SU1544504A1 - Three-product hydrocyclone - Google Patents

Abstract

The invention relates to a centrifugal field enrichment technique and allows for enhancing the enrichment quality by automatically maintaining the density. The hydrocyclone has a first loading section 1 with a tangential inlet (P) 2, a nozzle 3 for waste disposal and a drain P 4 connected by a transition P 5 to a tangential P 6 second discharge section, which also has a drain P for withdrawing concentrate and a sand nozzle. P 4 is equipped with a jet pump (H) 10, installed above the P 4 axis and connected to a pressure pipe 11 with a valve 12 regulating the water supply for diluting the suspension by signals from the plastics and viscosity measuring device 18. An air-lift device 13 with an air reducer 14 and a funnel (B) 15 with overflow is connected to P 4, connected by pipes with P 4 before and after H 4, respectively. A portion of the liquid is withdrawn from B15, is purified from the sieve 17 from the middling, and the suspension is measured for density and viscosity to adjust the feed of the suspension to an optimum density according to P4. 1 hp f-ly, 2 ill.

Description

the pipeline II with a valve 12 regulating the flow of water to dilute the suspension according to signals from the density measurement device 18 and 3– (bones. An air-lift device 13 is connected to the air reducer 14 and a funnel (B) 15 with overflow, connected by nozzles with P 4, respectively, before H 10 and behind. A part of the liquid is withdrawn from B 15, is cleaned from the intermediate product on sieve 17, and the suspension is measured for density and viscosity to adjust the flow of the suspension to the optimum density by P 4. ly, 2 Il.

The invention relates to an enrichment technique, in particular, to machines for enrichment in the field of centrifugal forces, and can be applied in the coal industry.

The purpose of the invention is to improve the quality of the enrichment by automatically maintaining the density.

Kah FIG. I shows a hydrocyclone, common vic; in fig. 2 shows section A-A in FIG. one.

A hydrocyclone consists of a first transfer section 1 with a tangential inlet nozzle 2, a nozzle 3 and a drain nozzle 4 connected by a transition nozzle 5 with a tangential nozzle 6 of the second discharge section 7. The second section also has a drain nozzle 8 and a sand nozzle 9. In the transition nozzle there is a jet pump 10 connected to a pressure pipe 11 with a regulating valve 12, and an air-lift device 13 with a gearbox 14 of air and a funnel 15 with overflow. The air lift device is connected to the transitional nozzle 5 in front of the jet pump 10, and the funnel 15 is connected to the nozzle 16 after the jet pump. Under the funnel, a stationary sieve 17 is installed to remove the middlings and concentrate, after which an automatic device 18 is installed to measure the density and viscosity of the suspension, for example, the RUTA apparatus connected to the valve. Hydrocyclone works as follows.

In a three-product hydrocyclone, the initial mixture of coal with a suspension of high density flows under pressure to the first section) tangentially through pipe 2. As a result of separation, waste (rock) is released, which, together with part of the suspension, is removed from hydrocyclone through nozzle 3. The rest of the suspension and the concentrate mixture with the intermediate through the drain and ne

five

0

five

about d§50

55

the transition pipe 5 is tangentially supplied to the body of the second discharge section 7. After separation, a concentrate is released from the second section into the drain pipe 8, and the intermediate product is removed through the nozzle 9.

Since the density of the suspension in the transition nozzle 5 is higher than optimal at 100-250 kg / m, it is diluted with water using a jet pump 8. To automate this process, part of the coal suspension is sent to the air-lift device 13, into which compressed air enters through the holes of the gearbox 14. air. From the airlift device, the slurry with coal is transported to an open funnel 15. From the funnel, the mixture of coal and suspensions under the force of gravity, as well as the suction effect of the jet pump, is returned through the pipe 16 to the transition pipe 4, where it is connected to the main stream of coal and suspension . In the funnel 15, by changing the amount of compressed air entering through the gearbox 14, the overflow of the suspension with coal is constantly maintained. After removing the middling and concentrate on the stationary sieve 17, the density and viscosity of the suspension are measured by the device 18. Based on the readings of the devices, the valve 12 is given a pulse to increase or decrease the water supply to the jet nozzle of the jet pump 10, which makes it possible to optimize the density of the suspension with coal in the transition pipe 5 and the second discharge

section 7,

i

The axis of the nozzle of the jet pump 10 is located above the axis of the transition nozzle 5 to ensure efficient backing. sucking the suspension and coal from the funnel 15 and to reduce blows to the nozzle of large pieces of middlings.

Claims (2)

Invention Formula I. A three-product hydrocyclone containing two successively installed sections with tangential inlet nozzles, drain nozzles and sand nozzles, a transition nozzle connecting the drain nozzle of the first section with the tangential nozzle of the second section, characterized in that, in order to improve the quality of enrichment by automatically maintaining the density,. the transitional pipe is equipped with a jet Editor L.Zaytseva Compiled by V.Timotkov Tehred A.Kravchku Order 456 Circulation 459 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and publishing plant Patent, Uzhgorod, st. Gagarin, 101 a pump with a valve, an air-lift device with a funnel and overflow, an automatic device for measuring the density and viscosity of the suspension connected to the funnel and the valve, while the air-lift device is connected to the transition pipe in front of the jet pump, and the funnel is installed on the transition pipe for the jet pump. 2. A hydrocyclone according to claim I, characterized in that the jet pump is installed above the axis of the transition nozzle. Fie.2 Proofreader S. Shekmar Subscription