SU1136839A1 - Magnetic separator - Google Patents

Abstract

MAGNETIC SEPARATOR containing. a body made in the form of a drum, a magnetic system with half-holes located in it, installed along the axis of the drum, a bath equipped with a tray with sides, which are arranged with a gap relative to the drum. Power supply and receivers of separation products, characterized in that with increasing separation process efficiency due to reduction of magnetic fraction losses, the magnetic separator is provided with additional magnets of the same polarity installed at the end of the drum, and the sides of the tray are opposite the additional magnets. : about 35 x:

Description

The invention relates to the enrichment of minerals and can be used in the mining and other sectors of the national economy. A magnetic separator is known, including a drum with a magnetic system, a bath with a tray, a feeder and receivers of separation products G | . The closest to the proposed technical essence and the achieved result is a magnetic separator containing a working body, made in the form of a drum, a magnetic system with poles installed along the axis of the drum, equipped with a tray with sides, which are located with a gap relative to to drum, feeder and receivers of separation products 2. A disadvantage of the known separators is the large losses of the magnetic fraction. The purpose of the invention is to increase the efficiency of the separation process by reducing the loss of magnetic fraction. The goal is achieved by the fact that a magnetic separator containing a working body, made in the form of a drum, a magnetic system located in it with poles installed along the axis of the drum, a bath equipped with a tray with sides located with a gap in relation to the drum, a feeder and receivers separation products, equipped with additional magnets of the same polarity, installed at the ends of the barrel, and the sides of the tray are located opposite the additional magnets Figure 1 shows the proposed separator, longitudinal section and 2 - section A-A in Figure 1. The separator consists of a non-magnetic drum 1 with a magnetic system 2 placed in it. The bath of the separator 3 is equipped with a tray 4 with ferromagnetic sides 5. The sides of the tray relative to the drum are installed with an annular gap 6, for example, 5-10 mm in size. In the lower part, the bath is provided with nozzles 7, through which large non-magnetic particles are removed, and a pipe 8 for dispensing a non-magnetic product (tailings). The magnetic product is removed from the drum using a scraper 9. The feed enters the separator through the feeder 10. The magnetic system of the separator consists of poles 11 located along the axis of the drum, the polarity of which alternates around the circumference of the drum. In addition, the separator is equipped with additional magnets 12 installed with the same polarity around the drum circumference against the ferro magnet sides of the tray. Additional magnets 12 can be made either in the form of ring arcs magnetized along the drum radius, or in the form of pyramids, the large bases of which are connected without gaps and form the outer surface of the ring. The pitch of these outer ends of the Magnets is the same around the circumference of the drum. To simplify the design of permanent magnets, in the practice of separatist construction, magnets in the form of straight prisms are used. The separator works as follows. Food in the form of pulp is fed to the feeder 10, from where it enters the bath of the separator 3 and passes through the tray 4 under the drum. Tray sides 5 limit overflowing of drum flanges and direct pulp mainly through the channel between tray 4 and drum 1. In this path, the pulp is exposed to a magnetic field, the magnetic product is attracted to the surface of the drum and transported by it, and the pulp stream is non-magnetic and unloaded after 8, and larger non-magnetic particles through nozzles 7. The magnetic product is discharged by means of a scraper 9. Due to the alternation of the polarity of the poles in the working area of the separator agit occurs along the drum circumference Qi and destruction flocculation magnetic product. This releases trapped or non-magnetic particles that are carried away by the pulp, which improves the quality of the magnetic product. The ferromagnetic beads 5 of the tray 4, located against the additional magnets 12, are magnetized and under the action of additional magnets on their ends facing the magnets, a pole is formed, the polarity of which is opposite to the polarity of the additional magnets 12. The magnetic field strength in the gap between the ferromagnetic bead and an additional magnet is significant: but greater than the intensity at the same points in the absence of a ferromagnetic bead. When the bath is filled with the pulp, a part of the pulp with magnetic particles passes through the annular gap b between the ferromagnetic edge and the drum. Due to the magnetic field formed in this gap with radially directed force lines, the magnetic particles are attracted to the sides and form floccules oriented along the radius of the drum which cover the annular gap. Due to the significant magnetization of the ferromagnetic bead, the flocula is attached to the side with one end, and the second slides along the drum surface, remaining stationary, and the gap is sealed.

In the case of additional magnets in the form of straight prisms, they are provided with wedge inserts, the magnetic axis of which is directed along the radius of the drum, and the polarity of these inserts coincides with the polarity of the magnets in the form of straight prisms.

When performing a magnetic system in a proposed way, different parts of the drum have different topography of the magnetic field, which most closely corresponds to the functional purpose of this area. Thus, in a channel against a tray, the vector of intensity in the direction of a circle changes its position from radial versus pole center to tangential versus pole junctions. In this case, the center of the poles adjacent along the circumference is directed in opposite directions. In this way, magnetic particles attracted to the drum of the floc are reversed as they move around the circumference and more intensive washing to remove trapped non-magnetic particles.

In areas against the ferromagnetic sides of the tray, where it is necessary to create a reliable seal in order to prevent pulp leaks, the vector of intensity at any point of the circumference has a predominantly radial direction. The floccule of the magnetic product in the gaps between the sides and the drum are arranged along the radius and density, blocking the gaps, providing a reliable seal against the outflow of pulp through the gaps, which allows reducing the loss of magnetic fraction and increasing the efficiency of the separation process.

Claims (1)

MAGNETIC SEPARATOR containing. a working body made in the form of a drum, a magnetic system located in it with poles installed along the axis of the drum, a bath equipped with a tray with sides located with a gap with respect to the drum, · feeder and receivers of separation products', characterized in that, with In order to increase the efficiency of the separation process by reducing the loss of magnetic fraction, the magnetic separator is equipped with additional magnets of the same polarity, installed at the ends of the drum, and the sides of the tray are located opposite the additional magnets. Figure 1