SU787091A1 - Sedimentation centrifugal apparatus - Google Patents

Description

one

The invention relates to equipment for the separation of liquid inhomogeneous mixtures using centrifugal forces, and more specifically to precipitation centrifuges for processing dispersed materials, and can be used in coal, mining and chemical industries of national economy.

Closest to the proposed technical essence and the achieved result is a centrifugal centrifuge containing a rotor having openings for unloading sediment and withdrawing a fungate, mounted inside the rotor auger for transporting the precipitate to the discharge ports and a device for additional ossing, reviving and precipitating. In a known centrifuge, the device for additional sludge dewatering is a perforated drum, which coaxially encloses the conical part of the rotor. In this case, the sediment is transported along the perforated drum by an additional screw wound on the conical part of the rotor and connected to the auger drum of the latter {.1

V. as a result of this, there are significant loads on the planetary differential gearbox, which limits the centrifuge capacity for dehydrated sludge. In addition, the high humidity of the latter due to the separation of moisture in the roller osashk.

The purpose of the invention is to increase the productivity of the centrifuge for the dewatered sludge and reduce the moisture content of the latter.

ten

The goal is achieved by the fact that in a known centrifuge, a rotor having windows for unloading sediment and withdrawing a centrate is mounted inside the rotor auger for transporting sediment to unloading windows and a device for additional sludge dewatering, the latter consists of filtering blades mounted on the rotor parallel to the centrifugal axis between the windows of sludge discharge, the latter on the inner surface of the rotor have a triangle shape in cross section, one of the vertices of which is directed to the windows of the fugate a, and on the outer surface, a rectangular shape, the large sides of which are parallel to the axis of the centrifuge. FIG. 1 schematically depicted

30. Sedimentary centrifuge, longitudinal

section / in FIG. 2 is a section A-A in FIG. 1 / in FIG. 3 is a view of B in FIG. The centrifuge consists of a settling rotor 1 of conical or cylindrical-conical shape, auger 2, pitcher pipe 3. The rotor is installed in the main substandard 4, and the auger in bearings 5. Windows b are used for withdrawing the centrate from rotor 1, and windows 7, which on the inner surface of the rotor have the shape of a triangle in cross section, one of the vertices of which is directed to the windows of the centrifugal outlet, and on the outer surface is the shape of a rectangle, the large sides of which are parallel to the centrifuge axes (FIG. 3). us filtering curved blades, each of which comprises a housing 8 and 9, filter screen, forming between themselves a chamber 10 communicating with the filtrate collection jacket 1-1 centrifuge through the slots 12.

The centrifuge works as follows.

The pulp through the feed pipe 3 enters the precipitation rotor 1, where under the action of centrifugal forces the solid phase is deposited on the rotor walls. The clarified liquid through the drain ports 6 is removed to the outside in a separate chamber of the casing 11, and the sediment formed on the walls of the rotor is conveyed by the screw 2 to the conical part of the rotor sedimentation stage. When moving along the conical section of the rotor, the sediment is compacted and dehydrated. The sludge is then transported to the discharge windows 7. Since the sludge discharge windows 7 on the inner side of the rotor have a triangle shape in section, one of the vertices of which is directed to the coffler output windows 6, the sludge roll is discharged through these windows evenly over a period of time. At the same time, on the outer surface of the rotor, the sludge discharge window has a rectangular cross-section, the large sides of which are parallel to the centrifuge axis, therefore the sediment flows from the discharge eyes onto the filter blades 8 evenly

over the entire width of the blades, which allows the precipitate to move along the filtering surface in a thin layer. In the process of the sediment moving along the filtering blades, additional moisture is removed from the sediment by filtration due to the component of the centrifugal and Coriolis inertia forces acting perpendicular to the tangent to the filtering surface. The filtrate from chamber 10 through slits 12 is removed in

O a collection of casing filtrate, and a solid phase is ejected by centrifugal forces into the collection of sediment.

The proposed centrifugal centrifuge in comparison with the known one provides an increase in productivity of the dehydrated draft by 20-25%, as well as a decrease in the moisture content of the sediment by 2-3%. The use of such centrifuges at dewatering factories and surface complexes of hydraulic mines makes it possible to increase the productivity of the dewatering process, as well as to reduce the final moisture content of the sludge.

Claims (1)

1. USSR author's certificate 227228, cl. B 04 B 3/04, 1967. (putl gu (f s fie $