DE1039971B - Two or more part pit stamp - Google Patents

Description

Two-part or multi-part pit punch Two-part or multi-part pit punch are usually used to achieve the highest possible initial resistance mutually displaceable parts against the rock pressure by means of setting devices set, d. That is, the two stamp parts are first pulled apart and then the clamping mechanism of the stamp lock finally tightened. The setting requires such a punch with setting wedges or with special setting devices a relatively long time, and this expenditure of time is generally so great that he in the course of progressive development in terms of mechanization the coal production is noticeable. So one is more and more went over to firmly attach a setting device to pit punches, and for example in the form of a simple wedge on the punch head or in the Way that you can use a threaded sleeve to connect the punch head to the upper punch or connected to the inner stamp. Both known types of pit punches have the Disadvantage that the stroke available through the wedge or the threaded sleeve is often too small for the setting process. However, this disadvantage arises the implementation of the setting process, the setting must be repeated from the beginning which naturally entails a very sensitive loss of time, which is even larger than that required when using special setting devices Expenditure of time.

The invention has set itself the goal of eliminating these disadvantages and the setting of multi-part pit punches with the help of on each individual punch self-arranged setting devices to accelerate effectively and safely and reliably to design. The invention is based on the known design of two or more parts Pit punches, which have a screw head arranged at the upper punch end and have a rotatable nut designed as a drive part and essentially consists in that the screw head consists of three or more interconnected by threads Parts consists of which the two outer ones are secured against rotation among one another and the middle part is designed as a drive part. With one according to the proposal The pit stamp designed according to the invention is the one required for the setting process Hub in the telescopic punch head with security available, and through the at least double thread engagement, not only this is required Hub created, but also the time required to carry out the setting effective accelerated. Increasing the reliability and safety of the installation and when setting the stamp, according to the invention, the most varied Measures and details are increased. In particular, according to the invention the upper part of the head than with protrusions or otherwise attacking the cap Headstock, e.g. B. be designed as a crown head plate and the rotational security of the lower part opposite the inner punch through a fixed connection of the lower head part can be achieved with the inner punch. This has the main advantage that even with a telescopic threaded head the whole punch against Rotation is secured if at the end of the setting process the actual, the two Clamping device holding punch parts together, which is usually carried out by a horizontal wedge is operated, is brought to tension.

According to the invention, the two can in a particularly advantageous manner The thread pairings that connect the individual head parts to one another are different Have slope, so that with the same number of revolutions of the middle threaded piece both thread lengths are exhausted to their full size.

To protect the entire mechanism against eccentric loads the top plate is advantageously provided with an adjustable dome. In addition, the individual threaded pieces can be made to simplify production Pipe sections and similar simple semi-finished products are made and welded together get connected.

The measures required to shorten the setting times, the can contribute significantly to the full effectiveness of mechanization be supported by the fact that the inner punch when pulling out of the outer punch Bred as close as possible to the overlying cap and against slipping back is secured, a condition by the clamping mechanism of the actual stamp lock itself. which inner and outer stamp against each other stuck, is not always fully met. Another proposal of the invention eliminates this disadvantage by adding a permanent magnet with directional in the punch head Magnetic field is housed as it comes from different areas of mechanical engineering is known. This magnet is set up in such a way that when it is installed in a stamp head only has a @virksatnes magnetic field on the surface of the stamp head, which is able to hold the full inner punch firmly to the overlying cap press and in this way prevent slipping back.

In the drawing, the invention is based on some exemplary embodiments explained, with only the punch head itself being shown. It shows Fig. 1 a punch head according to the invention in side view and screwed together State. Fig.? in longitudinal section and in the unscrewed state, Fig. 3 a Section along the line III-III of FIG. and Fig. -1 shows another embodiment the invention.

In the drawing, 1 denotes the inner or upper punch, which is to be clamped by a known clamping mechanism of any type against an outer punch in the required total punch length during the setting process. At the upper end of the inner punch 1, a punch head is arranged, which consists in detail of a lower part 2, a middle piece 4 and an upper part 6. The lower part 2 is welded to your inner die 1 via a base plate 3. The middle piece 4 engages with an external thread in a corresponding internal thread of the lower part 2 and is provided with lugs or handles 5 which facilitate its rotation by hand with the aid of blows. The middle part 14 in turn engages with an internal thread with a corresponding external thread of the upper part 6. The upper part 6 has a rod-shaped extension 7 on its underside. which has a polyhedral cross-section, that is to say, for example, is three-sided or four-sided and engages in a correspondingly shaped recess in the base plate 3. With 8 is a locking pin at the base? denotes, which secures the entire telescopic head consisting of parts 2, 4 and 6 against complete unscrewing, that is, limits the stroke of parts 4 and 6 with respect to part 2. At the upper end of the upper part 6, the head plate 9 is welded, which is provided with a dome-shaped support 10 in the embodiment of FIG. In the illustrated embodiment, the head plate 9 is designed as a so-called crown head, ie it is provided at its four corners with lugs 12, which rest from the outside on the cap supported by the punch. Since the upper part 6 is secured against rotation in relation to the inner punch 1 by the engagement of the projection 7 in the recess of the base plate, the entire punch is activated via the cams 12 of the crown head 9 when the wedge of the clamping mechanism of the punch lock that clamps the upper punch and the lower punch against each other secured against rotation. The parts 4 and 2, on the one hand, and 6 and 4, on the other hand, engage with one another with opposing threads, i. 11. For example, right-hand threads between 4 and 2 and left-hand threads between 4 and 6 are used. so that the parts 4 and 6, when the part 4 is rotated in one direction, perform an axial movement in the same direction with respect to your part t. In addition, it is useful to provide the thread between parts 6 and 4 with a steeper pitch corresponding to the smaller diameter compared to the thread between parts 4 and 2, so that with the same rotation of part 4, both threads are exhausted to their full size.

