RU2020032C1 - Device for bottom-pour of metal to ingot and casting molds - Google Patents

Abstract

FIELD: metallurgy and foundry. SUBSTANCE: device has foundry fountain, ingot mold, plate with siphon guide in whose span bricks there are main and auxiliary outlet ports positioned symmetrically to vertical axis of ingot mold. The device is provided with even number of closed siphon guides positioned symmetrically to vertical axis of ingot mold. Distance L between axes of outlet ports of each pair of closed siphon guides is equal to 2-10 d of diameters of port. EFFECT: enhanced operating reliability. 3 dwg, 2 tbl

Description

 The invention relates to the field of metallurgy and foundry, and more particularly to devices for siphon casting of steel into molds and molds.

 A device for siphon casting of steel into end-to-end molds is known, comprising a center, ingot mold, a siphon tray with an outlet in its end brick. The outlet is placed along the axis of the mold. The mold is filled with a metal stream formed by the outlet hole of the end brick of the siphon wiring. (Yakovlev, Yu. N. The formation of surface layers of an ingot during the filling of through molds by the siphon method. Izv. Universities. Ferrous Metallurgy, 1958, N 3, p. 34-41). A disadvantage of the known device is that the metal stream formed by the hole of the end brick entering the mold, due to inertia forces deviates from the vertical position (in the direction "from the center"), which causes the washing off of the crystallizing crust of the ingot and, as a result, the formation of surface defects.

 A device is known for siphon casting of steel into end-to-end molds containing a center, ingot mold, a siphon drip tray, in the end brick of which an outlet is made, and the outlet is offset relative to the axis of the mold in the center direction (A.Funkin, A.P. Casting of round ingots through offset siphon gates .: Metallurgical and mining industry, 1960, N 4, p. 70-72). The disadvantage of this device is that the displacement of the mold relative to the outlet of the end brick of the siphon wiring does not reduce the degree of deviation of the upward stream of metal entering the mold from the vertical, which causes the washing off of the crystallizing crust of the ingot, and as a result, the formation of surface defects.

 The closest in technical essence to the invention is a device for casting metal, including molds, a sprue bowl, a distributor of liquid metal and siphon wiring, in the channels of which there are outlet openings, the cross-sectional area of which is larger than the cross-sectional area of the channels, in each channel an additional outlet with a radius equal to the radius of the siphon wiring, and the main and additional holes are equally spaced from the longitudinal axis of the mold at a distance of 1.5-2.5 radius of the channel of the siphon wiring with the ratio between the radii of the primary and secondary holes (1: 1) - (0.8: 1).

 A disadvantage of the known device is the low quality of the cast ingots.

 This is due to the fact that, due to the insignificant thickness of the span brick body, the height (h) of the channels of the outlet openings guiding the metal jets into the mold is insignificant. So, for span brick N 76 (GOST 11586-69. Refractory products for siphon casting of steel) h = 0.025 m with a channel diameter d = 0.05 m. The ratio h / d = 0.5. As hydraulic studies show, a rigid vertical ascending stream can be obtained only if the ratio of height to diameter of the channel of the hole is not less than h / d ≥ 4 (Lapitsky V.I. Some features of filling molds with mild steel. Proceedings of the NTO of ferrous metallurgy. M .: Metallurgizdat, 1955, v. 5, p. 93-100). Such an insignificant value of the ratio h / d = 0.5 leads to the fact that the solid inner surface of the channel of the outlet of the passage brick of the siphon wiring does not affect the formation of metal jets entering the mold. Due to the lack of influence of the rigid boundaries of the channel of the holes on the formation of ascending metal jets entering the mold upon receipt from the main and additional holes in the mold, the jets, while maintaining (under the influence of inertia forces) the direction of flow along the horizontal siphon wiring, deviate from the vertical one way - opposite to the supply. Due to the fact that the jets deviate in one direction, when they spread in the volume of the metal poured into the mold, the jets merge, the energy of the total jet increases sharply. Thus, the energy of the ascending jets is not mutually extinguished, convective flows are strongly developed. This phenomenon causes the washing off of the crystallizing crust of the ingot, its uneven crystallization both along the perimeter and in the height of the mold, the occurrence of local stress concentrations and, as a result, the formation of hot cracks. The implementation of the additional outlet in the siphon overhead wiring increases the unevenness of the flow velocity field in the mold and, as a result, leads to a decrease in the quality of the surface of the ingot for defects "hot crack".

