CH664310A5 - METHOD AND APPARATUS FOR MANUFACTURING MOLDS FOR THE CONTINUOUS MOLDING OF METALS. - Google Patents

Description

DESCRIPTION

The subject of the present invention is a method and an apparatus for manufacturing molds for the continuous molding of metals with a high melting temperature, in particular iron and steel, the molds being of angular cross section preferably square, rectangular or octagonal. or of circular section, and constituted by copper or copper alloy tubes, the preferred form of the mold being that in an arc of a circle.

In the continuous casting of steel and iron, a well-known method consists in using molds formed from one or more parts. The one-piece molds consist of a cylindrical or prismatic tube, for example of deoxidized copper, which has proved suitable for this use because of its high thermal conductivity.

The mold of the circular arc type is already known and its manufacturing methods are described for example in Finnish patent No. 49479 where a long curved mandrel is pressed into the metal tube serving as initial draft, after which the tube is cold worked by pressing the tube and the mandrel through a compression collar and finally pressing the mandrel out of the tube. Among other known methods, there are those described in German patent application No. 2533528 and in US patent No. 4220027, where curved molds are made using explosion formation. Another known method is that described in Swedish patent application No. 8105474-4 in which a tube is pulled through an opening formed by a drawing die and a stopper, the circular movement being printed using a specific guide.

If the molds are made by first pressing the mandrel into the tube and then working the tube cold, the outer surface of the mold undergoes greater deformation than its interior and, when the mandrel is then removed from the tube, there is danger that the interior will be scratched, which may require repair of the interior surface, in particular of the corners, by mechanical means.

If explosion formation is used, the production of the molds must be carried out by complex processes in several separate stages, since the tubular blank to be formed by explosion must receive approximately the correct curvature before applying the training process. If an internal mandrel is used during explosion formation, the tube may be scratched or damaged to an extent comparable to the case described above.

By using the method and the apparatus according to the present invention, it is possible to avoid the difficulties arising in particular during the withdrawal of the mandrel.

The process for manufacturing bent tubular molds is described in the characterizing part of claim 1, and the apparatus for carrying out this process is described in claim 6.

Thanks to the method and to the apparatus according to the invention, it is possible to manufacture molds having a good constancy of dimensions, a good surface quality and a hardness sufficient for the subsequent use of the mold, in particular as regards the interior surface.

The attached drawing shows, by way of example, two embodiments of the device:

FIG. 1 is a simplified view, in elevation, of the apparatus according to the invention,

FIG. 2 is an end view of the same device,

FIG. 3 is a sectional view of the apparatus, through the matrix,

and Figure 4 is a schematic view from above of another preferred embodiment of the apparatus.

It appears from FIGS. 1 and 2 that the main part of the apparatus consists of the matrix support comprising at least two separate parts 1 and 2, and in which the matrix itself is located, also comprising at least two parts 3 and 4. The dimensions of the die 3, 4 correspond, in cross section, to the external dimensions of the finished tubular mold and, in longitudinal section, to the dimensions of the molding radii of the continuous molding machines and of the mold. The displacements of the die and of the die support are adjusted using a conventional power unit 5 which can be, for example, mechanical, pneumatic, hydraulic or the like. In the case shown in the drawing, the lower half 4 of the matrix and the lower half 2 of the matrix support 2 are fixed and are fixed to a table 6 itself fixed to a base 7 of the device. The supports of the power unit,

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664,310

same as guide slides 9 of the upper half of the die support, are fixed to table 6.

