DE934286C - Resilient pit stamp - Google Patents

Description

Resilient pit punches They are resilient, preferably tubular Pit punch known, whose inner punch by attacking inside the outer punch Friction jaws are detectable and in which the friction jaws by an inside of the stamp longitudinally adjustable guided actuator in the radial direction the outer die inner wall can be pressed. The bracing of the: the actuator segment-shaped surrounding friction jaws are done here by with the actuating member coupled, e.g. B. conical expansion body, which is against accordingly Create inclined inner surfaces of the friction shoe segments and thereby move them radially press outside. In order to achieve the most uniform possible contact pressure on the friction shoe segments to achieve the outer die inner wall, it has already been proposed to use this in in the axial direction of the punch as long as possible and the pressure through to cause spreading bodies engaging on both ends between the friction jaw segments.

According to the invention, a structure that is simple and reliable in terms of construction is used Stamp achieved in that the actuator is segment-shaped within one of the surrounding friction jaws enclosed annular cylindrical cavity at least one included in the axial direction supported against the actuator spring is such that the radial tensioning of the friction shoe segments via the actuating member takes place by the axial compression of the spring. By using a Spring as a directly acting tensioning element is due to its elasticity an even pressure of the friction shoe segments on the inner wall of the outer die favored. This is at the same time easy loosening of tension when stealing the stamp, since the large ones required for wedge gears Contact surfaces between the clamping element and friction jaw segments are avoided, which cause an unfavorable stress and release efficiency and in particular If the stamp is not used for a long time, they easily stick to each other, which leads to the robbery is made more difficult.

According to one embodiment of the invention, the spring can be a helical spring be formed with the turns of the spring in on that of the actuator facing inside of the friction shoe segments provided conical threads are led. This ensures that the friction shoe segments except through the Enlargement of the circumference of the spring during compression due to the conical design the thread turns also by reducing the distance between the Windings are pressed radially outward in the axial direction. Will be expedient the arrangement here made such that the coil spring claimed the train Actuating member surrounds coaxially and at the end facing the person lying against an abutment connected to the actuator and on the opposite one End against an annular collar-shaped end plate forming the lower end of the inner punch is supported. In order to adjust the in the axial direction of the ram To enable spring through the actuator, the annular collar of the end plate and the diameter of the abutment forming the lower end of the actuating member slightly smaller than the thread-free ends of the enclosed by the friction shoe segments dimensioned cylindrical cavity: In the drawing, the invention is based on an exemplary embodiment explained. It shows Fig.i a pit punch in longitudinal section and Fig. 2 shows a cross section through the stamp.

In Fig. I the outer ram with i and that in this is longitudinally displaceable guided inner stamp with 2 designated. The lower end of the outer stamp i forms a crowned foot piece 3. At the upper end of the inner punch 2 is a Head plate 4 provided, which at the same time the upper end of the inner punch forms. In order to guide the inner punch 2 in the outer punch with as little friction as possible To enable i, the outer diameter of the tubular inner punch 2 is essential dimensioned smaller than the inner diameter of the also tubular Outside stamp i. To guide the inner punch 2 in the outer punch, a serves the Guide ring 5 forming the upper end of the outer punch.

Inside the outer punch are three with respect to the longitudinal center axis of the punch symmetrically arranged segment-shaped friction jaws 6 are provided, which an actuating member 7 arranged in the interior in the longitudinal direction of the ram, coaxially surround. The actuating member is longitudinally adjustable on a transverse wedge 8 in the inner punch stored in such a way that there is a displacement of the wedge 8 in its longitudinal direction is adjustable in height. For guiding the actuator 7 in the inner punch a centering plate g serves. The lower end of the actuator 7 forms a nut screwed onto a thread, by means of which a length adjustment the @ actuator 7 can be made.

Within the ring-cylindrical shape enclosed by the friction shoe segments 6 Cavity i i a coil spring 12 is enclosed, the turns of the Helical spring in on the inside of the friction shoe segments facing the actuating member incorporated conical threads are performed. The lower end of the spring i2 is supported against an annular disk 13 which rests against the nut io. That opposite abutment of the spring 12 forms one at the same time as a lower conclusion of the inner punch 2 serving ring collar-shaped end plate 14. The ring collar 15 of the end plate and the lower end of the actuator 7 forming annular disc-shaped abutments 13 are dimensioned slightly smaller than in diameter the thread-free ends of the ring-cylindrical ring enclosed by the friction shoe segments Cavity ii.

The stamp is set by striking the cross wedge 8, whereby the actuating member 7 with simultaneous compression of the spring 12 is raised. The compression of the spring causes the friction shoe segments 6 pressed outwards and form a frictional connection with the inner wall of the outer punch i.

A light tap is sufficient to loosen the stamp or to steal it on the tip of the transverse wedge 8, whereby the actuating member 7 is under the spring tension is moved downwards in the longitudinal direction. By relieving the spring the frictional connection between the friction jaw segments 6 and the inner wall of the outer die canceled so that the inner stamp 12 can sink into the outer stamp i.

To enable the stamp to be stolen quickly and safely, In some cases it can be advantageous to place the friction shoe segments 6 on the outside to be held together by a ring made of material that is elastic in the circumferential direction, . In such a way that, after the spring 12 has been relaxed, it automatically returns to the starting position to return.

The punch is expediently tubular, preferably made of Light metal, formed, but it is possible to make this from steel and z. B. with a square cross-sectional shape.

Claims (4)

PATENT CLAIMS: i. Resilient, preferably tubular pit punch, the inner punch of which can be fixed by friction jaws that engage inside the outer punch and are long in the axial direction of the punch and in which the friction jaws can be pressed against the inner wall of the outer punch in the radial direction by an actuating member that is longitudinally adjustable inside the punch, characterized in that that within an annular cylinder-shaped cavity (ii) enclosed by the friction jaws (6) surrounding the actuating member (7) in segments, at least one spring (12) supported in the axial direction against the actuating member (7) is enclosed, in such a way that the radial The friction shoe segments (6) are braced via the actuating member (7) by the axial compression of the spring (12). 2. Pit punch according to claim i, characterized in that that the spring (12) is designed as a helical spring and the windings of the spring in on the inside of the friction shoe segments facing the actuating member (7) (6) provided conical threads are guided. 3. Pit punch according to claims i and 2, characterized in that the helical spring (i2) stressed the train The actuating member (7) surrounds it coaxially and at the end facing the person lying against it an abutment (13) connected to the actuating member (7) and on the opposite one End against an annular collar-shaped forming the lower end of the inner punch (2) End plate (14) is supported. 4. Pit punch according to claim i or one the following, characterized in that the annular collar (15) of the end plate (14) and the lower end of the actuating member (7) forming the abutment (13) smaller in diameter - preferably only slightly smaller - than the thread-free Ends of the annular cylindrical cavity enclosed by the friction shoe segments (6) (ii) are sized.