SU1222329A1 - Centrifugal separator - Google Patents

Description

The invention relates to the enrichment of minerals, mainly for the separation of the density of finely divided materials in a centrifugal field, and can be used in metallurgy, chemical and chemical industry.

The purpose of the invention is to improve the quality of separation by stabilizing the process of stratification of the grains. . density.

FIG. 1 shows a separator diagram; in fig. 2 shows section A-A in FIG. one; in fig. 3 - separator, top view; in fig. 4 - position of the de- (lances at different positions of the rocker arms; in Fig. 5 - a separator scheme, in a variant of performance; in Fig. 6 - the same, top view.

The centrifugal separator consists of a bowl 1 mounted on a vertical drive shaft 2, the latter is mounted in bearings 3 in the housing 4, and its upper end is rigidly connected with devices for power supply and flush water, and the lower end is using a lobe coupling 5 sec. electric drive shaft (not shown),

The drive shaft 6 is rigidly fixed on the drive shaft 2, in which symmetrically about the vertical axis E; ala 2 in bearings 7 are installed two pairs of shafts 8 and 9. Debalavsy 10 with high inertia are mounted on shafts 8 and debalans 11 with malm on shafts 9 moment of inertia. The balances 10 and 11 are located symmetrically with respect to the central axis (Fig. 2). In each pair, the balance weights 10 and 11 are phased (Fig. 4).

The gears 12 and 13 are rigidly fixed on the shaft 8 and are associated respectively (respectively with the gear 14 of the shaft 9 and with the gear crown 15 of the housing 4, and the diameter of the initial circle of the gear 14 is two times smaller than the diameter of the wheel 12. The housing 4 is mounted on a foundation with using shock absorbers 16.

The power supply device comprises a vertical pipe 17 and a radial and distal nozzles 18 shaped as a sector, and a device for supplying the mixed water contains a pipe 19 coaxially with the pipe 17 and the radial nozzles 20 rotated in a horizontal plane relative to the nozzle 18 by an angle oil (Fig. 3).

five

The discharge device is rigidly fixed on the bowl 1 and consists of removable knives 21 located along the generatrix of the inner surface of the bowl 1, and annular troughs 22, divided into sectors with adjustable arc length for tailings 23, industrial product 24 and concentrate 25. -Each sector is provided pipe 26, placed in the corresponding stationary receiver tailings 27, middling 28, concentrate 29.

Circuit knife 21 is shifted in the horizontal plane relative to the central axis of the nozzle 18 by an angle

360 ° | n 2g

K.2

where and - the number of removable knives; E - the length of the external arc of the sector 1 8; g - the radius of the knife.

Angle to: 1 / 2a; 2.

In another embodiment of the separator (Figs. 5 and 6), the body 4 is made in the form of a central bearing pin, and the coupling of the drive shaft 2 with the electric drive is carried out using a belt drive.

Centrifugal separator operates as follows.

The rotation from the electric drive is transmitted to the shaft 2 and the bowl 1 with the power supply, flushing and unloading devices. The rotation of the rocker arm 6 causes the gears 13 to roll around the fixed rim 15, which causes the rotation of the shafts 8 and the shafts 9 associated with them around their own axes.

The yoke in four positions for one revolution of rotation with speed And is shown in FIG. 4. At the same time, low-speed shafts with unbalances 10 rotate with relative speed Q, (on

FIG. 2 k 1.2,

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k-

M or CO, where., ..), and high-speed ones - with

relative speed 2 co (the directions of rotation are shown in Fig. 4). Radial components of inertia forces

50

mutually destroyed, some are added up.

and tangential

Thus, the resultant force F is always tangential beam 6 and has a periodic non-harmonic form, i.e. on a uniform rotation of the drive shaft 2 bi-harmonic rotary oscillations are superimposed

J

the rocker arms 6 in the horizontal plane, which are transmitted by the cup 1,

The pulp from the rotating tube 17 through the nozzles 18 is fed to the inner surface of the bowl 1 and under the action of centrifugal force rushes along the forming bowl to its upper edge, where it is unloaded into the sector for the tails 23 of the ring groove 22 rotating at the same speed as the bowl 1 and from there through pipe 26 to the fixed receiver of tails 27. Heavy particles during the movement of the pulp through the bowl 1 settle on its internal surface, and the light (having a low sedimentation rate) along with the pulp are discharged into the sector for the tails 23 Because of the forces arising from the biharmonic rotational vibrations of the rotating bowl 1, the settled heavy particles begin to move in a horizontal plane along the inner surface of the thicket 1 (Fig. 3, clockwise) and enter the industrial zone, where they are washed with water coming from pipes 19 through nozzles 20. Intermediate-density particles are removed by water to sector 24 for middlings, and from there to receiver; 28 are the heaviest parts of removable knives 21, which

29

unload the product into the concentrate sector 25 and from there to the receiver 29. The velocity of the displaced particles relative to the bowl is determined by the ratio of the masses and rotational speeds of the unbalanced weights, as well as the physico-mechanical properties of the surface of the bowl 1.

The proposed centrifugal separator makes it possible to divide the initial slurry material into three or more products, the required quality of the products obtained can be easily controlled by parameters; the speed of rotation of the bowl, its surface properties, water consumption, vibration parameters, the ratio of the lengths of the arcs of the ring sectors 23-25.

The absence of vertical shock effects stabilizes the process of sedimentation of heavy particles from the stream.

The introduction of a separator makes it possible to increase the extraction of a valuable component from finely ground ore products (100 microns) in comparison with the known one by 5–6% with the same concentrate yield.

The expected economic effect from the use of a centrifugal separator is 11 thousand rubles.

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Compiled by V. Olyunin Editor M. Blanan Tehred O. Sopko. Proofreader M. Demchik

Order 1641/7

Circulation 565

VNIIPI USSR State Committee

Inventions and discoveries 113035, Moscow, L (-35, Raushsk nab. 4/5

Branch PPP Patent% Uzhgorod, st. Project, 4

Subscription

Claims (1)

CENTRIFUGAL SEPARATOR, including a bowl mounted on a vertical drive shaft, drive, drive housing, devices for supplying power and flushing water, unloading separation products, characterized in that, in order to improve the quality of separation by stabilizing the process of separation of grains in density , devices for supplying power and flushing water and unloading separation products are rigidly connected to the drive shaft, the drive is made in the form of a rocker arm with two pairs of unbalanced vertical shafts installed in it, with a pair of unbalanced shafts is mounted symmetrically relative to the drive shaft axis and each of them consists of low-speed and high-speed shafts, which are interconnected with the housing and gears and to romyslo rigidly connected to a drive shaft §.