RU2006289C1 - Polygradient electromagnetic separator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: separator has an inclined chute with a polygradient medium. The chute is formed by pole pieces of a magnetic system. Magnetic particles deposit on spirals and transfer bars. Part of spirals is located on the transfer bars, and the other part is located between the transfer bars. The diameter of the spirals located between the transfer bars is determined from a formula presented in the description of the invention. EFFECT: improved structure. 2 dwg

Description

 The invention relates to wet magnetic separation and can be used to remove magnetic impurities from suspensions, slips, glazes, glass enamels, food masses, etc.

 Known electromagnetic separator (1), containing an electromagnetic system, including the upper and lower pole pieces, forming a trough, closed on the sides by non-magnetic walls, inside of which there is a polygradient medium, which is a spiral of magnetically soft material, moved inside the trough by a drive mechanism. The spirals are located on rods (rods) attached with equal pitch to the chains of the movement mechanism.

 In this separator, the polygradient medium does not provide a constant cleaning of the suspension from mannitic inclusions along the entire length of the separation zone. Separation occurs periodically at concentrators, which are spirals and rods.

 The closest technical solution is the electromagnetic separator (2), having a similar construction (1), but with a lightweight magnetic circuit.

 The polygradient medium, as in (1), does not provide constant cleaning of the suspension of magnetic impurities along the entire length of the separator, i.e., it does not use design capabilities to increase the separation efficiency with constant overall dimensions and power of the magnetic system.

 The aim of the invention is to increase the efficiency of the separator.

This goal is achieved due to the fact that the outer diameter of the spirals located between the rods is determined from the mathematical expression:
d _n.s. ≅ h - d _w , where d _n.s. - the outer diameter of the spirals located between the rods, m;
h is the height of the gutter, m;
d _W - the diameter of the rods, m

 A distinctive feature of the invention compared to the prototype is that the spirals located between the rods are made of a smaller diameter than the spirals located on the rods.

 In FIG. 1 shows the proposed device, side view; in FIG. 2 is a section AA in FIG. 1.

 The electromagnetic separator consists of a bed (not shown in the drawings), on which an inclined magnetic system is installed, containing a common lower pole tip 1, several U-shaped magnetic circuits, including upper pole tips 2, divided by non-magnetic inserts 3 into two parts for each U-shaped the magnetic circuit, and non-magnetic inserts 4 between adjacent magnetic circuits. The working surfaces of the lower 1 and upper 2 pole pieces are covered with a layer of non-magnetic material 5 (stainless steel, etc.) to prevent rust from getting into the separated suspension. Cores 6 are fixed on the upper pole pieces 2, on which the magnetizing coils are located 7. Magnetic flux closure is provided by a magnetic circuit 8 attached to the upper ends of the cores 6. The lower pole piece 1 and the upper pole pieces 2 form a gap-like gap (groove) of 25- 30 mm, laterally closed by non-magnetic inserts 9. In the upper part of the separator is a loading device 10, and in the lower part is a receiver 11 of the purified suspension. A polygradient medium (concentrators) is located in the slit-shaped trough, which is a spiral 12 located on the rods 13, and a spiral 14 of a smaller diameter located between the spirals 12, intertwined with them and with each other. The rods 13 are attached to endless chains 15, which with the help of a drive (not shown in the drawings) can provide the movement of a polygradient medium. Spirals 12 and 14, rods 13 are made of soft magnetic material.

 An electromagnetic separator operates as follows.

 When a constant voltage is applied to the coils 7 of the U-shaped electromagnets, the separation zone is pierced through the entire gap width by magnetic flux. The separated suspension through the loading device 10 is fed into the separation zone and spreads evenly over the entire width of the closed inclined groove formed by the pole pieces 1 and 2, as well as the side inserts 9. In the separation zone, magnetic particles are attracted to the concentrators (12, 13, 14). The purified suspension after repeated cleaning enters the receiver 11. The removal of adhered magnetic particles from the concentrators is carried out by moving the chains 15 and washing the particles with water from the nozzles outside the separation zone (not shown in the drawings).

 The implementation of the spirals located between the rods of a smaller diameter compared with the spirals located on the rods, allows to increase the separation efficiency without increasing the power and overall dimensions of the separator.

 (56) Copyright certificate of the USSR N 1553175, cl. B 03 C 1/04, 1988.

 USSR copyright certificate N 1681961, cl. B 03 C 1/04, 1989.

Claims (1)

POLYGRADENT ELECTROMAGNETIC SEPARATOR, including an inclined electromagnetic system containing several electromagnets with coils, magnetic circuits and a common lower pole tip, a polygradient medium made in the form of a grid of spirals with the possibility of fastening at equal intervals using rods to two endless chains of the movement mechanism, drive, loading and unloading devices, characterized in that, in order to increase the efficiency of the separation process, the outer diameter of the spirals are located x between the rods, determined from the mathematical expression
d _ns ≅ h - d _w ,
where d _ns - the outer diameter of the spirals located between the rods, m;
h is the height of the gutter, m;
d _W - the diameter of the rods, m

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