DE976548C - Cap for pit lining, preferably for longwall mining - Google Patents

Description

Cap for pit lining, preferably for longwall lining In pit lining Steel caps are largely used today to support the hanging wall. at the large compressive forces that such caps have to absorb, they are in general made from heavier rails or I-beams. To even higher resistance values To achieve this, special profiles have also been proposed in recent years. Under Others have welded profiles that are either by welding flat bars between the flanges of 1-iron or by welding them together from two normal U-irons to a box profile to improve the static values was looking for. With unfavorable conditions in pressure-like struts, however, there are also such Caps cannot cope with the stresses that arise if one is not too extreme heavy profiles. The use of heavy profiles is forbidden in most cases for economic reasons. So it depends that the cap at a certain, barely portable weight per meter and at easier and inexpensive manufacturing, the highest possible flexural and torsional stiffness that can be exploited owns. The box profiles already mentioned above, which are composed of two normal U-irons correspond to these requirements only very imperfectly. Apart from that from the fact that they do not grip because of their smooth surfaces on all sides and therefore are unwieldy and for the same reason are not suitable for clinging to Devices, e.g. B. tube suspensions and the like., It has been shown that such Profiles under the heavy loads resulting from the unevenness of the hanging wall and the often angular position of the stamp in different and changing ways, d. H. at one or the other edge or only in the middle and often as a result of lateral Thrust forces too. act diagonally on them, thereby breaking the webs of the box profile spread apart tihd finally lent the profile in the weld seams rips open. Such a torn profile can then of course also no bend, and rbrsiönskt = absorb more juices.

The invention is based on the knowledge that for such Box profile with a tolerable weight per meter in the very first Line a resilient training of the bridge is important that the flanges - Form (floors) from one to the other web of the box section, and less a reinforcement of the webs themselves, which rather avoid large accumulations of material are to be designed so that their shape as possible the effect of reinforcing the flanges of the box = profile supported.

The invention implements this knowledge through a novel design of the profile, as shown in the basic embodiments in Figs. i and 2 are illustrated, each of two possible solutions of the Etfindungsauigabe show which can be used individually as well as together.

According to the first Mögdiakelt ätiä two welded together to form a box profile U-iron existing cap for longwall mining is characterized by the fact that the the flatness of the box profile forming webs of the U-irons opposite the webs are considerably reinforced by equally heavy cerebral U = profiles, preferably so far that the thickness of the flanges of the box section is greater than the middle Wall thickness of its webs, which as a whole in. Pit punch inner profiles known Have an indentation inward on their outer surfaces and an indentation on their inner surfaces form a bulge to the outside.

The favorable material distribution achieved in this way gives the profile if the resistance to twisting is sufficient in any case, an increased one Resistance to bending with significantly reduced risk the spreading of the bars of the box profile at the point supported by the punch. As a further advantage, this also gives the profile a certain grip and suitability for attaching devices to him.

A second option is to close the bridge formed by the flanges reinforce, which can also be used at the same time as the first described, consists in this part of the profile by pressing or pressing, which according to the embodiment can be shaped like cams to stiffen.

This measure allows even with relatively thin flanges a considerable stiffening of the profile can be achieved in the desired sense. The best results will be achieved by applying this measure to Profilm achieved with the features of the first described version.

The projections pressed into the flanges of the box section and Furthermore, depressions basically fulfill other things, from the stiffening of the profile independent task with regard to the intended use of the caps One of the benefits of outside hiring is by providing training and education Use as locking devices to secure the stamp, which are connected to the Head of the punch existing projections or depressions engaged can be.

The resulting interlocking of the shell iron with the punch, which can secure the stamp not only in one, but in all directions, requires also in the case of the arrangement of a plurality of locking members on the iron only very low manufacturing costs and depending on the shape of the locking members and the type of pressing process practically no or hardly any additional expenditure on material. In contrast, the previously generally in the form of screwed or welded Plates or the like. Locking means used many disadvantages. They increase weight and the cost of the shell iron is considerable, so only a very limited number can be used are arranged, make the bowl iron unwieldy and "are susceptible to starch-regä) advice.

Fig. 2 to q. show the function of the arced or recessed areas excited from the flanges of the box section as locking devices. According to Figs. I and 3, pressed-out projections and according to Figs. 2 and 4 pressed-in depressions are provided in the flanges of the box section, which, as shown, can be brought into engagement with the projections or depressions on the punch head and, if distributed appropriately, over it allow the length of the shell iron to lock the punch at a variety of arbitrary points of the iron in all directions, namely, as the illustrated embodiments show, even punches whose head plate, which is simplified compared to the usual four-toothed head according to the drawing, has only one single middle tooth ( A M. 2 and q.) or instead of any teeth only one indentation (Fig. 3).

Since the cup irons in one of them are in the position that was turned around 1900 are used, as can also be seen from the figures and from Advantage if the projections pressed into or out of the flanges of the box section or recesses in an appropriate distribution on both flanges of the profile are. The press-ins or press-outs according to the invention can be any have a suitable shape, preferably e.g. B. an elongated, square or how shown, the shape in the manner of a cam.

Claims (7)

PATENT CLAIMS: i. Box profile cap for the. Longwall construction, consisting of two facing each other with their open sides and on their flange edges welded. U-iron, in which the imaginary vertical middle plane of the webs protrudes from the outer edge of the profile by more than half the web thickness, characterized in that that the flanges of the U-irons forming the webs of the box section are separated from both The sides taper from their roots to the weld joining them and the Flanges of the box profile formed by the webs of the U-iron opposite the web thickness equally heavy normal U-profiles in their extension over the profile interior to at least the mean web wall thickness of the box profile, preferably above addition, are reinforced. 2. Cup iron, consisting of two to a box profile welded U-iron, preferably according to claim i, for longwall construction, characterized in that pressed on the flanges of the box section from these Projections or depressions are arranged. 3. Shell iron according to the claims i and 2, characterized in that the projections or depressions are so formed are that they are present with projections on the head of the punch carrying the shell iron or recesses are engaged. can. 4. Shell iron according to the claims i to 3, characterized in that on the flanges of the box section a plurality of projections or depressions, by means of which a stamp is attached to the corresponding Places the shell iron can be locked, is arranged consecutively. 5. shell iron according to claims i to 4, characterized in that the projections or depressions are distributed over the whole cup iron. 6. Cup iron after the Claims. i to 5, characterized in that the depressions or projections are arranged on opposite sides of the shell iron. 7. shell iron according to claims i to 6, characterized by cam-like, square or elongated shape of the depressions or projections. Publications considered .: German Patent Specifications. No. 590 478, 600 830, 693 705, 72 1 229; German utility model No. 1 492 5i6; French Patent Nos. 825 109, 868 634; British Patent Specification No. 7,864 dating from 189 0 , 385 749, 501 414-