SU858926A1 - Filtering centrifugal apparatus - Google Patents

Description

(54) FILTERING CENTRIFUGE

This invention relates to filtering centrifuges for separating liquid inhomogeneous systems in the coal, chemical and other industries. Centrifuges are known that are used for dewatering granular materials in which the perforated rotor, along with rotation, receives a movement impulse causing precessional movement. The disadvantage of these centrifuges is L. complicated drive design providing precessional motion. This limits the possibility of increasing the separation factor, which entails a reduction in the effective phase separation. Vibrating centrifuges are also known, in which there is a rather simple vibration drive, generating axial movements of the rotor. These centrifuges comprise a casing, a rotor, a frame, a rotational drive, and an inertial vibrator mounted on the frame. Here it is possible to obtain high separation factors, 2 J However, in centrifuges of this type, it is impossible to obtain a substantial precessional rotor movement. Therefore, when material with a high content of small classes is subjected to dehydration, the process of movement is sometimes stopped. A seizure occurs resulting in disruption of the machine. But even with stabilization of the process, the degree of dehydration cannot satisfy the requirements of the operators. For example, when dewatering a brand of coal concentrate (the initial moisture content is up to 30% of a class of 0–13 mm with a particle content of 0–0.5 mm up to 25% of a wet. The sediment for vibrating centrifuges is 11–12%. The purpose of the invention is to reduce sediment moisture by informing the rotor of angular oscillations. The goal is achieved by the fact that in the centrifuge, the housing, rotor frame, rotation drive and inertial vibrator mounted on the frame, the vibrator is set so that its axis is offset from the rotor axis of rotation and parallel to the supporting surface frames. This allows the rotor to report the combined waveform, i.e. along

SI rotation and angular and, thus, to combine the advantages of precession and vibrating centrifuges.

In addition to the well-known loosening effect of axial vibrations directed along the generator of the rotor, the material in the case under consideration is significantly accelerated by the perpendicular 1krno forming. The combined effect of axial and angular oscillations on the siege layer will make it possible to destroy the capillary channels in the material layer more intensively and thereby intensify the separation process of the liquid. and solid phases.

Fig, 1 shows a centrifuge, a longitudinal section; in fig. 2 - the discharge of the rotor caused by the combined effect of axial and angular oscillations, conditionally.

The centrifuge contains perforated rotOp 1 mounted on distributor 2. The distributor is rigidly connected to the inner sleeve of the shock absorber 3. Elastic material, for example, vulcanised rubber, is present between the inner and outer sleeves of the shock absorber. The outer sleeve is attached to the housing-pulley 4 mounted in bearings. Inner, bearing sleeve mounted on sleeve 5, fixed to frame b. A casing 7 is installed on the frame, forming a collection of filtrate 8, rotational and vibration drive motors (not shown) and. an inertia-type vibrator 9, the latter being installed so that its axis is displaced relative to the axis of rotation of the rotor and parallel to the supporting surface of the frame. The frame is mounted on the vibration isolator tori 10, the chute 11 is attached to the casing 7, entering into the opening of the distributor 2,

The centrifuge works as follows.

From the electric motor through the housing 4, the shock absorber 3 and the distributor 2 to the rotor 1 is transmitted a torque. At the same time, oscillations generated by rotating unbalanced weights of the vibrator are coupled to the rotor. 9. Rotation to the loads is transmitted from the electric motor. Since the axis of the vibrator is displaced with respect to the axis of the rotor, it is clear from the decomposition of forces that not only the axial forces are applied to the latter, but also the moment of forces acting in the system. The rotor with the angle of inclination. Cone-forming oi has the ability C, due to the selection of the stiffness ratio of rubber or other

elastic material of the shock absorber 3 in the axial and radial directions) along with the axial movements to make angular oscillations (Fig. 2; the general pattern of oscillations according to the terminology adopted in vibrotechnics is appropriately galloping. It is important to note that the rotor changes the angle during rotation the inclination of the generatrix with respect to the vertical (more precisely, to the axis of the centrifuge) from the angle /. + p to the angle ci p, which is characteristic of the above-mentioned precession centrifuge.

In order to reduce the load on the foundation, the vibrating brooms 10 have a low rigidity,

5 The technological process in the centrifuge is carried out as follows,

The suspension through point 11 enters the distributor 2, from where

0 by centrifugal force is directed to the rotor 1. The sediment moves along the rotor under the action of the tangential component of the centrifugal force and the force of vibration. Liquid

Phase 5 (filtrate), after passing through the perforations of the rotor, is sent to the collector 8 and transferred to the external system, and the sediment through the slots in the frame is transferred to the bunker under the machine,

The use of such a construction will make it possible, as compared to the known one, to reduce the moisture content of the sediment, especially when dehydrating hard-to-mix water-coal suspensions. Obviously also

simplification of oscillation drive designs and ease of installation and maintenance.

Claims (1)

Invention Formula A filter centrifuge containing a casing / rotor, a frame, a rotary drive and an inertial vibrator mounted on the frame, about which it is necessary to reduce the humidity of the sludge by tending the rotor the oscillations, so that that its axis is displaced relative to the axis of the rogitsen rotor and parallel to the support surface of the frame,. Sources of information taken into account in the examination 1, USSR Authorship Certificate 571307, class, В04 В 3/06, 1975, 2, USSR Authorship Certificate 163974, class, В04 В 3/06, 1963. 11 ut.i Suspension