SU1607715A1 - Material separating device - Google Patents

Abstract

The invention relates to agriculture and provides for increasing the efficiency of the separation process and reducing its energy intensity by separating suspended particles from clarified effluents. In the cylindrical housing 1, the main separation means is placed coaxially in it in the form of a set of funnels 3. A partition 5 is communicated with a smaller base of the upper funnel 3. the socket 11 is connected to a cylindrical screen 13 for feeding suspended particles into the accumulation zone of the thickened fraction. The effluent enters through the tangential inlet 4. Large particles slide into cylinder 10. Particles 3 separated on the conical surface of the funnels also enter cylinder 10. The cylindrical screen 13 separates the zone of the condensed fraction from the upstream and directs particles into the cylinder 10. Degree sewage treatment is regulated by moving an additional means of separation in the vertical plane relative to the overflow neck 7. The clarified drains rise above the conical socket 11 and through the overflow mouth 7 and branch pipe 8 drainage flow into the pond. Foam is discharged through the foam outlet pipe 6. 1 hp f-ly, 1 ill.

Description

The invention relates to agriculture, in particular to devices for the separation of manure drains into fractions.

The purpose of the invention is to increase the efficiency of the separation process and reduce its energy intensity by separating suspended particles from clarified effluents.

The drawing shows a device for the separation of manure into fractions, a general view.

The device includes a housing 1, made of vertical coaxially mounted and interconnected cylinders of different-sized diameter. In the upper cylinder 2, which has a larger diameter, the main separation means are coaxially placed in the form of a set of funnels 3, installed with a gap one inside the other, with their large base facing down. The inlet 4 is mounted on the housing 1 tangentially. A partition 5 communicates with the smaller base of the upper funnel 3, located above the nozzle 6 of the foam outlet and the inlet nozzle 4. The overflow mouth 7 is connected to the nozzle 8 of the outlet of the clarified effluent. A nozzle 9 for withdrawing the thickened fraction is placed in the cone-shaped part of the lower cylinder 10 Additional separation means are made in the form of a cone-shaped socket 11, the larger base 12 of which is located below the upper edge of the overflow neck 7, and the smaller one is connected to the cylindrical screen 13 for feeding suspended particles into the dried area fractions. Additional separation means are mounted for reciprocating in a vertical plane. The upper 2 and lower 10 cylinders are interconnected by means of a cone-shaped shell 14. A filtering chamber 15 is mounted on the lateral surface of the cylinder 10 with a perforated partition 16 and a locking device 17.

The device works as follows.

The manure drains enter the space between the hull 1 and the partition 5 through the tangential inlet nozzle 4. In this space, under the action of the kinetic energy of the manure flow, they are twisted and under the action of the resulting forces — centrifugal gravity — large particles of manure are collected to the periphery of the cylinder 2 and slide into cylinder 10. Simultaneously, the manure drains, the exit from the closed volume, tend to the gaps between the craters 3, where their thin-layer distribution occurs, as a result of which the efficiency of Suspended particles increase significantly. Selected particles accumulate and slide along the conical part of the funnel 3 into the lower cylinder 10. Next, the individual streams of manure are combined again. In a general upward flow, directed towards

a cone-shaped bell 11 and overflow neck 7. In this case, the upward flow is directed from the narrow part of the partition 5 to its wider upper cavity, where the flow velocity with the remaining suspended particles decreases significantly. In this cavity, a quiet zone is formed, where the particles, having reached the maximum concentration, are combined into larger ones, settle and slide along the cone-shaped bell 11 inside the cylindrical screen 13, which separates this zone with a condensed fraction from the upflow zone and directs these particles into the lower cylinder 10. Additional means for separating manure from 5 streams ensures reliable emission of fine particles, since intensive combination of fine particles and precipitation is possible only in a cone. shaped bell 11 and the cylindrical screen 13, where there are no hydrodynamic perturbed flows, destroying the union of particles into larger ones. The degree of sewage treatment is regulated by moving an additional means of separation in the vertical plane relative to the overflow port 7.

Having reached the required degree of purification, the clarified drains rise above the cone-shaped bell 11 and enter the overflow neck 7, from where they flow by gravity through the branch pipe 8 of the outlet to the pond - 30 to store them for further preparation for use. The sediment or condensed fraction formed from the accumulation of precipitated listed particles under the action of hydrostatic pressure is periodically discharged from the accumulation zone of the thickened fraction through the outlet 9 of the outlet with a shut-off device. The liquid component of the thickened fraction is filtered through the sediment and perforated partition 16, from where it is also discharged through the locking device 17 to the storage pond. Foam is discharged through the foam outlet pipe 6.

Claims (2)

1. A device for separating materials, 45 predominantly manure drains, comprising a housing made of vertical coaxially mounted and interconnected cylinders of equal diameter, in the upper of which having a larger diameter coaxially accommodates the main 50 separation means in the form of a set of funnels a gap in one another, facing down with their large base, a tangentially installed inlet nozzle, a foam outlet nozzle and a partition placed above them, connected to a 5 smaller base the top of the funnel, overflow neck, connected to the outlet of the clarified effluent, the outlet for the withdrawal of the thickened fraction, placed 1607715 b6 in the cone-shaped part of the lower cylinder-overflow, and the smaller It is characterized in that, with the aim of raising with a cylindrical screen for feeding the efficiency of the separation process, the particles in the accumulation zone are thickened by reducing its energy intensity by means of the recovered fraction. sloths from clarified suspended effluent5 2. The device according to claim 1, which differs in particles, it is equipped with an additional medium — that is an additional means of separation by means of separation, which is made in the form of a reciprocal post-cone-shaped socket, more basic mixing in vertical blending which is located below the upper edge of the bone.