DE1011380B - Multi-part pit stamp - Google Patents

Description

Multi-part pit punch The invention relates to a multi-part Pit punch with polygon profile inner punch as well as two torque tendons encompassing these according to patent application G 18753 VI / 5 c and aims to further improve the stamp after the main patent application.

The pivot axis of the clamping rings coincides approximately with the longitudinal axis of the punch together. With polygon profile (e.g. square, hexagonal) inner punches, i.e. those Profiles in which the clamped polygon side surfaces do not have the swivel radii included, such as B. Kreuzprof 1e, so access through the clamping rings on the The forces applied to the inner punch on its longitudinal edge are not applied in the normal direction on the sides of the polygon, but within the cone of friction that is normal to the side of the polygon stands, d. H. at an acute angle to the corresponding polygon side. These forces result in a component in the normal direction of the polygon surfaces that is responsible for the punch sink resistance is determinative, as well as an undesirable horizontal component, according to the invention a remedy is now provided in this regard, namely that for each side of the polygon a pressure piece for the installation of the tendons is provided, its height according to Selected according to the total height of all tendons and at least approximated its width is equal to the length of the relevant polygon side. This is how each act two horizontal components of the two tendons arranged one above the other in opposite direction on a pressure piece as internal forces. as effective clamping forces for the upper punch then only normal forces remain, d. H. Forces acting normal to the sides of the polygon, which are responsible for the generation of the punch sinking resistance only matter. It follows that it is easily possible to form each pressure piece in several parts, z. B. from two longitudinal strips, which in the transverse direction are connected to one another in a tensile manner.

In the drawing, the invention is explained using an exemplary embodiment, namely, Fig. 1 shows a ram lock in longitudinal section, Fig. 2 section in the direction II-II according to FIG. 1 and FIG. 3, the representation of the acting on a pressure piece Powers.

The two torque tensioning members 3a, 3b, 4 are mutated opposing torques are braced around the longitudinal axis of the punch with the inner punch l. The torque is generated by the force of the wedge 7. Between the tendons and a pressure piece 16 is provided for each of the polygon sides of the inner punch. The pressure piece height corresponds to the total height of all tendons, which is the width as large as the width of the polygon sides. So grab each pressure piece 16 at the same time both tendons 3 a, 3 b, 4, and that exercises the tendon 4 by one-sided Pressure on the polygon surfaces to produce a left-turning moment. The moment of reaction is received by the parts 3a, 3b of the other tendon. Every pressure piece 16 is supported by projections 17 on the two tendons 4, 3 b. Sufficient but would also be a support on the tendon part 3 a. As can be seen from Fig. 2 results, these tendons attack on one side of the pressure pieces and encompass the pressure pieces outside the attack points with play. This training enables a sure robbery of the stamp; namely, must also be between the attack points and there must be enough play in the pressure pieces to allow the pressure pieces to recede and thus to ensure that the upper punch will sink in safely.

The mode of operation of the pressure pieces according to the invention is illustrated in FIG. 3. The pivot center of two tensioning elements arranged one above the other coincides with the longitudinal axis of the punch and is denoted by _j7. By tensioning the tendons against each other, two opposing torques are generated in the direction of the curved arrows. The forces thus exerted on the pressure piece 16 are symbolized by the two vectors R. The direction of R is normal to the radius r. The decomposition of the vectors R according to the parallelogram of the forces leads to a horizontal and a vertical force; illustrated by the vectors H and N. The two vectors H - equal in size, opposite in direction - act in the pressure piece 16 only as internal forces. Only the normal forces N are decisive for the generation of the upper punch sinking resistance.

From Fig. 3 it also follows: The smaller the distance between the force application point R is from the edge of the polygon profile, the smaller the forces H and the more greater the normal forces N.

The pressure pieces prevent the occurrence of undesirable horizontal forces on the inner stamp. In addition, the number of pressure pieces compared to the execution reduced after the main patent application.

The pressure pieces can also be in several parts, d. i.e., they can go out There are two longitudinal strips that are connected to one another in a tensile manner in the transverse direction. To increase the resistance to sinking in, the pressure pieces can be used in a manner known per se Way with keibbeilagen - z. B. friction strips on their on the stamp polygon sides adjacent surface edges - provided or made from friction lining material be, or the pressure pieces can be attached to their surface on the inner punch with a friction layer - e.g. B. made of zinc - be equipped.

Claims (4)

PATENT CLAIMS: 1. Multi-part pit punch with polygon profile inner punch as well as two of these encompassing torque tendons according to patent application G 18753 VI / 5 c, characterized in that for each side of the polygon a pressure piece for the System of tendons is provided, the height of which depends on the total height of all tendons selected and its width at least approximately equal to the length of the polygon in question. 2. Pit punch according to claim 1, characterized in that that the pressure pieces are supported on at least one of the tendons. 3. Pit stamp according to one of claims 1 or 2, characterized in that the tension members attack on the pressure pieces on one side - preferably on the polygon corners - and outside of the attack points include the pressure pieces with play. 4. Pit stamp according to one of the preceding claims, characterized in that the pressure pieces consist of friction shim material.