RU2125499C1 - Device for production of continuously cast deformed castings - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: device consists of casting vessel and mold with a pair of vertical faces capable of reciprocation and opposite pair of faces with expanded upper part and capable of rotary motion. Additionally, casting vessel is heated and has two chambers. Vessel bottom has uniformly spaced holes for melt spraying. The first and second chambers of casting vessel have holes of different diameters for spraying metal steams. In addition, lower part of casting vessel has turning grid with holes, while the second chamber is cylindrical and accommodates piston and motion drive. EFFECT: higher output of device; provision of production of solid blanks of arbitrary shape with location of more low-melting ductile metal of preset thickness over perimeter or in center of blank; higher operating reliability of the device. 2 cl, 2 dwg

Description

 The invention relates to metallurgy, in particular for the production of blanks from two sprayed metals.

 A device for continuous casting of preforms is known (RF patent N 2084310, B 22 D 11/04. A method for continuous casting of preforms and a device for its implementation. Publish. July 20, 1997 Bul. No. 20), comprising a filling container and a glass with a spray, installed in the working cavity of the mold, a pair of vertical faces of the mold is made with the possibility of reciprocating movement, and the opposite pair of faces of the mold is made with the possibility of rotational movement and has in the upper part an extended section with an angle of inclination α to the vertical, the sprayer is made in the form of a cone, on the surface of which holes for spraying the metal are evenly located, and its generatrix is parallel to the faces of the mold in the extended section.

 The disadvantages of the known device are the inability to obtain blanks from melts of various metals.

 The inventive device is aimed at creating a high-performance and resource-saving process for the production of workpieces from sprayed metals.

The technical result obtained by the implementation of the inventive device is:
1. increasing the productivity of the process of obtaining blanks;
2. obtaining continuous billets of arbitrary shape with the location of ductile metal of a given thickness around the perimeter or in the center of the billet;
3. improving the reliability of the device.

 The inventive device is characterized by the following essential features.

 Restrictive signs: filling capacity; mold; a pair of vertical faces of the mold is made with the possibility of reciprocating movement; the opposite pair of faces of the mold is made with the possibility of rotational movement and has in the upper part an expanded section with an angle of inclination α to the vertical.

 Distinctive features: a heated filling tank has two chambers; openings for spraying the melt are evenly located in the bottom of the container; in the first chamber, the diameter of the holes in the container for spraying jets along the perimeter of the mold bath d = 3-5 mm; in the second chamber of the vessel, the diameter of the holes for spraying a more fusible ductile metal into the center of the mold d = 1-2 mm; a lattice rotating with holes for supplying the melt from the casting tank; in the center of the casting tank there is a cylindrical chamber with a piston and a drive for extruding the melt.

 A causal relationship between the totality of the essential features of the claimed device and the achieved technical result is achieved in the following.

 The implementation of a heated casting tank with two chambers allows simultaneously and in strictly defined areas of the mold bath to produce sprayed melts. In addition, the need for two bottling tanks is eliminated. The heating of two metals is carried out simultaneously.

 Performing uniformly openings in the bottom of the casting tank ensures uniform atomization of the melt along the cross-section of the mold.

 The holes in the casting tank for spraying jets along the perimeter of the mold bath with a diameter of less than d <3 mm make it difficult for the melt to flow out of the tank when the level in it decreases, and it also leads to the tightening of the holes by crystallizing metal when the heating of the casting tank is disturbed.

 An increase in the diameter of the holes in the pouring container for spraying jets along the perimeter of the mold bath with a diameter of more than d> 5 mm leads to the probability of penetration of the crust on the upper expanded portion of the faces, as well as to uneven growth of the crust along the perimeter of the mold, which disrupts the formation of the preform.

 Filling holes with a diameter of less than d <5 mm in the casting tank to spray the fusible metal into the center of the mold leads to insufficient melt consumption and the need to increase the number of holes, which complicates the manufacturing technique of the casting tank and complicates the casting process.

 Filling holes with a diameter of more than d> 2.5 mm in the casting tank for spraying the low-melting metal into the center of the mold leads to an uneven distribution of metals and a clear boundary between them in the formed blank, which worsens the performance properties of the products.

 The presence in the lower part of the casting tank of a rotating lattice with holes ensures the supply of the melt to the mold at the right time, and also, if necessary, the termination of the casting process.

 The execution in the center of the casting tank of a cylindrical chamber with a piston and a drive ensures uniform and continuous extrusion of the melt through holes with a diameter of d = 1-2 mm with a decrease in level.

 In FIG. 1 shows the appearance of the inventive device, and in FIG. 2 is a section AA of FIG. 1.

 The inventive device of FIG. 1 and 2 consists of a heated casting tank 1 with outer 2 and inner cylindrical 3 chambers, in the bottom of which holes 4 and 5 are evenly spaced for spraying the melt, a working piston 6 with drive 7, a rotating grid 13 for discharging the melt with holes, a mold 14 s a pair of vertical faces 15 with the possibility of reciprocating movement and the opposite pair of faces 16 with the possibility of rotational movement. The actuator 7 consists of a gas chamber 8, in which a gas piston 10 is located on a common rod 9, nozzles 11 and 12 for supplying and discharging compressed air.

 In the outer 2 and inner chamber 3 of the heated casting tank 1, liquid metals are poured with certain overheating, eliminating the likelihood that the crystallized metal clogs holes 4 and 5. Before pouring the metal into the heated tank 1, the grate 13 is set to the position that the holes 4 and 5 overlap. camera 3 drive 7 is installed after pouring the melt before or during casting. A special seed device is installed in the mold 14, which excludes the pouring of the melt from it at the beginning of the process of forming the workpiece.

 The operation of the claimed device is as follows.

 From the outer 2 and inner cylindrical 3 chambers of the casting tank 1, the liquid metals through the openings 4 and 5 after turning the grating 13 with the holes enter in the form of streams on the working surfaces of the faces 15 and 16 of the mold 14, where they solidify and form the workpiece. After filling with melts of a certain level, the mold 14 is included in the work. In this case, the vertical faces 15 make a reciprocating movement, and the opposite pair of faces 16 - a complex rotational movement with compression of the sprayed metals and pushing the resulting workpiece from the mold.

 When the melt level in the cylindrical chamber 3 decreases, the actuator 7 is turned on. Air under pressure enters through the nozzle 1 into the gas chamber 8 and exerts pressure on the gas piston 10, while simultaneously moving the working piston 6 with the rod 9. The melt is extruded from the holes 5 under the pressure of the piston 6. At the end of the process, compressed air is supplied through the nozzle 12 into the chamber 8. The gas piston 10 with the rod 9 and piston 6 are moved to their highest position, freeing the chamber 3.

Claims (2)

1. A device for producing continuously cast deformable billets containing a casting container and a mold, while a pair of vertical faces of the mold is made with the possibility of reciprocating movement, and the opposite pair of faces of the mold is made with the possibility of rotational movement and has in the upper part an expanded section with an angle of inclination α to the vertical, characterized in that the filling container is made heated and has two chambers, in the bottom of which the holes are evenly spaced To atomization of the melt in the first outer chamber of the casting vessel diameter holes for the atomization of metal streams of the mold bath perimeter d ₁ = 3 - 5 mm and the second inner chamber of the casting vessel diameter orifices for spraying jets of a low-melting metal in the mold center d ₂ = 1 - 2 mm.  2. The device according to claim 1, characterized in that in the lower part of the casting tank there is a rotating lattice with holes, and the second chamber in the center of the casting tank is made cylindrical with a piston installed inside it and a movement drive.

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