SU1061842A1 - Electromagnetic separator - Google Patents

Abstract

ELECTROMAGNETIC SEPAR .TOR, including a magnetic system with magnetization coils and cores, vertically mounted cylindrical working chambers of the same diameter with a ferromagnetic filter nozzle, located circumferentially symmetrically relative to the vertical axis of the separator. 5 5 distribution pipelines, inlet and outlet nozzles, characterized in that, in order to increase productivity, simplify installation and repair of the separator, it is equipped with an additional working chamber with a ferromagnetic attachment installed along the axis of the separator, and the cores of the electromagnets are located the diameter of the additional and main chambers are in the ratio, § where D d P is the diameter of the additional working chamber; (L diameter of the main working chambers, the number of main chambers. Y:

Description

J j

eight

FIG. 1 The invention relates to the field of magnetic separation and can be used in the ore dressing, metallurgical and chemical industries, as well as for the purification of liquids and gases from ferromagnetic impurities. A device for cleaning fluid is known, comprising a working chamber with a ferromagnetic nozzle and a solenoid mounted outside the chamber 1J. The disadvantage of this device is the low efficiency of the cleaning process. The closest to the invention to the technical essence and the achieved result is an electromagnetic separator, including a magnetic system with magnetization coils and cores, vertically mounted cylindrical working chambers of the same diameter with a ferromagmitic filter nozzle located around the circumference of the symmetrically relative to the vertical axis of the separator, distribution pipelines, inlet and outlet connections. The disadvantage of the device ow; : i-evuoka performance., complexity of installation and repair 1.; separator. The purpose of the invention is to increase the production capacity, to improve the installation and repair of the separator. Accelerating the goal is achieved by the fact that an electromagnetic separator, including a magnetic system with magnetization coils and cores, vertically installed cylindrical working chambers of the same diameter with a ferromagnetic filter nozzle, located around the circumference of the separator, distribution pipelines, inlet and outlet nozzles are provided an additional working chamber with a ferromagnetic attachment installed on the separator, and the electromagnet cores are placed us radially to the additional working chamber, and further wherein the diameter of the main chambers are in a ratio of I), the diameter of the additional working chamber; d is the diameter of the main working chambers; I is the number of main chambers. Figure 1 shows the electromotive separator, section; Figure 2 is the same, top view. The separator contains an additional chamber 1, main chambers 2, magnetizing coils 3, core 4, distribution pipelines 5 of the separated medium, inlet and outlet nozzles b and 7, respectively. In the main and additional chambers there is a ferromagnetic filter attachment 8 and 9, respectively. The cores of the electromagnets are located radially with respect to the additional chamber and are rigidly fixed to it, for example, they are welded as well. main cameras are adjacent to the cores. Katunzhi magnetizing with cores located in them together with the main and additional cameras form closed magnetic circuits. The diameters of the additional and main chambers are in the ownership of D / d lGi, where P is the number of main chambers. This ratio follows from the equivalence condition of the sections of the nozzle of the additional camera and the cyMiviap.Horo of the nozzle section in the main Ka.tiepax, T.e ..--- i-- 2: L. - 4 4 Electromagnetic separator operates as follows. The separable medium moving through the inlet nozzle b enters the additional 1 and main 2 chambers, where it passes through the porous ferromagnetic filter nozzle 8 and 9, which is in the magnetic field of the electromagnetic system, and is cleaned of impurities. The purified medium is withdrawn from the separator via an outlet 7; The number of chambers is set depending on the flow rate of the medium to be separated. The presence of an additional chamber improves the separator's performance without increasing the dimensions, the radial location and tight attachment of the cores to the additional chamber and the mounting of the main chambers to the cores makes it easy to install and remove, if necessary, the magnetization cables, which are difficult in performing similar work requires disassembly of the entire separator.

Claims (1)

ELECTROMAGNETIC SEPARATOR, including a magnetic system with magnetizing coils and cores, vertically mounted cylindrical working chambers of the same diameter with a ferromagnetic filter nozzle, arranged symmetrically around the separator axis vertically, distribution pipelines, inlet and outlet pipes, characterized in that, in order to increase productivity , simplifying the installation and repair of the separator, it is equipped with an additional working chamber with a ferromagnetic nozzle, updated along the axis of the separator, and the cores of the electromagnets are placed (radially to the additional working chamber, the diameter of the additional and main chambers being in the ratio D / <3 = where D is the diameter of the additional working chamber; 8 - diameter of the main working ‘chambers, * P is the number of main cameras. FIG. 1 SU ..., 1061842