DE1022988B - Multi-part expansion frame for pit expansion in ring and arch form - Google Patents

Description

Multi-part support frame for pit support in ring and arch form The new mining methods in mining and the higher rock pressures that occur with them multiply on stretches, overcuts, straightening stretches and mining stretches as well as struts the requirements for the expansion to be used and its individual segments. There are different types of yielding in both line and longwall construction steel pit lining by means of mutually guided, channel-shaped lining profiles known.

These well-known multi-part expansion frames consist of nested Profiles. The expansion profiles designed as channel profiles without reinforced edge flanges are clamped against each other in the overlapping area by clamping devices. The cross-section of this known hood-shaped expansion profile is designed in such a way that that they are optionally interchangeable and can also be placed one inside the other allow profiles of different weight classes. In part, these are known Profile longitudinal grooves at the apex.

The well-known channel profiles used in pit construction do not have always have the required flexural strength and are too heavy. aside from that For them, the section modulus along the Y-axis is greater than that along the X-axis. When expanding with these known profiles occur with a relatively short period of use and moderate rock pressure already strong deformations and above all twisting on with the result that these deformed expansion parts by additional expansion means need to be reinforced. Sometimes the deformations are such that breaks and Cracks: especially at the points of overlap between the support profiles appear.

The above-mentioned drawbacks are achieved according to the invention a special design of the expansion profiles largely avoided.

At their apex, seen in the profile cross-section, they point in their main girdle, which is reinforced, with Ouerrippen or Ouerrillen Distance from each other or an interrupted longitudinal groove to reduce weight and to stiffen up. Here are the inner and outer surfaces of the extension profiles dome-shaped or curved elliptically. The profiles are through between them inserted or encompassing clamping means braced against each other. Latter are made of sliders, straps, drawstrings or cuffs that have a quick release have formed.

To produce the expansion profiles according to the invention, which are made of high-strength Thomas steels exist, they are treated by heat treatment, in particular by hardening only at about 950 ° C up to about 50 to 150 ° C and after the rolling process at 950 ° C extinguished in straight lengths and then cold or warm on the corresponding Expansion or radius of curvature bent. A simple or profiled universal-like flat iron with longitudinally or transversely grooved or toothed surface. The expansion profiles become several at the same time Formed into finished segment arcs in a single operation. Before attaching the rolling skin is removed from sliding and brake linings on the support profiles, what preferably by treating the metallic substrate by sandblasting or Pickling takes place. Subsequently, both on the entire expansion profiles and the brake and sliding linings on the sliding pieces by galvanizing or spraying or in the form of plastic, aluminum paint, lead bronze paint or the like.

Further details of the invention are characterized in the claims.

The design of the extension frame according to the invention, the profile design and the manufacturing process of the profiles are of considerable advantage. First the use of additional reinforcements and expansion means in the clamping area the mounting frame, d. H. at the points of overlap between the profiles avoided. Furthermore, the susceptibility to cracking has been eliminated and no deformations occur and twisting of the support profiles forming the support frame even with strong rock pressure a. Also, the profile is itself and a with made to the profile Extension frame with the highest flexural strength and the highest demands. The special formation of the profile is important because it is in addition to the Weight savings at the same time greater flexural strength and rigidity is achieved.

The drawing illustrates various embodiments of the Invention. It shows Fig. 1 a cross section through the nested profiles, Figure 2 shows a cross section of the nested profiles with one between them arranged clamping device, 'Fig. 3 shows a longitudinal section through the overlap point the nested profiles and the clamping device according to Fig. 2, Fig.4 a Side view of the nested profiles with connected clamping devices, 5 shows a cross section through a profile with longitudinal and transverse grooves in the main chord, 6 shows a longitudinal section through the point of application of the profiles lying one inside the other with wood insert, FIG. 7 shows a longitudinal section through an overlap point of the profiles with a clamping device that deforms the outer profile in a tensioning manner, FIG. 8 shows the primary material for the production of the extension profiles, FIG. 9 shows a cross section through an extension profile with curved flanges, FIG. 10 shows a cross section through two nested ones Profiles with curved flanges, Fig. 11 the overlap area of two superimposed Profiles in perspective. Fig. 12 shows an open, composite multi-part expansion frame, FIG. 13 shows a multi-part closed annular Expansion frame, FIG. 14 shows a cross section through a clamping device with a longitudinal wedge for the profiles, FIG. 15 shows a longitudinal section through the clamping device according to FIG. 14, 16 shows a clamping device with a pair of wedges running in opposite directions Quick release, Fig. 17 a clamping device with pressure piece and pressure screw, 18 shows a cuff as a clamping device with a locking clasp, FIG. 19 shows a cuff as a clamping device for the profiles with a clamp with wedge tightening.

