SU1697952A1 - Method of stamping large-size workpieces - Google Patents

Abstract

The invention relates to the processing of metals by pressure, in particular to methods of forming large-sized parts such as blades. The purpose of the invention is to improve the quality of the parts produced. The part is made in two transitions, forming a part in the transverse geodesic line on the workpiece during the initial bending, and then the semi-finished product is stretched, basing it on the specified section 3 of the mud.

Description

The invention relates to mechanical engineering and can be used in the manufacture of large-sized parts by stamping in presses, in particular, in the manufacture of impeller blades of radial-axial hydraulic machines from flat profiled or sheet blanks,

The purpose of the invention is to improve the quality of the parts produced.

Figure 1 shows the working surface of the matrix of the main, secondary die for stretching the blade, the plan (AB geodesic line drawn on this surface in the area corresponding to the area of greatest thickness of the calculated part, connecting the points on the periphery of the matrix corresponding to the rim and hub points) ; Fig. 2 is a view of the working surface of the matrix of the primary bending punch, equal, up to movement, to the developable surface in contact with the surface of the secondary punch along the AB line (the AB line on the surface of the primary punch corresponds to the geodesic line А В); Fig. 3 shows a flat profiled blade blank, a plan (the flat surface of the blank is isometric to the working surface of the matrix of the primary stamp; line А В corresponds in isometric to the flat surface of the blank in the molar segment AS extended in the region of the greatest thickness of the blank).

The method is carried out as follows.

A secondary stamp is made, a geodesic line AB (Fig. 1) is drawn on the working surface of the die matrix, and a developable surface is built in contact with the surface of the matrix along this line. A primary stamp is made with a working surface of the matrix equal to, up to the movement of, the indicated turning surface (Fig. 2); On the surface of the matrix mark the geodesic line АВ, corresponding to the line АВ. They profile and make a flat-convex billet of the blade (Fig. 3): during the profiling it is assumed that the flat surface of the blank is isometric to the working surface of the matrix.

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primary stamp; According to the isometry of the line АВ, the rectilinear segment AB is on the flat surface of the workpiece. Next, the blade is molded flexible. When bending in the primary stamp, the blade blank fits the unfolding matrix surface and segment AB isometrically deformed into the AB line. When the obtained part is placed into the secondary stamp, the curved segment AB takes the position of the AB line. During the secondary stamping, the areas on the workpiece lying on opposite sides of the vicinity of the curved segment AB are stretched, the vicinity of the segment assumes the calculated configuration, and the workpiece as a whole fits the surface of the matrix and takes the form of a blade.

Example. The first stage. The primary flat convex billet is made, marking on it the corresponding straight-line segment AB. The primary blank is placed in the primary stamp, aligning the two corresponding isometric points of the lines AB and A1 B, and combining the tangent directions of the lines at these points. Bending is performed in which the segment AB is isometrically deformed into the line AB,

Manufacturing of parts - secondary stamping.

The part obtained in the first stage is considered as a secondary blank - a blank for secondary stamping, while the vicinity of the bending zone already has the dimensions and shape of that of the design part. The secondary blank is placed in the secondary stamp, combining congruent geodesic lines. Secondary punching-drawing is carried out, while the vicinity of the geodesic line practically does not undergo deformations, and the areas on the workpiece on both sides of this vicinity acquire dimensions and shape, as in the calculated part.

Combined lines are called centering lines. In this case, the action of centering is that throughout the whole process of stamping, the centering lines remain stationary, pointwise coinciding with each other.

For the deformation process, this action, when shaping the areas of the workpiece on opposite sides of the centering line, plays the role of a boundary condition. The result of the secondary stamping is

getting calculated details.

Claims (1)

The invention of the method of forming large-sized parts, mainly of the blade type, consists in the gradual deformation of the workpiece by bending at the first stage and forming it at the second stage, characterized in that, in order to improve the quality of the parts, at the first stage of bending, corresponding to the profile of this area in the finished product and located in the zone separated from the opposite lateral sides of the workpiece, and at the second stage the molding is carried out by stretching the semi-finished product, it on said portion. / & ш.5