RU2003111150A - DEVICE FOR INPUT OF REAGENTS IN METAL MELT AND ITS MIXING (ITS OPTIONS) - Google Patents

Claims (6)

1. A device for introducing reagents into the molten metal and mixing it, the working fluid of which contains at least one set of reagents, equipped with a jet propulsion device creating tangentially directed gas-liquid jets of molten reagents, and made in the form of a container with metal walls, which is the basis of the melt, or from the metals included in its composition, loaded with layerwise placed reagents with a melting point lower than the temperature of the melt, and the working fluid, which is a jet-vortex cm the carrier, concentrically located and rigidly fixed on the lower end of the vertical support, with the possibility of reciprocating movement in the vertical direction, the reagents are in the form of coaxially arranged groups of ring elements, each of which is made of a certain reagent, ring elements are placed concentrically on the support, and in each they are coaxially and / or tiered to the group, and one of the inner ring elements of the group is made of a reagent having an evaporation temperature lower than the rate A melt temperature, for example of magnesium, wherein the reagent container is placed in a housing having end disks covering the top and bottom of the container and being a heat shield for it, and the lower disk is provided with radial reagents turning into a spiral guide, evenly spaced and fixed on it , and which are, together with the heat shield, a swirler that forms channels for the outflow of reagents in the form of pulsed vortex jets acting on the processed melt as jet jets I, characterized in that the guide swirler are passing through the ring members from the group of the central portion to the periphery of the heat-resistant plate. 2. A device for introducing reagents into the molten metal and mixing it, the working fluid of which contains at least one set of reagents, equipped with a jet propulsion device creating tangentially directed gas-liquid jets of molten reagents, and made in the form of a container with metal walls, which is the basis of the melt, or from the metals included in its composition, loaded with layerwise placed reagents with a melting point lower than the temperature of the melt, and the working fluid, which is a jet-vortex cm the carrier, concentrically located and rigidly fixed on the lower end of the vertical support, with the possibility of reciprocating movement in the vertical direction, the reagents are in the form of coaxially arranged groups of ring elements, each of which is made of a certain reagent, ring elements are placed concentrically on the support, and in each they are coaxially and / or tiered to the group, and one of the inner ring elements of the group is made of a reagent having an evaporation temperature lower than the rate A melt temperature, for example of magnesium, wherein the reagent container is placed in a housing having end disks covering the top and bottom of the container and being a heat shield for it, and the lower disk is provided with radial reagents turning into a spiral guide, evenly spaced and fixed on it , and which are, together with the heat shield, a swirler that forms channels for the outflow of reagents in the form of pulsed vortex jets acting on the processed melt as jet jets I, characterized in that the guide swirler formed composite and have the form of the group passing through the ring members from the central portion to the outer periphery of the heat-stable elements with an internal filler, which is a reagent having a vaporization temperature lower than the melt temperature. 3. The device according to claim 2, characterized in that the outer elements of the swirl guide rails are two vertical plates installed with a gap between each other, filled with magnesium as a filler. 4. The device according to claim 2, characterized in that the outer elements of the swirl guide rails are shells filled with magnesium as a filler. 5. A device for introducing reagents into the molten metal and mixing it, the working fluid of which contains at least one set of reagents, equipped with a jet propulsion device creating tangentially directed gas-liquid jets of molten reagents, and made in the form of a container with metal walls, which is the basis of the melt, or from the metals included in its composition, loaded with layerwise placed reagents with a melting point lower than the temperature of the melt, and the working fluid, which is a jet-vortex cm the carrier, concentrically located and rigidly fixed on the lower end of the vertical support, with the possibility of reciprocating movement in the vertical direction, the reagents are in the form of coaxially arranged groups of ring elements, each of which is made of a certain reagent, ring elements are placed concentrically on the support, and in each they are coaxially and / or tiered to the group, and one of the inner ring elements of the group is made of a reagent having an evaporation temperature lower than the rate A melt temperature, for example of magnesium, wherein the reagent container is placed in a housing having end disks covering the top and bottom of the container and being a heat shield for it, and the lower disk is provided with radial reagents turning into a spiral guide, evenly spaced and fixed on it , and which are, together with the heat shield, a swirler that forms channels for the outflow of reagents in the form of pulsed vortex jets acting on the processed melt as jet jets i, characterized in that the swirl guides are heat-resistant plates passing through groups of ring elements from the central part to the periphery or are made integral, having the form of heat-resistant external elements passing through groups of ring elements from the central part to the periphery, with an internal filler, which is a reagent having a temperature evaporation is lower than the temperature of the melt, while the sets of reagents are located on a support one above the other with the possibility of replacing or eliminating any first of them. 6. The device according to claim 5, characterized in that the sets of reagents of one working fluid are made with different sizes of height and / or outer diameter.