SU929292A1 - Method of producing hollow parts and female die for performing same - Google Patents

Description

(54) METHOD FOR OBTAINING EMPTY PARTS I. MATRIX FOR ITS IMPLEMENTATION

I

The invention relates to the processing of metals by pressure, in particular, to methods and devices for pressing cavities and can be used to obtain articles of the type of glasses with a shaped side surface.

A known method of closed stamping of hollow parts from solid blanks, in which the blank is placed in the stamp and stitched, affects its central part, is pierced before a jumper is formed, which at the next step (transition) is cut and expanded.

The disadvantage of this method is that after crossing the jumper, a burr 1 1 is formed, which leads to the manufacture of a complex expensive tool or an additional operation for deburring the burrs.

The closest to the present invention is a method for manufacturing hollow parts, which consists in

The billet is placed in the matrix and sequentially slumped (calibrated), washing and punching the hole in the bottom part, followed by machining the chamfer on the hole of the outer surface of the bottom of the blank G22.

The disadvantages of the method include the fact that the cut surface is obtained with a large roughness and distorted geometric dimensions, and the fact that the burr formed on the outer surface of the bottom of the workpieces when punching a hole degrades the quality and geometry of the surface of the strips when cutting internal threads due to distortions arising from installation in the device with basing on the bottom.

In addition, the formation of burrs

promotes sticking of waste to the punch.

The purpose of the invention is to improve the quality of processing. 392 This goal is achieved in that according to the method of producing hollow parts, comprising installing a die into the die cavity and carrying out successively upsetting, washing and punching before a hole is formed in the bottom part, simultaneously with the punching, a facet is formed on the outer bottom part. waste. At the same time, to implement the proposed method, a matrix is proposed containing a cutting part in the form of conjugated conical and cylindrical stitches and provided with a forming annular ledge made at its end in the form of a wedge rib with an inner conical surface passing into a single cut along juice B the process of pressing the workpiece to the matrix and the penetration of the punch into the thickness of the bottom leads to the pressing of the wedge. spur of the matrix into the bottom of the workpiece from the outside along the outer configuration of the punch. In this case, the metal of the workpiece is displaced to the cutting edges and the stress state of volumetric compression is created, which predetermines the final piercing with improved cut surface quality and without the formation of burrs. In a matrix with an annular protrusion and a cutting part, a complete two-stage, consisting of cylindrical overhang and tapering when pushing the waste through the cutting part, additional deformations of the waste occur, causing an increase in its size as it leaves the cylindrical through, which ensures removal of the waste from the punch at reverse course. FIG. 1 shows schematically the matrix; in fig. 2-4 - technological transitions of manufacturing the part; in fig. 5 is a diagram of punching a hole with simultaneous chamfering on it from the outside of the part. The matrix contains an annular protrusion 1, a cone cutting juice 2, mating with a cylindrical shape 3. The annular protrusion 1 has the shape of a wedge rib with an outer 4 conical surface and an inner 5. The cone angle of the outer surface 4 and its height is determined by the angle and height the chamfers of the hole, which ensures the elimination of burrs along the contour of the hole. The taper of the outer surface 4 is in the range of 30-60, and the inner surface is 5-2-7 °. The conical cutting of juice 2 of the matrix is a continuation of the inner conical noBeipxHOCTH 5. protrusion 1 and is intended to prevent the formation of cracks from the lower bottom of the workpiece. Its taper depends on the physical properties (nperffe fluidity, strength, hardness) of the material being processed. Example. Inspired and proshi-. A second workpiece, for example a cap nut, is placed on the ring with a bottom, protrusion of a matrix with a revolving disk of a multi-position stamp (not shown). Inside the blank, the input B is a punch 6, which with its thickened part centers the blank against the die. When the working end of the punch 6 reaches the bottom of the workpiece, at last the metal of the workpiece is pressed in by the annular protrusion 1 along the outer configuration of the punch 6 from the outside and when a certain counterpressure is reached from the die side, the punch 6 is pressed into the workpiece from its inner side (position a). Upon further loading of the punch 6, the material being removed moves along the conical surface 5, cutting conical in Scu 2, and when the ductility of the metal of the workpiece is exhausted, there is a cut of waste 7 across the entire bottom thickness and pushing it through the cylindrical juice 3 of the cutting part of the matrix (position b) . In so doing, the waste 7 is subjected to additional deformation. Then, with a reverse press, the mold punch 6 is removed from the die cavity and the workpiece. In this case, the separation of the waste 7 from the punch 6 occurs due to the wedging of forces between the waste 7 and the cylindrical array 3 of the matrix. Thereafter, the part is removed and the cycle is repeated. Using the proposed method, as compared with the known one, implemented using the proposed matrix for producing hollow parts, will allow to improve the quality of processing, as well as reduce the laboriousness of manufacturing and metal consumption by eliminating the chamfering operation.

Claims (2)

Claim 1. The method of obtaining hollow parts, which consists in the fact that the cylindrical billet is installed ₅ in the cavity of the stamp and carry out sequentially draft. piercing and punching until a hole is formed in the bottom of the hole, characterized in that, in order to improve the quality of processing, simultaneously with punching, a chamfer is formed on the outer surface of the bottom of the part along the exit cut line. 2. A matrix for producing hollow and hollow parts, containing a cutting part in the form of a conjugate conic 12 of the 6th and cylindrical belts, characterized in that it is provided with a forming annular protrusion made on its end face in the form of a wedge rib with an internal conical surface turning into a conical cutting zone.