 The essence of the invention lies in the fact that in the device for siphoning metal casting into molds and molds containing a center, mold, a siphon tray with spans, in the span bricks of which the main and additional outlet openings are placed symmetrically with respect to the vertical axis of the mold, an even number of closed siphon wiring arranged symmetrically with respect to the vertical axis of the mold, the distance L between the axes of the outlet openings of each pair of closed siphon wiring being (2-1 0) d - hole diameters.

 Filling the mold through an even number of closed siphon wires located symmetrically with respect to the vertical axis of the mold changes the mode of flow in the volume of metal poured into the mold. The deviation of the ascending jets of metal from the vertical, characterizing the process of filling the mold, when using a device of known design is eliminated. This phenomenon is explained by the mutual damping of the horizontal components of the velocity fields of each of the jets flowing towards one another during their interaction. The further propagation process of the generalized melt jet is determined by its generalized parameters. In this case, the local washing out of the crystallizing crust of the ingot, its uneven crystallization both around the perimeter and along the height of the mold, the occurrence of local stress concentrations and, as a consequence, the formation of hot surface cracks, are eliminated.

 The placement of closed siphon wires asymmetrically relative to the vertical axis of the mold does not provide complete mutual damping of the horizontal components of the velocity fields of each of the ascending jets and the elimination of washing out of the crystallizing crust of the ingot.

 The implementation of siphon wiring closed provides an increase in the flow characteristics of the device and, therefore, the rate of casting of metal in connection with a decrease in the resistance coefficient of a closed siphon wiring compared to flow. So, the drag coefficient of a closed siphon wiring is 2.5, while when using flow-through it is 4. (Yakovlev Yu.N., Karp S.F. and Davydov Yu.V. Assessment of the hydrodynamic conditions for filling molds with metal when using eight-seater pallets Steel casting into molds and ingot quality. M.: Metallurgy, 1984, p. 33-36).

 Performing more than one hole in the end bricks of each branch of the closed siphon wiring is impractical, since the initial velocity of the jet from the hole channel decreases, and therefore, the conditions for heating the metal mirror in the mold, and the marriage of ingots for defects such as "crust inversion" increases.

 It has been experimentally established that with a decrease in the distance L between the axes of the outlet bricks of the end bricks of the siphon wires less than 2d, the diameter of the hole, the significant kinetic energy of the jets causes the expansion of the total ascending metal stream in a plane perpendicular to the directions of supply of each of the jets, which causes the mold to crystallize on the side faces crusts of the ingot.

 An increase in the distance L between the axes of the outlet bricks of the end bricks of siphon wires more than 10d, the hole diameters, reduces the effect of mutual damping of the horizontal velocity components of each of the jets due to the significant increase in the amplitude of oscillations of their axial sections at such a significant distance from the outlet of the siphon wire.

The practical equality of the flow rates of the liquid flowing around the crystallizing crust of the ingot at the opposite center (v ₁ ) and side (v ₂ ) walls of the mold is observed at a distance (2-10) d between the axes of the outlet openings of the end bricks of the siphon wires (Table 1).

 In FIG. 1-3 shows a device for siphon casting of metal.

 The device includes a center 1, a mold 2, a pallet 3, siphon wiring 4 with end bricks 5 and exhaust holes 6 made therein.

 The operation of the device for siphon casting of metal is as follows. When the stopper (gate) shutter of the steel pouring ladle is opened, the metal enters the center 1 and through the siphon wires 4 of the end bricks 5 and the outlet 6 placed in the pallet 3 into the cavity of the mold 2. As a result of the interaction of the jets flowing from the outlet openings of the end bricks of the siphon wiring located symmetrically relative to the vertical axis of the mold, the deviation of the flow direction from the vertical is eliminated. Crystallization of the ingot crust occurs under identical conditions both in height and in the perimeter of the mold, which leads to an increase in the quality of the ingot and an increase in the yield (Table 2).

 Preliminary analysis shows that the implementation of the proposed device for siphon casting of metal will improve the quality of the ingot compared to the known solution and increase the yield due to a 10-15% reduction in rejects due to surface defects and increase the yield of the 1st grade.

Claims (1)

 A device for siphon casting of metal into molds and shapes, containing a center, mold, siphon wiring tray, in the span bricks of which are made the main and additional outlet openings placed symmetrically with respect to the vertical axis of the mold, characterized in that it contains an even number of closed siphon wiring, placed symmetrically relative to the vertical axis of the mold, the distance L between the axes of the outlet openings of each pair of closed siphon wires is (2 - 10) d - diameters tverstiya.

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