The cross-section shown in Figure 1 through the nested Extension profiles 1 and 2 leave the hood-shaped arch or elliptical lines recognize the inner surfaces 3 and the outer surfaces 4 of the expansion profiles 1 and 2. That The profile on the inside is denoted by 1 and the profile on the outside is denoted by 2. the Flanges 7 of the expansion profiles 1 and 2 taper towards their free edges, while in the main chord 8 of the expansion profiles 1 and 2 an accumulation of material is provided. At the apex of the expansion profiles 1 and 2 are in the area of the main walings 8 at a distance from each other either transverse grooves or transverse ribs or an interrupted one Longitudinal groove 6 is provided so that the inner profile 1 on the inner surface 3 of the outer profile 2 in the direction of the longitudinal axis alternately complete surface area and interrupted surface contact by the ribs 5 and 6 grooves.

In Fig. 2 is a cross section through the expansion profiles 1 and 2 of a Extension frame shown, between which a clamping device 9 in the form of a clamping band is provided. The clamping band or the pull tab 9 is either free on both Ends connected to a pulling or pushing piece 11, this pulling piece 11 at the same time is attached to the outer profile 2, or attached directly to the outer profile. A clamping cone 10 is mounted in the pulling or pushing piece 11, via “-elchen” The clamping device consisting of the tension band 9 is clamped by means of a clamping screw 12 will. Characterized in that the pressure piece 11 is firmly attached to the outer profile 2 or the tension band 9 is attached to this profile, is tightened by tightening the screw 12 and the clamping cone 10, the outer profile 2 drawn against the inner profile 1 and at the same time the inner profile 1 pressed into the outer profile 2.

In Figure 3 is a longitudinal section in the overlap area of the extension profiles 1 and 2 of the extension frame. whereby to play a cut in the direction the longitudinal axis of the nested profiles 1 and 2 according to FIG. 2 is selected. In the selected embodiment, 8 of the inner profile are attached to the main chord 1 and the outer profile 2 transverse ribs 5 are provided, which usually have such a height have that their upper edge directly on the inner surface of the outer profile 2 are present. The embodiment in which the height of the ribs 5 is smaller, is only intended to show how the pull tab 9 overlaps the ribs 5 as a clamping device can or is inserted into a gap between the ribs 5. At one execution of the subject matter of the invention according to FIG. 3, the pull tabs 9 form supplementary load-bearing Areas between the expansion profiles 1 and 2 on which a friction or brake lining can be applied.

From Fig. 4 is a section of the expansion arches of the expansion frame recognize in which the inner profile 1 and the outer profile 2 overlap one inside the other. Since when pressure occurs, the inside Profile 1 can be moved to the left and the outer profile 2 to the right, the clamping devices 9 would inevitably have to strive to wander along and to move in the opposite direction, so that the distance increases with increasing Pressure and increasing pushing into one another of the expansion profiles 1 and 2 would have to increase. To, in addition to the engagement of the clamping devices 9 in the ribs or grooves 5 of the main chord of the expansion profiles 1 and 2 are the Clamping devices 9 by a tab 13, for. B. flat iron, connected to each other.

The inner profile 1 shown in cross section in FIG. 5 has both OOuerrillen 5 as well as an interrupted longitudinal groove 6 on the upper edge of the main chord 8, d. H. the outer surface of the profile. If necessary, such grooves can also be provided on the outer surfaces of the flanges 7.