In the embodiment of Fig. -1 is within the head plate 9, a permanent magnet 11 of known design is arranged, which preferably consists of several concentric parts of magnetic material, which by non-magnetic Metallzvlinder are separated, so that there is a unilateral upward magnetic force both poles results. A stamp head designed in this way basically has the very substantial advantage. that the head immediately when pulling the inner punch out of the Outside stamp on the one above. already firmly installed cap adheres and thus holds the withdrawn inner punch in the extended position.

The handling of a pit punch according to the invention is in general carried out as follows: Before setting, the telescopic head is completely in the position shown in Fig. 1 position shown screwed into each other. The inner punch 1 is thereupon from the Outer punch pulled out until it is with the spherical plate 10 or the permanent magnet 11 rests against the cap. Then the inner and outer stamp is cohesive Clamping device tense for the time being. The middle piece 4 is then attached to the handle 5 rotated, whereby the middle piece 4 and the upper part 6 migrate out of your lower part 3, so that the entire stamp is firmly clamped between the cap and the lying. In this way, the required bracing of the ram between hanging hangers is achieved and the horizontal is reached, the one between the upper and lower punch is achieved Final clamping device, for example by hitting a horizontal wedge tense, the entire ram, as mentioned, effectively secured against rotation is.

The exemplary embodiments shown do not give an exhaustive picture about the possible uses of the telescopic head. It is Z. B. also a construction conceivable in which the lower part 2 lying on the outside in FIGS. 1 to -1 with the head plate 9 is welded. while the upper part 6 is connected to your inner stamp. aside from that In many cases it is advantageous to conveniently remove the individual parts of the punch head to build parts to be manufactured and to connect them by welding. In all cases however, it is advisable to coordinate the pitch in the thread pairings so that that the greatest possible stroke given by the fuse 8 in both thread pairs is achieved. It is also possible to use a mechanism according to the invention to be installed in the stamp foot if z. B. an operation on the punch head because of a too great a length of the stamp is difficult to achieve.

In general, it should be emphasized that the underlying of the invention Proposal to equip the head of a pit punch with a permanent magnet in order to thereby effectively facilitating the setting work, also in principle independently of the Indian Invention proposed design of a telescopic head Can be used because it has very significant and fundamental advantages for itself offers. For example, the permanent magnet 11 can also be used in conjunction with the Kalo: ttenpla.tte 10 apply.

Claims (7)

PATENT CLAIMS: 1. Multi-part, variable-length pit punch Made of steel or the like with a screw head arranged at the upper punch end and a designed as a drive part rotatable nut, characterized in that the Screw head consists of three or more parts connected by thread, of which the two outer ones are secured against rotation with one another and the Middle part is designed as a drive part. 2. pit punch according to claim 1, characterized characterized in that the upper part of the head as engaging with projections on the cap Headstock, e.g. B. is designed in the manner of a known crown head. 3. Pit stamp according to claim 1 and 2, characterized in that the lower part of the head with firmly connected to the upper end of the inner punch, for example by welding is. 4. pit punch according to claim 1 to 3, characterized in that the Thread pairs connecting individual parts have a different thread pitch own. 5. pit punch according to claim 1 to 4, characterized in that the Stamp head plate with an adjusting plate that adjusts itself according to the cap inclination is provided. 6. Two-part or multi-part pit pipe, in particular according to the claims 1 to 4 or 5, characterized in that on the top of the punch head a permanent magnet with a directed magnetic field is arranged. 7. Pit punch according to claim 1 to 6, characterized in that the individual parts of the head are designed as a welded structure. B. pit punch according to claim 1 to 7, characterized in that a mechanism similar to the head is arranged in the foot of the outer or lower punch. Documents considered: French Patent Specifications \ 7r. 995 746, 1008 941, 1 042 800.