SU393018A1 - TOOL FOR FORGING - Google Patents

Description

This invention relates to the field of metal forming. A known tool for forging, comprising upper and lower strikers with notches, and working surfaces inclined to the plane of the connector. However, when the workpiece is deformed with this tool, a predominantly longitudinal metal flow occurs, accompanied by a noticeable fiber formation and anisotronium of the metal. In order to improve the quality of forgings and increase the versatility in the proposed tool, the side surfaces of each striker are located crosswise. In addition, the side surfaces of the same name can be arranged in parallel, with a different inclination to the plane of the connector, with a mirror inclination relative to the plane of the connector, or inclined in different directions with a different angle of inclination to the angle of the connector. FIG. Figures 1–4 show the variants of the proposed forging tool. The tool (Fig. 1} contains the upper 1 and lower 2 cut-out strikers. The side working surfaces 3 vi 4 of each striker are located cross-wise. The workpiece 5 is fed under the strikers and crimped in the vertical direction. When the side surfaces 3 act on the workpiece, one part of the hearth the deformation is rotated in the direction indicated by arrows a, and the friend on which the side surfaces 4 act - by arrow b, i.e. simultaneously with a single high-pressure crimping of the workpiece, plastic shear is produced by turning one part of the deformation region and relative to the other, which avoids unidirectional 13-fiber formation, as well as reduces the metal anisotropy of the forging and improves the development of the metal in the zones of the workplace deformations. Forgings up to arbitrarily small cross-section with unlimited compression per one working stroke. When the workpiece is deformed by the tool shown in FIG. 2, a single vertical reduction with simultaneous rotation also occurs, one part of the deformation zone relative to the other, but the vertical reduction in the cross section of the workpiece is different with a single reduction. The difference in reductions is eliminated in the second pass after turning through 180 °. This allows

t-more to reduce the anisotropy of the metal forgings.

When the workpiece is deformed by the tool shown in FIG. 3, simultaneously with the high-rise compression, a shift of parts of the deformation zone in the horizontal direction occurs, which also reduces the anisotropy of the metal of the forging.

When forging with the tool depicted on fpg. 4, in the course of a single vertical reduction, separate parts of the deformation zone are subjected to additional shear displacements — rotation in the horizontal direction, which ensures that the main deformation of the workpiece coincides with the height with an additional plastic shift in a plane perpendicular to the longitudinal axis of the workpiece.

Subject invention

Claims (5)

1. A forging tool containing a top BOT and bottom jigs with cutouts having inclined to the plane of the connector, the working side surfaces, characterized in that, in order to improve the quality of forgings, the side surfaces of each striker are arranged cross-wise. 2. A tool according to claim 1, characterized in that the like side surfaces of the heads are parallel. 3. The tool according to claim 1, characterized in that the like side surfaces of the strikers are located at different angles of inclination to the plane of the connector. 4. The tool according to claim 1, characterized in that the like side surfaces of the dies are arranged with a mirror inclination relative to the plane of the connector. 5. The tool according to claim 1, characterized in that the like side surfaces of the strikers are inclined in different directions with a different angle of inclination to the plane of the connector. 12 . -ii f /