physicochemical properties, and therefore the speed of its movement varies.

centrifuge rotor wall, and therefore

and the thickness of the sediment layer. These circumstances prevent the use of one and the same rotor to effectively separate different types of products.

The purpose of the invention is to increase the efficiency of the separation of suspensions.

This goal is achieved by the fact that in the filtering centrifuge, comprising a housing, a conical rotor with a lid, a feed nozzle and a device for distributing the suspension on the inner surface of the rotor, according to the invention, the rotor cap has on its periphery openings distributing the suspension and is rotatably rotatable at a speed different from that of the rotor. In addition, the suspension distribution device is a chamber with Split, and longitudinal ribs are fixed on the inner surface of the rotor.

It is advisable to make the number of windows in the cover equal to the number of slots in the chamber, and the windows AND the slots should be located in different planes passing through the axis of rotation of the rotor.

In this case, the angle between the plane of the cover and the forming wall of the rotor is 50-170 °.

FIG. 1 shows a general view of a filtration centrifuge; in fig. 2 - section A-A of FIG. one; on f | ig. 3 - section bb FIG. one.

The centrifuge has a conical rotor 1 with a flange 2 and a hollow drive shaft 3, a cover 4 mounted rotatably at a speed different from the speed of rotation of the rotor 1.

In the region of the minimum diameter of the rotor 1, a device is installed on the shaft 5 for distributing suspension to the internal XFloctb rotor, which is a chamber 6 with slits 7 for supplying a suspension rigidly connected by a sleeve 8 to the cover 4. The rotor cover 4 has 9 for discharging solids.

To prevent portions of sediment from entering directly into windows 9, mine cover 4, impairs the quality of dewatering products, the number of slots 7 is equal to the number of windows 9 of the rotor cover, and the slots of the suctioning distribution device and the window of the rotor cover are located in different planes passing through the axis of rotation rotor.

In order to prevent the product from slipping relative to the rotor in the tangential direction under the action of friction forces of the sediment on the rotor cover 4 on the inner surface of the rotor 1, along its image NSC, the longitudinal ribs 10 are strengthened. The rotor is installed in the centrifuge housing 11, which has a chamber 12 measure 13 for receiving the solid phase and the supply nozzle 14.

The centrifuge works as follows.

The suspension to be separated is fed through the supply nozzle 14 into the chamber 6 of the suspension distribution device rotating together with the lid 4 at a speed different from the rotational speed of the rotor 1, and through the slots 7 falls on the filtering surface of the rotor in the region of its smallest diameter. Under the action of centrifugal forces, the liquid phase separates from the solid and, after passing through the filtering surface of the rotor, enters the chamber 12. The sediment under the action of the centrifugal force that moves along the conical surface of the rotor and, after reaching the cover 4, stops the brake following the portions of the product . Sediment is unloaded only in the zone determined by the size of the windows 9, and this zone moves along the perimeter of the flange 2 of the rotor with an angular velocity equal to the difference of the angular velocities of rotation of the rotor 1 and the cover 4.

Thus, the residence time of the precipitate in the rotor is increased and the degree of dehydration of the product is increased.

By adjusting the relative angular velocity of rotation of the cover 4, one can adjust the centrifugal filtration process and select the optimum centrifuging mode for a number of products.

The proposed filtration centrifuge will allow to increase the efficiency of the separation of suspensions into fractions in comparison with the known inertial machines, to increase the productivity and quality of the separation of suspensions.

Claims (3)

1. Filtration centrifuge with inertial discharge of sediment, comprising a housing, a conical rotor with a lid, a feeding nozzle and a device for distributing the suspension to the inner surface of the rotor, characterized in that, in order to increase the separation efficiency, the rotor lid has on the periphery of the discharge window solid phase, JRecTKO is associated with a suspension distribution device and is rotatably mounted at a speed different from the rotor speed, while the suspension distribution device is the battle chamber is with a gap, and longitudinal ribs are fixed on the inner surface of the rotor. 2. A centrifuge according to claim 1, differing in that the number of windows in the lid is equal to the number of gaps in the chamber, the windows and the gaps located in different planes, the passage of Xi through the axis of rotation of the rotor. 3. A centrifuge as claimed in claim 1, characterized in that the angle between the plane of the cover and the wall of the rotor is 50-170 °. 56 Sources of information, 1. Patent of Germany No. 1432809, cl. 82 V 3/01, taken into account in the examination of 1972 (protyptyp). 644543 l w