RU96112995A - METHOD FOR PROCESSING SLAG-GRAPHITE-METAL WASTE METALLURGICAL PRODUCTION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (7)

1. A method of processing slag-graphite-metal wastes of metallurgical production, including crushing, accumulation and collection of waste, their subsequent selection, dispersion, sorting by fractions and moving to magnetic separation, characterized in that the selection of slag-graphite-metal wastes is carried out with a vacuum cleaner, providing the selection of material with a fraction of 0-10 mm, the material is precipitated and suspended graphite is separated, and the remaining material is treated by aeration, the scales adsorbed on the surface of the metal particles are separated and removed thinned graphite, after which the remaining slag-metal mixture is transferred to magnetic separation.  2. The method according to p. 1, characterized in that before the selection of waste and / or in the selection process, the material is further loosened.  3. The method according to claim 2, characterized in that the material is loosened by explosions.  4. The method according to p. 2, characterized in that the material is loosened pneumatically or hydraulically.  5. A device for processing slag-graphite-metal wastes of metallurgical production, comprising a collection pit connected in a technological sequence by vehicles, a means for selecting and moving the material, a grinding, dispersion and sorting station, an electromagnetic separator, characterized in that it further comprises a precipitation chamber, storage hopper and aeration separator, and as a means of selecting and moving material - a vacuum cleaner with a transport capacity, a precipitation chamber with It is connected to a vacuum cleaner and an aeration separator and equipped with a nozzle installed in its upper part for drawing precipitated carbon into the storage hopper, and the aeration separator is equipped with an exhaust umbrella connected by a storage hopper and a manhole for feeding material to the electromagnetic separator, while the precipitation chamber, storage hopper and aeration a separator is installed between the vacuum cleaner and the electromagnetic separator.  6. The device according to claim 5, characterized in that the precipitation chamber is mounted on the top cover of the aeration separator.  7. The device according to p. 5, characterized in that the hatch for feeding material to the electromagnetic separator from the aeration separator is made in the form of a check valve with a counterload.