The embodiment of Figure 6, which is a longitudinal section through shows part of the extension frame, the arrangement of a clamping device 9 recognize between the insertion end of the inner profile 1 and the outer profile 2. the second clamping device 9 comprises the expansion profiles 1 and 2 from the outside. Through the elastic bracing of the inner profile 1 in the outer profile 2 arises between the Klemmvorrichtun Igen 9 a so-called clamping gap. The clamping gap is with a Wooden insert 14 designed, which advantageously consists of plywood. It can also another material chosen for the insert be. When pushing into one another of the inner profile in the outer extension profile 2, the clamping gap between the clamping devices remains 9 initially unchanged, since the insert 14 the thrust efforts increasing resistance opposed. Only when the wood insert 14 deforms occurs a change in the clamping gap. The training according to Fig. 6 results in the special Advantage that the intermediate layer in the clamping gap by the surface design of the Main chord 8 of the inner expansion profile 1, d. H. is held by the grooves and at the same time as an additional braking means with or without an additional friction lining works.

In Fig. 7, the tensioning or clamping devices of the support frame arranged alternately between the expansion profiles 1 and 2 and encompassing them. The clamping devices between which the extension profiles 1 and 2 are arranged, are formed here by jigs 21, which as load-bearing surfaces between the expansion profiles 1 and 2 are effective. The jig 15 shown in Fig. 7 is between the clamping devices 21, encompassing both expansion profiles 1 and 2, arranged. The tensioning device 15 can also be provided with a tensioning cone 10, a tensioning screw 12 and a pressure piece 11 be equipped. It braces that in the overlap area Outer profile 2 against the inner profile l with elastic deformation between the Clamping devices 21, so that when the expansion profiles 1 and 2 of the extension frame this wave-like through the clamping device 15 and the clamping device 21 have to move. The tension shown is not only safe Guiding the interlocking expansion profiles, but also braces the expansion profiles 1 and 2 safely against each other and prevents twisting and tilting in the overlap area.

From Fig. 8 is a piece of the for the production of the expansion profiles 1 and 2 of the expansion frame used to recognize the starting material 16. The raw material 16, which by a simple or profiled universal-like flat iron can be formed, is in one operation to the profile cross-section of an expansion profile 1 or 2 bent or rolled. The raw material 116 shown in Fig. 8 possesses on the surface transverse grooves 5, between which rib parts in the reinforced central part of the flat iron have stopped. A longitudinal groove interrupted in the longitudinal direction 6 is indicated by way of illustration. The machining or grooving in the surface of the starting material 16 can take place simultaneously during the bending or pressing process. The starting material can therefore be used as a smooth flat iron for the profile cross-section in hood or elliptical shape are deformed, the grooves 5 or in the same operation the interrupted longitudinal groove 6 can be made in the main chord. But it is also possible, the grooves 5 or the groove 6 in the raw material 16 before bending to Provide profile cross-section.

Fig. 9 shows a profile cross section through the extension profile 1, wherein the flanges 7 of the profile are designed to be curved in the area of their free edges are.

In Fig. 10 the support profiles 1 and 2 are shown lying one inside the other and have curved flanges 7 as shown in FIG.

11 shows the expansion profiles 1 and 2 in perspective in the overlapping area with cut front edge again. It leaves the section from an expansion gap recognize in ring or arch shape. When pressure occurs, the support profiles shift 1 and 2 on top of each other in the opposite arrow directions marked A and B.

In the construction frame for the pit construction according to FIG. 12 is from the Inner profiles 1 and the outer profiles 2 an open ring or arched construction frame educated. The inner and outer profiles 1 and 2 are through in the overlapping area Clamping devices 9 connected to one another. The outer profile is used for such open ring or arch extension frame as a cap, while the inner profiles 1 as a butt or route stamps work. The Au ßenprofil2 can be made as a cap in one or more parts be trained. The punches, d. H. the inner profiles 1 can be flexibly mounted be what z. B. can be achieved in that they are in extensions or subsets advantageously box-shaped cross-section suspended from an inserted tension element or be supported. The tension element, which is the lower edge of the inner profile 1, d. H. the route stamp, underpinned or attached to the same, is on its free ends in chocks or rollers od. Like. Guided and clamped and becomes with increasing rock pressure or by the falling inner support profiles 1 by actuating its clamping elements in the base or in the extension drawn. If necessary, such a tension element can also be used at all overlap points the interlocking expansion profiles 1 and 2 provided.

