SU1554977A1 - Centrifuge - Google Patents

Abstract

This invention relates to a slurry separation technique. The aim of the invention is to increase productivity. The centrifuge includes a housing 1, a blade rotor 9 with a flange 10, an annular chamber 6 for collecting the filtrate, to the outer wall 7 of which two conical shells 15 and 16 are attached to form an annular cavity 17 between them. At the same time, the outer shell 15 has flanging 18 and curved tubes 19 are attached to the inner shell 16, the discharge portions of which are located at the inner wall 8 of the chamber 6 for collecting the filter. An additional shell 14 is attached to the bottom 11 of the rotor 9 to form a gap between it and the inner wall 8 of the chamber 6. The rotor 9 is installed so that its flange 10 is located above the flange 18 and has a conical flange 20 located parallel to the outer shell 15. During operation, the air flow accelerated by the shell 14 increases its ejecting effect at the outlet sections of the tubes 19, as a result of which the discharge is intensified filtrate to chamber 6. 2 Il.

Description

The invention relates to techniques for the separation of suspensions, in particular to _; centrifuges with a rotor blade, and can be used in the chemical, coal and food industries.

The aim of the invention is to increase productivity.

In FIG. 1 shows the proposed jq centrifuge, general view; in FIG. 2, section AA in FIG. 1.

The centrifuge contains a housing 1 with a chute 2 for feeding suspensions, a collector 3 of a separate solid phase, a distributor cup 4 and a drive chamber 5, an annular chamber 6 for collecting the filtrate formed by the outer wall 7 and the inner wall 8, a blade rotor 9 with a flange Yu and 20 bottoms 11.

On the bottom 11 mounted shell 1214 in the area of the chamber 6 ,. moreover, the shell 14 \ is installed with the formation between it and the inner wall 8 of the chamber 6 of the gap 25 ra.

Two conical shells 15 and 16 (outer and inner, respectively) are attached to the outer wall 7 of the chamber 6 with the formation of an annular cavity 17 for collecting aerosols between them 30, while the outer shell 15 has a flange 18, and curved tubes 19 are attached to the inner shell 16, outlet sections 35 of which are located at the inner wall 8 of the chamber 6 and are oriented in the direction of rotation of the rotor.

The rotor 9 is installed so that its flange 10 is located above the flanges 18 and has a conical flanging 20 located parallel to the outer shell 15. The rotor 9 has windows 21 for outputting the solid phase and nozzles 22 for draining the filtrate, and 45 chamber 6 has nozzles 23 to drain the filtrate.

The shell 12 has a flange 24 located in the annular cavity.

The centrifuge operates as follows gg.

The initial suspension through the chute 2 is fed through a distribution cup 4 into the rotor 9, where separation of the solid and $$ liquid phases takes place on the blades. The solid phase through the windows 2 1 is ejected by centrifugal force into the collector 3, and the liquid phase through the nozzles 22 into the annular chamber 6.

Since the air in the latter is carried away by the rotating rotor 9, a mixture of 5 air and drops of liquid (aerosol) moves in the direction of rotation of the rotor.

Under the action of centrifugal force, droplets of the filtrate (liquid phase) fall out onto the outer wall 7 of the chamber 6 and the casing 16 from the aerosol stream, lg which flow down and are removed from the chamber 6 through the nozzles 23.

In the process of operation of the centrifuge in the annular chamber 6 near its outer wall 7, the pressure is higher than in 15 of the collector 3, therefore, part of the aerosol through the gap between the shells 12 and 16 enters the annular cavity 17 communicating with the chamber 6 by nozzles 19. Since the outlet ends of the tubes 19 20 are located directly at the rotating shell 14 and are oriented in the direction of its rotation, the air flow accelerated by the shell increases its ejective effect,> 25, as a result of which the filtrate discharge from the annular cavity 17 to chamber 6 is intensified. ANCA with eyelet 20 prevents the solids discharged from the blades 30 of the rotor 9 with the number of revolutions of the rotor.

Claims (1)

Claim A centrifuge containing a housing, a rotor blade with a flange, an annular chamber for collecting the filtrate, two 40 conical shells are attached to the outer wall with the formation of an annular cavity between them, while the outer shell is flanged, and curved tubes are attached to the inner shell, outlet 45 sections of which are located at the inner wall of the chamber for collecting the filtrate, characterized in that, in order to increase productivity, to the bottom of the rotor in the zone of the chamber 50 for collecting the filtrate at the outlet of the curved tubes an additional shell is attached to form a gap between it and the inner wall of the chamber, and the rotor is mounted in such a way that its flange is located above the flanging of the outer shell and has a conical flanging parallel to the outer shell. Aa Figure 1