SU858927A1 - Filtering centrifuge with vibration discharging of deposit - Google Patents

Description

one

The invention relates to devices intended for the separation of liquid inhomogeneous systems, and specifically to centrifuges, and can be used in the coal, chemical metallurgical and other industries.

Vibrating centrifuges are known with a vibrator equipped with rubber-metal shock absorbers operating on shear deformation and representing a sleeve, the outer wall of which consists of sectors, and the inner one is a continuous shell l}

Disadvantage. These centrifuges are very labor intensive in manufacturing shock absorbers.

Closest to the present invention is a centrifuge with a vibratory discharge of sediment containing a rotor, a support frame and a hiltier mounted between them, including a sleeve, elastic elements and pressure sectors located on its outer surface. When the centrifuge is working, elastic elements are pressed by sector to the shock absorber sleeve so that the sleeve is held during rotation and vibrations due to friction 2.

This shock absorber is used in centrifuge designs with a capacity of up to 300 t / h of raw material. Further increase in centrifuge performance requires an increase in the filtering surface area and, of course, an increase in the shock absorber stiffness.

The purpose of the invention is to increase centrifuge productivity by increasing the rigidity of the shock absorber.

The goal is achieved by the fact that in a centrifuge containing a rotor,

15 a support frame and a shock absorber mounted between them, including a sleeve, elastic elements located at its outer surface and pressure sectors, the shock absorber is installed

20 in the annular body, at the inner surface of the sleeve there are additional elastic elements and pressure sectors, in this case c. the outer wall of the housing, the sleeve, the main

25 and additional clamping sectors and elastic elements are provided with holes for the placement of tightening bolts.

FIG. 1 shows a centrifuge.

30 general view; in fig. 2 - section aa

in fig. 1., in FIG. 3 — node 1 in FIG. one.

The centrifuge consists of a perforated rotor 1, a cover 2, a vibrator 3, a shock absorber 4 installed between the rotor 1 and the support frame 5. Drives 6 and 7 are mounted on the frame, as well as a casing 8, forming a faltrate collector 9.

The casing 10 is rigidly attached to the pipe 10, missed in the lid.2. In the frame 5 there are openings 11. A sleeve 12 is rigidly attached to the frame 5, on which a pulley 13 is mounted through bearings. A housing 14 is attached to the pulley 13, forming an annular cavity a wide. A shock absorber 4, consisting of a sleeve 15, the main and additional electrical elements 16 and 17 of the sectors 18 and 19, is placed on this cavity from the outside and inside of the sleeve 15. In the pressure sectors 19 several holes with a thread are filled, and in the elastic elements 16 and 17, the sleeve 15, the pressing sectors 18 and the outer wall of the housing 14 are smooth holes. At the same time, in the near-18 sectors 18 holes are stepped. The elastic elements can be removable or vulcanized to the respective surfaces Biy.iiKH and the clamping sector n.

Install shock absorber 4 in the body 14 ripoi ;;; Code with the following way (, Fig. 3).

The holes of the pressing sectors 18 of the elastic elements 16, the sleeves 15 and the elastic elements 17 pass through the bolts 20, which are screwed into the threaded holes of the pressing sectors 19. They are tightened until the elastic elements are squeezed so that between the longitudinal surfaces of the pressing sectors 18 and 19, which are not in contact with elastic elements 16 and 17, a distance of 6 is established. a gap e is formed between the cavity of the housing 14 and the pressure sectors. The shock absorber is inserted into the housing so that the bolts are positioned against the holes in the outer wall of the housing 14. The bolts 20 that perform installation functions are removed through the hole b in the housing 14. The clamping sectors 1B and 19 are pressed from under the action of elastic to the walls of the hull 14. The thickness of the elastic elements in the free state is chosen such that when installing the shock absorber there is a guaranteed tension of grams. This tension provides the grip force in the system greater than the axial vibration force and the shearing force at torsion of the rotor 1, which is installed on the flange of the sleeve 15.

The centrifuge works as follows.:

The rotor simultaneously communicates rotational movement from drive 7, through pulley 13 and shock absorber 4, and oscillatory movement from drive b through vibrator 3 and shock absorber 4. Suspension through the discharge pipe 10 goes to pin 2, unwinds by it, then fed to a narrow part of rotor 1 and is dehydrated when moving toward its widest part. The process is a continuous filtration by centrifugal inertial forces.

The dewatered material is moved along the rotor due to the inertia force of axial oscillations and the tangential component of the centrifugal inertia force of the rotor 1. The liquid phase through the slots of the filter rotor enters the filtrate collector 9, and the sediment is withdrawn through the openings 11 from the machine.

In the proposed centrifuge, the rigidity of the elastic coupling between the rotor and the frame is substantially increased (almost twofold compared to the known one). This makes it possible to increase the mass of the rotor, i.e. increase its filtering surface, and hence its performance.

Calculations show that the economic effect of increasing the productivity of the coal filtration centrifuge from 300 to 400 t / h is about 50 thousand rubles.

Claims (2)

1. Author's certificate of the USSR 439319, cl. B 04 B 3/06, 1972. 2. USSR author's certificate Lo no. 2644774/13, class 04 B 3/06, 1978 (prototype). ui.Z.