The embodiment of FIG. 13 is similar to the embodiment 12 from the inner profiles 1 and the outer profiles 2 to form an extension frame composed. The expansion frame here forms a closed ring or arched expansion frame.

The connections of the extension profiles 1 and 2 of the extension frame in the overlapping area can also be provided by a clamping device 15 with a wedge 23 guided in the direction of the longitudinal axis of the extension profiles 1 and 2, as shown in FIG. The connection consists of a band or a tab 15, which the expansion profiles 1 and; 2 encompasses. On the inside of the clamping device 15, on the open side of the profile, a guide piece 22 is attached as a wedge guide and bearing, through which a clamping wedge 23 which can be moved in the direction of the longitudinal axis of the profiles is guided.

15, which shows a longitudinal section through the clamping device according to FIG Fig. 14 shows, it can be seen that by driving in the clamping wedge 23 in the direction the longitudinal axis of the expansion profiles 1 and 2, the latter by the wedge 23 against each other be braced. The clamping wedge 23, the tightening of which is placed in the guide piece 22 is, is on its back surface of the inner surface of the expansion profiles 1 and 2 accordingly designed, d. h .. the back surface of the clamping wedge 23 is advantageously the radius of curvature adapted to the extension profiles 1 and 2 of the extension frame.

The design of the clamping device 15 according to FIG. 16 is similar to that in Fig. 15 and 14 reproduced training, in which the bracing by a wedge lock takes place. Here, too, expansion profiles 1 and 2 are used by the formed as a clamping band or cuff clamping device 15 encompassed and has the clamping device as a clamping member consists of two wedges 24 and 25 in opposite directions Pair of wedges. By striking the wedges at the same time or one after the other 24 and 25, the clamping device 15 is attached to the support profiles 1 and 2 set and these are frictionally clamped against each other and into each other.

Fig. 17 shows a clamping device 15 again, in which in the clamping band a pressure screw 27 is guided, which is in the free cross section of the expansion profiles 1 and 2 protrudes and a pressure piece 26, which is adapted to the inner wall of the extension profiles is, presses against the inner wall of the inner profile 1. By turning the head 28 of the Pressure screw 27, the pressure is transferred to the pressure piece 26, the pressure piece presses the inner profile 1 into the outer profile 2, so that a secure bracing of the Profile of the expansion frame is guaranteed.

The wedge arrangement or pressure piece arrangement, as shown in Fig. 14 to 17 can be used as a clamping device 15 in a single small sleeve provided several times on top of each other in the overlap area of the expansion profiles 1 and 2 be.

In Fig. 18 and 19 the clamping devices 15 are designed as collars, the free ends of which are braced by clasps 28. In the embodiment according to Fig. 18 shows the nested extension profiles 1 and 2 of the extension frame of a cuff which has a bent or crimped edge 26. The cuff edge 26 can have a wedge slope, so that the postponed Clasp 28, the cuff is increasingly tense as it is pushed in. At 27 is the front plate the clasp 28 denotes.

In contrast to FIG. 18, the cuff according to FIG. 19 points to the free one Profile center extended ends 26 on. The wedge suit is in the middle of the free Relocated profile cross-section. The clamping device 15 is through the slide Clamp 28 clamped tightly around the interlocking expansion profiles 1 and 2. The profiles themselves are frictionally set against each other, the expansion profiles 1 and 2 of the extension frame can be used individually or several at the same time in just one Work process for finished segment arcs, as shown in Fig. 12 and 13, be bent. The application of the brake and sliding pads can be done in addition to the already options shown without further pretreatment of the profiles by painting of lead paint or the like.

The cross-sectional shape of the extension profiles 1 and 2 is the curve shape based on a hood or an ellipse.

The special design of the outer surface of the main chord of the extension profiles 1 and 2 of the extension frame gives the option of bolts and spacers to be able to attach better and easier than before. In addition, the accumulation of material in the area of the main chord of the profiles with simultaneous weight reduction advantageous. In addition, the arrangement of the grooves on the outer surface of the Expansion profiles 1 and 2, the delay is better distributed and safely taken away. The gearing of the external outer profile acts because the open profile cross-section of the extension profiles of the extension frame always points away from the mountains, as a brake and relieves the tension elements 9 and 15. In addition to being used for route expansion, the expansion frame is also suitable also for the expansion of the shaft. The special shape of the extension profiles 1 and 2 offers there are also advantages when using the profiles in the manufacture of stamps and caps.

