SU1717231A1 - Magnetic separator - Google Patents

Abstract

The invention relates to the separation of materials according to magnetic properties and m. applied for the regeneration of ferromagnetic fluid (PFM) from an aqueous emulsion. The purpose of the invention is to increase the efficiency of the separation process by reducing the interinflationability of the separated fractions. The separator includes a magnetic system with pole pieces 1, a cylindrical working chamber (K) 2 located in the interpolar gap, with a drain pipe 3 in its bottom, a feeder 4, cylindrical tanks (Е) 5 and 6 with the

Description

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additional drain pipes 7, 8, at the same time, E 5 and 6 are installed coaxially to K 2 inside it with a gap between themselves and the wall K 2. The bottoms of E 5 and 6 are located flush with the lower edge of the lugs 1. Feeder 4 is made in the form of a hollow pipe mounted coaxially to K 2, one end of the pipe is located inside K 2. The emulsifier

The invention relates to the separation of materials according to magnetic properties, which can be applied for the regeneration of ferromagnetic fluid from an aqueous emulsion.

The purpose of the invention is to increase the efficiency of the separation process by reducing the interinflationability of the separated fractions.

The drawing shows a magnetic separator.

The separator includes a magnetic system with pole pieces 1, a cylindrical working chamber 2 with a drain pipe 3 located in the bottom, a feeder 4, cylindrical tanks 5 and 6 with additional drain pipes 7. 8 installed in the bottoms of tanks 5, 6, with the tanks 5 and 6 are installed coaxially to the working chamber inside it with a gap between themselves and the wall of the chamber, and the bottoms of the containers 5 and 6 are located flush with the lower edge of the pole pieces; the feeder 4 is made in the form of a hollow pipe mounted coaxially to the working chamber and one ec which is located inside it.

Magnetic separator works as follows.

The emulsion of a ferromagnetic liquid in water, obtained by washing the separation products, flows through pipe 4 into a cylindrical container 5. Under the influence of magnetic force, magnetic fluid is drawn into the zone of maximum magnetic field created by pole tips 1. Gradually accumulating, the layer of magnetic fluid increases and rises up, along with the magnetic fluid and the water level rises. Then, lifting to the overflow of the additional tank 5, water with remnants of a magnetic fluid that is not in the magnetic field zone overflows to the feeder 4 enters E 5 where the accumulation of FMF occurs. Water with residual FMF is poured onto the buffer layer of the FMG located in E 6. The clarified water is poured over the edge of E 6 into K 2 and then through the nozzle 3 enters the circulating cycle. Accumulated FMF is lowered into E 5 and 6 and flows out of the pipes 7 and 8, 1 h. item f-ly, 1 ill.

c and falls on the buffer layer of the magnetic fluid in the cylindrical tank 6. Here the water level and the layer of magnetic fluid gradually increase and

The clarified water, overflowing the edge of the tank 6, enters the working tank 2, from where it flows through the drain pipe 3 into the circulating cycle of washing the magnetic fluid from the enrichment products. In additional containers 5 and 6, the layer of magnetic fluid rises until the balance between the magnetic field forces and the weight of the layer of magnetic fluid and the water column on it is disturbed.

As the weight of the water column and the magnetic fluid layer increases, the latter descends and gradually begins to flow out of the drain pipes 7 and 8.

Claims (2)

1. Magnetic separator comprising a magnetic system with pole pieces, a cylindrical working chamber located in the interpolar gap, a feeder and a drainage nozzle installed in the bottom of the working chamber, characterized in that, in order to increase the efficiency of the separation process by reducing interconnection separable fractions, the separator is equipped with cylindrical tanks with additional drain pipes installed in the tank bottoms, and the tanks are installed inside the working chamber with a gap between them and the wall of the chamber, while the bottoms of these containers are located at the same level with the lower edge of the pole tips. 2. Separator pop. 1, characterized in that the feeder is made in the form of a hollow pipe installed coaxially with the working chamber and one end of which is located inside it.