Figure 3 is a detail view of the die 3, 4 and the tubular blank 10 disposed therein. The first operation consists in giving the tubular blank 10 an almost correct curvature by pressing the die parts 3 and 4 against each other. The second operation consists in cold working the blank 10 by expanding and stretching it by the passage of one or more plugs 11 whose external dimensions are somewhat greater than the internal dimensions of the tubular blank, the blank being placed in J0 matrix 3,4 during the drawing of the plug (s). The plug is fixed to the curved rod 12. The trajectory of the plug 11 and of the rod 12 is located in the vertical plane. By working it cold, the correct dimensions are given to the tubular mold, which receives the desired relatively high hardness, that is to say about 70 to 100 kg / mm 2. 15

As shown in Figure 1, the pulling movement of the plug is exerted by a conventional drive unit, such as a hydraulic cylinder 13, the piston rod 14 of which is fixed to the pulling carriage 15 moving along a rail guide 16, in an arc. In this case, the movement in an arc of a circle which characterizes the invention is obtained using guide rails in an arc of a circle which can be replaced and manufactured with various molding radii corresponding to the different molds. The cradle 17 of the guide rails can be positioned at the desired inclination using the devices 18, 19 for adjusting the height and the inclination. In Figure 1, the guide rails and their support structures are arranged below the plug and the plug rod, but it is clear that they could be placed above.

Figure 4 illustrates another preferred embodiment of the invention. The apparatus can also be made so that the trajectory of the plug inside the tubular blank, during the stretching operation, is located in the horizontal plane. The matrix 3,4 and its support 1, 2 are fixed to a table 6, which can be moved around the center of rotation 20 of the device and brought to the position determined by the mold radius of the mold. In this case, the plug rod 12, 12 ′ is made up of two parts and can be moved with the body 22, 22 ′ using the support 21, and brought into the position determined by the mold radius of the mold. The stretching operation is carried out so that the body 22, 22 ′ is subjected to a partial rotational movement around its center 20.

The tubular mold is finished after its removal from the matrix.

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2 sheets of drawings

Claims (11)

664,310 1. Method for manufacturing bent tubular molds of copper or copper alloys, in particular molds of the circular arc type and intended for use in continuous billet molding machines, the molds being formed from a blank tubular produced by molding, hot extrusion or drawing, characterized in that a tubular mold blank, the external and internal dimensions of which are smaller than those of the finished tubular mold, is bent using a matrix adapted to the dimensions outside of the finished mold, and in that the curved tubular blank is cold worked by pulling at least one plug through it so as to expand it, and so that the trajectory of the plug corresponds to the curved axis of the mold , whereby the outer surface of the blank is pressed against the die and the inner surface of the blank is worked cold so as to take the dimensions of the plug, and in that ultimately the mold tubular is removed from the die and subjected to finishing operations. 2. Method according to claim 1, characterized in that the external dimensions of the plug are larger than the internal dimensions of the blank. 2 3. Method according to claim 1, characterized in that the radius of the circular path of the plug is adjustable. 4. Method according to claim 1, characterized in that the trajectory of the plug is arranged in a vertical plane. 5. Method according to claim 1, characterized in that the trajectory of the plug is arranged in a horizontal plane. 6. Apparatus for manufacturing molds of copper or copper alloys, for implementing the method according to claim 3, characterized in that it comprises a matrix intended to be pressed around a tubular blank (10), and formed of at least two parts (3, 4) and provided with a support in two parts (1, 2) whereby at least one of the parts of the matrix and of the support can be moved along the guide rails guide (9), using a power unit (5), and a plug (11) provided with a plug rod (12) which are arranged to move inside the tubular blank (10), along a trajectory in the shape of an arc of a circle. 7. Apparatus according to claim 6, characterized in that the circular arc movement of the plug (11) is obtained by fixing the pulling carriage (15) of the power unit at the end of the rod (12) plug so that it moves along a guide rail (16) in an arc. 8. Apparatus according to claim 7, characterized in that the guide rails (16) and their support structures (17) are arranged below the path of the plug (11) and the stem (12) of the plug. 9. Apparatus according to claim 7, characterized in that the guide rails (16) and their support structures (17) are arranged above the plug (11) and the plug rod (12). 10. Apparatus according to claim 6, characterized in that the circular arc movement of the plug (11) is obtained using a body (22, 22 '), to which the rod (12, 12') of plug in two parts is fixed using supports (21), this so as to be able to pivot in a partial rotational movement in the horizontal plane and around its center. 11. Apparatus according to claim 6, characterized in that the matrix (3, 4) and its support (1, 2), which are fixed to a table (6), can move radially to adapt to the molding radius of the mold in each particular case.