The tensioning and clamping connections 9 and 15 according to the invention Avoid at the point of overlap between extension profiles 1 and 2 of the extension frame However, jerky jolts when the profiles slide into one another ensure and increase the braking effect.

The extension profiles 1 and 2 have a hood and ellipse shape as well as their connection to an extension frame, the advantage of maximum flexural strength and avoid breaks and cracks at the clamping points, so that the profiles themselves are able to cope with the highest demands. The extension profiles are in the X and Y axes 1 and 2 equal moments of resistance. The tensioning and clamping devices 9 and 15 can consist of a steel of higher or lower quality than the expansion profiles 1 and 2 and also be provided with braking or anti-skid protection.

Claims (7)

PATENT CLAIMS: 1. Multi-part support frame for pit support, in particular the expansion of the route, in ring and arch form, the one that can be stacked and nested as well as sliding support segments, the - preferably as internal profiles formed without reinforced edge flanges - expansion profiles in the overlap area are clamped against each other by means of removable or fixed clamping devices and the cross-section of the expansion profiles is designed so that the expansion profiles are optional are interchangeable and also any nesting of profiles of the same or of different weight classes, by the fact that the Extension profiles (1, 2) at their apex in the reinforced main chord (8) Transverse ribs or transverse grooves (5) spaced from each other or an uninterrupted one Have longitudinal groove (6) for weight reduction and for stiffening, the Inner surfaces (3) and the outer surfaces (4) of the extension profiles (1, 2) in the shape of a hood are curved or elliptical and with the profiles through between them (1, 2) inserted or encompassing clamping means are braced against one another and the clamping means as sliders. Tabs. Drawstrings (9) or cuffs (15), which have a quick release, are formed. 2. Method of manufacture the extension profiles for the extension rails according to claim 1, characterized in that that the expansion profiles (1. 2), which consist of high-strength Thomas steels, through Warning treatment, especially through hardening at 950 ° C, down to about 50 his 150 ° C and quenched after the rolling process at 950 ° C in straight lengths and then cold or warm to the appropriate expansion or radius of curvature be bent, with a simple or Profiled, universal-like flat iron (16) with longitudinally or transversely grooved or toothed surface is used, and that the expansion profiles to several at the same time be formed into finished segment arcs in just a single operation, with Before applying sliding and brake linings to the support profiles, the rolling skin is removed, which is preferably done by treating the metallic underside done by sandblasting or pickling. and then both on the entire extension profiles as well as the brake and sliding linings on the sliding pieces by galvanizing or spraying on or in the form of plastic, aluminum paint, Lead bronze paint, Copper or lead paint can be applied. 3. Extension frame according to claim 1, characterized characterized in that the clamping devices bracing the extension profiles lying one inside the other with one - as an opposing pair of wedges or as guided in the direction of the longitudinal axis Wedge or as a pressure screw that acts in the axial direction, or as a slide-on clasp trained - clamping device are provided. 4. Extension frame according to claim 1, characterized in that with alternating arrangement of the clamping devices between the expansion profiles and these including the between the individual clamping devices formed by the inner surfaces and outer surfaces of the nested profiles Clamping gap is provided with a wedge wood insert, advantageously made of plywood. 5. Extension frame according to Claim 1, characterized in that the flanges of the profiles are formed slightly curved in the area of their free edges. 6. Extension frame according to claim 1, characterized in that in the overlapping area of the profiles provided clamping devices are connected to one another by a flat iron. 7. Extension frame according to claim 1, characterized in that between the extension profiles in the overlap area two the supporting surfaces forming tabs or spacer strips are inserted, between which a bracket collar comprising both extension profiles is arranged as a clamping device which braces the profiles against each other with elastic deformation. B. Extension frame according to claim 1, characterized in that the profiles in the X and Y axes have the same resistance moments and the provided clamping devices and brackets are made of steel of higher or lower quality than the profiles and are provided with a brake lining or anti-skid. Documents considered: French Patent Nos. 365 496, 877 893, 1 042 997, 1085 554; Austrian patent specification No. 177 743.