SU1660759A1 - Device for feeding suspension to centrifuge rotor - Google Patents

Abstract

The invention relates to devices for separating liquid inhomogeneous systems in a centrifugal field, in particular centrifuges, and can be used in mechanical engineering. The purpose of the invention is to eliminate slurry leaks on the outer surface of the feed tube and to ensure the reliability of the centrifuge. The device for feeding the suspension into the centrifuge rotor comprises a distribution section 1, equipped with a spinning device 2, a fixed feed tube 3, a fairing 4 for spinning the suspension out of the tube, and an annular leak collecting chamber 5 mounted on the feed tube. The fairing 4 for unwinding the suspension is made in the form of a cone-shaped shell, the smaller base of which is located inside the annular chamber 5 for collecting leaks, and the larger base is in the distribution section 1. The supply pipe 3 is provided at the outlet with a tip 6 located inside the fairing 4 to form a gap between them . Fairing 4 has edges 7. 2 Il.

Description

The invention relates to equipment for separating liquid inhomogeneous systems containing a dispersed phase using centrifuges and can be used in the chemical, metallurgical, food, medical, engineering and other industries.

The purpose of the invention is to eliminate slurry leaks on the outer surface of the centrifuge supply tube and to ensure the reliability of the centrifuge operation.

FIG. 1 schematically shows a device installed in a rotor of a vertical precipitation centrifuge, longitudinal section; in fig. 2 - a variant of the construction of a centrifuge with a screw discharge of sediment with a device installed in it.

The device for feeding the suspension into the centrifuge rotor contains distribution section 1 arranged in the rotor, equipped with a spinning device 2, a stationary feed pipe 3, a fairing 4 for unwinding the suspension coming out of the pipe, and an annular leakage chamber 5 fixed to the feed pipe.

The fairing 4 for unwinding the suspension is made in the form of a cone-shaped shell, the smaller base of which is located inside the annular chamber 5 for collecting leaks, and the larger base is in the distribution section 1. The supply pipe 3 is provided at the outlet with a tip 6 located inside the fairing 4 to form a gap between them . Fairing 4 has ribs 7. The device can be mounted in a rotor 8 of a centrifugal centrifuge (Fig. 1), wherein the distribution section 1 is formed by a partition 9 and a rotor cover 10, equipped with a divider 11. The spinning device 2 consists of ribs. The rotor 8 has nozzles 12 for withdrawing the centrifuge and a hole 13 for discharging sediment. The fairing 4 can be installed in the partition 9 tightly or can be performed with it at the same time. It is provided on the outer surface with a reflective ring 14. The tip b is located inside the flap in such a way that its outlet opening in height is between the inlet and the outlet of the fairing. The tip can be made in the form of a nozzle, a diffuser or a cylinder.

A device for feeding the suspension into the centrifuge rotor can be placed in a precipitation centrifuge with a screw discharge of sediment containing rotor 15 (FIG. 2). The distribution section 1 of the device is located inside the drum 16 of the screw 17

centrifuges and is formed by two partitions 18 and 19, the last of which is equipped with a divider 20. The rotor 15 has openings 21 for withdrawing the centrifuge and a hole

22 for removal of sediment. The spinning device 2 in this centrifuge design consists of spherical solids located in the distribution section 1. The annular chamber 5 is provided with a partition

0 23, consisting of radial plates.

A device for feeding suspensions into a centrifuge rotor operates as follows.

The suspension containing the finely dispersed phase enters the feed pipe 3 into the tip 6, from which the dissected and partially untwisted by the divider 11 (Fig. 1) or the divider 20 (Fig. 2) is post: goes to the distribution section 1. 8 of this

0, the slurry section is smoothly unwound up to the speed of rotation of the rotor by the unwinding device 2 and enters the working space of the rotor. Part of the suspension in the form of sprays, drips caused by the forces of surface tension 5 (especially during pulpations and transient feeding modes of centrifuges) flows down the outer surface of tip 6. The main part of these leaks goes to section 1, mine

0 an annular chamber 5 for collecting leaks, due to the impact on them of the air flow resulting from its suction from the chamber 5 inside the fairing 4,

In the annular chamber 5 enters only

5 small amount of liquid. From it, the liquid enters the lower opening of the spinner 4, is spun by the edge 7 to the spinning speed of the spinning flap, rises up and, mixing with the main flow

0 liquid enters distribution section 1.

The fluid rising from the outer wall of the flap 4 reaches the reflective ring 14 and is discharged into

5 an annular chamber 5. Thus, the overflow of liquid from the annular chamber 5, its downstream along the supply pipe 3 and the ingress of sediment is practically excluded.

0 When operating a device with a tip 6, made in the form of a diffuser, at a certain depth of immersion in the fairing 4, when the distance between the ribs 7 and the edge of the outlet of the tip

5 b becomes optimal, an injection effect is observed. In this case, the liquid practically does not flow into the annular chamber 5. The suspension is separated in the rotor. The sediment is transported by turns of the screw 17 to the opening 22 and discharged from

. rotor (Fig, 2). In the centrifuge (Fig. 1) the centrifuge is discharged through the nozzles 12, and the sediment when the rotor 8 stops, flows to the opening 13 and is discharged from it. The use of the proposed device allows to improve the quality of the obtained sludge, reduce energy consumption in the further processing of the sludge and ensure the reliability of the centrifuge.

Claims (1)

Apparatus of the Invention A device for feeding a suspension into a centrifuge rotor comprising a distribution section disposed in the centrifuge rotor and equipped with an unwinding device, a fixed pit located inside the rotor. pipe and fairing to unwind the suspension coming out of the pipe, characterized in that, in order to eliminate leakage of the suspension along the outer surface of the feed pipe and to ensure reliability of the centrifuge, it is equipped with an annular leak collection chamber fixed to the feed pipe, while the fairing made in the form of a cone-shaped shell, the smaller base of which is located inside the annular leak collection chamber, and the larger base in the distribution section, while the supply pipe is equipped with a tip at the outlet om located inside the fairing with the formation of a gap between them. 21 15