SU687331A1 - Vacuum apparatus for purifying metals - Google Patents

Description

The invention relates to the field of non-ferrous metallurgy, in particular, to devices for the vacuum refining of heavy non-ferrous metals, such as lead. Known vacuum apparatus for cleaning metal, having a sealed housing with an evaporator and a condenser, installed under the evaporator, an inductor running magnetic e-mail, supply and drain metal lines and a container for refined metal 1 J. In this device the body is cylindrical, and the evaporator is in the form of a plate. The drawbacks of the apparatus are the need for special heaters for heating the drain metal conduit, as well as the complexity of its maintenance / The purpose of the invention is to increase the economics of the apparatus and to provide ease of operation. For this purpose, in the proposed apparatus, the housing is made in the form of a closed overhead chute, and the drain metal pipeline is provided with a siphon installed in the vessel for the metal being refined, in addition, the apparatus is equipped with electrodes installed in the chute at the ends of the inductor. FIG. 1 schematically shows the proposed apparatus; in fig. 2 is a section A-A in FIG. 1. The apparatus has a tank 1 for refined metal, a closed inclined chute 2, the bottom of which serves as an evaporator, a condenser 3 and a refrigerator 4. Under the plates 5 of the condenser 3 are placed the grooves 6 for collecting condensate tilted in the direction of the overall condensate collector chute 7. Trench 2 it is equipped with a pipe 8 for the input of refined metal and a pipe 9 for the output of the metal to be refined, as well as a metal pipe U for draining condensate. The material of the gutter 2 may be graphite. Under chute 2 is installed inductor 11 running magnetic field, which

raises the metal along the bottom of the gutter 2, prodogrevoeog and: mixes it ,.

The input and output of the metal to be refined are connected to the tank 1 for the metal to be refined and form, together with the channel 2, a closed circulation loop. In chute 2, electrodes 12 are installed at the ends of inductor 11 to intensify the process of mixing and evaporation. The electrodes 12 are connected to an external power source (not shown).

Drain metal pipeline 10 is provided with a siphon 13, immersed in the tank 1 with the metal to be refined. Due to this, there is no need for special means for heating the drain metal pipe Y. Trough 2 by nozzle 14 is connected to a vacuum system (not shown).

The device works as follows

When the vacuum apparatus is placed in the tank 1 with the metal being refined and connected to the vacuum system with the aid of the nozzle 14, the metal rises along the nozzles 8 and 9 and partly along the channel 2.

When power is connected to the windings of the inductor 11, a traveling magnetic field is created. Under the influence of a magnetic field, the metal rises along the chute 2 in a uniform thickness layer. When this occurs, the evaporation of the components of the refined metal, heated to a certain temperature. The metal at the bottom of the chute 2 is additionally heated from the heat generated by the inductor 11, and the evaporation process of the metal being refined, for example, the separation of lead from zinc, is more intense. The intensification of the evaporation process is also promoted by the mixing of the metal being refined, due to the circulation circuit: 1 outlet 8 - bottom of the groove 2 - connection 9 capacity 1.

In addition, due to the effect on the metal being refined, located at the bottom of the chute 2, an electric field.

created by electrodes 12, the process of mixing and evaporation of the metal is even more intense.

The metal vapors are lifted and when co5 is touched with the plates 5 cooled by the cooler 4, they condense, stack along the grooves 6 into the common condensate collector — chute 7. Then the refined metal is drained by drain metal 10 through the siphon 13 heated by the refined metal to the spill 13.

The metal remaining at the bottom of the gutter 2 flows down the pipe 9 back into the 5th bone 1.

In the proposed vacuum apparatus, an increase in its efficiency is achieved due to the provision of heat recovery in the apparatus and the intensification of the evaporation process. The device is convenient in operation, has a relatively small size, provides the possibility of autonomous use.

Claims (2)

1. Vacuum apparatus for cleaning metal, having a sealed case with evaporator and condenser, installed under the evaporator an inductor of a traveling magnetic field, supply and drain metal pipes and a tank for refined metal, characterized in that, in order to increase efficiency and provide ease of operation, the casing is designed as a closed inclined chute, and drain The metal pipe is equipped with a siphon installed in the vessel for the metal being refined. 2. An apparatus according to claim 1, characterized in that it is provided with electrodes installed in a groove at the ends of the inductor. Sources of information taken into account in the examination 1. USSR author's certificate No. 450946, cl. From 22 to 9/04, 1972. L / E J 1