SU1130404A1 - Cyclone - Google Patents

Abstract

CYCLONE, containing a cylindrical housing, inlet and outlet nozzles, a magnetic system and a central bunker, characterized in that, in order to increase the efficiency of dust collection by simultaneous separation of the ferromagnetic fraction, it is equipped with a casing, additional hoppers for collecting ferromagnetic pypi, slit the traps made of non-magnetic material, located on the inner surface of the casing in the direction of gas flow and connected to additional bunkers, the magnetic system is made of the permanent magnets with oppositely alternating poles 3 mounted on the casing, established kontsentrnchno outside of the housing rotatably toward the flow of gas in the cyclone. & 0 about 4; About 4

Description

The invention relates to the purification of gases from dust containing a ferromagnetic fraction, and can be used in the metallurgical, mining, ore-dressing, engineering and other industries. A cyclone is known for cleaning the process gases of metallurgical enterprises from dust containing ferromagnetic fractions. consisting of a casing with a hopper, inlet and outlet nozzles with electromagnetic coils placed on them, a block of ferrite magnetic concentric rings. The outlet pipe is equipped with a thermal jacket with a wick placed inside and a heat exchanger mounted on the upper end of the outlet pipe. A disadvantage of the known cyclone is that the installation of magnetic elements in the cyclone outlet pipe practically does not allow the collected dust to be removed from it. The closest in technical essence to the present invention is a cyclone comprising a cylindrical housing, a valve, an inlet and an outlet, an electromagnetic system, a bunker. The cylindrical part of the cyclone body is made of alternating sectors of magnetic and non-magnetic materials with a total area of sectors of magnetic material constituting 50-80% of the surface area of the outlet nozzle G2. A disadvantage of the known cyclone is that the settled dust particles In places corresponding to their greatest inhomogeneity of the magnetic field, increase the hydraulic resistance of the cyclone, as a result of which the magnetic forces weaken, which affects the efficiency of dust collection. The aim of the invention is to increase the efficiency of the curing process by simultaneously extracting the ferromagnetic fraction. The goal is achieved by the fact that a cyclone containing a cylinder-conical case, inlet and outlet nozzles, a magnetic system and a central bunker are provided with a casing, additional hoppers for collecting ferromagnetic dust, slotted traps made of non-magnetic material located on the inner surface of the case in the direction of gas flow and connected to additional bunkers, the magnetic system is made of permanent magnets with oppositely alternating poles mounted on the casing, installed m concentrically on the outer side of the housing with the possibility of rotation towards the gas flow in the cyclone. Figure 1 shows the proposed cyclone, a General view; in Fig. 2, section A-A in Fig., I. The cyclone consists of a housing 1, the cylindrical part of which is made of a non-magnetic material, with an inlet 2 and an outlet 3 with nozzles, inside of which are slotted traps 4 made of a non-magnetic material, located in the direction of flow of dusty gas, connected in the lower part with separate dust collecting bins 5 for ferromagnetic dust and central bunker 6 for collected dust in a cyclone. A magnetic system is installed on the outer side of the case, which is made in the form of a movable casing 7 with permanent magnets 8 attached to the inside with oppositely alternating poles, which rotate around the body towards the gas flow in the cyclone by means of a drive 9. This performance of the cyclone when the slotted traps are directed along the direction of the gas flow, the magnetic system is mounted on the non-magnetic body of the cyclone and rotates against the gas flow, leads to the fact that the dust deposited on the inner walls of the non-magnetic cyclone prot in the magnetic poles, is moved together with the magnets enters the gap traps and upon further. The motion of the magnets is poured into bins for a ferromagnetic pshi. The cyclone works as follows. The dusty gas stream enters through the inlet nozzle 2 into the separation zone of the cyclone, where under the action of inertial and magnetic forces, all the dust particles are displaced to the inner surface of the cylindrical part of the housing 1. Ferromagnetic dust accumulates in the most heterogeneous magnetic field, and the rotation by means of the actuator 9 the casing 7 of the magnetic system moves it behind the poles of the permanent magnets 8 in the right 3 and 3 left traps 4 where it settles into the bunkers 5. The rest of the dust, moving in a spiral downward cyclone, is poured into the bunker 6. Purified gas from dust is removed from the cyclone through the outlet 3. The technical advantage of the proposed cyclone is the possibility of separating the collected dust into ferromagnetic and non-ferromagnetic and collecting it in different bunkers. it allows, in addition to air purification, its separation. The application of the proposed cyclone makes it possible to obtain a significant social effect, since its use will make it possible to reduce industrial emissions, improve the state of the atmosphere, and also improve the sanitary and hygienic working conditions of workers.

Claims (1)

A CYCLONE containing a cylindrical-conical housing, an inlet and an outlet nozzle, a magnetic system and a central, hopper, characterized in that, in order to increase the efficiency of dust collection by simultaneously separating the ferromagnetic fraction, it is equipped with a casing, additional hoppers for collecting ferromagnetic dust, slot traps made of non-magnetic material located on the inner surface of the housing in the direction of gas flow and connected to additional hoppers, the magnetic system is made of permanent magnets with alternating poles oppositely fixed to the housing, concentrically installed outside of the housing rotatably toward the flow of gas in the cyclone. 1 1130404