DE945837C - Pit lining from channel-shaped profiles - Google Patents

Description

Pit lining from channel-shaped profiles. The invention relates to a yielding pit support, preferably route support, which is also articulated can be. Two or more channel-shaped pit lining profiles are each segmented to one another Covering at the connection points, by means of tensioning devices to form a sliding bend summarized and pressed together. Slide under the action of the mountain pressure the expansion segments by overcoming the contact pressure generated by the clamping means yielding along each other. This shortens the length of the extension bend and prevents its deformation or destruction.

A pit lining is known in which the pit lining profiles are involved inward-inclining Steffen can be used. There is a double wedge between the bars Clamping head that can be tightened by means of a clamping screw and the inside when tightened presses against the external pit support profile. The flanges of the nested Pit support profiles are encompassed by clamp brackets. This embodiment requires anomalous pit support profiles, the webs of which are inclined towards each other. Such Profiles are more expensive and more difficult to set up. The nuts and bolts stick out in the expansion space.

The pit lining according to the invention allows normal channel profiles to use. The clamping devices are completely housed in the internal profile. According to the invention, clamping blocks are in pairs in the internal pit support profile arranged, the pressure surfaces of which are adapted to the web inclination and which by expanding means are spread apart. The floors the expansion segments are here built into the rock face in a known manner. The clamping devices can be conveniently used and operated. By actuating the clamping devices, the clamping blocks are spread apart and the two expansion segments braced against each other. the The flanges of the profiles are enclosed by clip brackets. Since the well-known brackets: Brackets only have the task of holding the tensioned expansion segments together, they can be made simple and cheap. The arrangement of the clamping devices in inner extension segment protects this against damage. The combination of these features results in an operationally reliable pit lining that does not have any in the cross-section of the route has protruding parts: One embodiment of the clamping means are clamping blocks, which are beveled on the outside to match the webs of the expansion segments and on the inside on the one hand a screw bolt and on the other hand an adapted rotatable clamping nut wear. By turning the clamping nut, the clamping blocks are separated and attached to the Bars of the expansion segments pressed. They adhere to them through self-locking friction.

The clamping nut can be articulated in the clamping block to the To facilitate adjustment of the clamping blocks to the webs.

Screw bolts can also be used to spread the tensioning blocks apart serve on both tensioning blocks, which are in a tensioning nut with opposing threads are screwed in. When turning the clamping nut, both screw bolts are turned at the same time dispersed.

In terms of production, clamping elements that are mirror-inverted are advantageous as clamping means, which are provided with keyways on the inside for mounting a clamping wedge are. The clamping wedge is preferably driven in the longitudinal direction of the support segments. It then does not protrude into the cross-section of the route. Basically it is also possible to drive in the clamping wedge perpendicular to the floors of the extension segments.

If the clamping devices are not connected to the clamps, they will adhere firmly to the inner expansion segments. Friction of movement, takes place only between the expansion segments instead. You can use the bracket or one of the related Hold the clamp brackets at the ends of the extension segments. The clamp brackets held are then in 'relative movement to the other extension segment when they sink in. This relative movement can be used to increase the overall friction by moving the clamping devices connects to the bracket or is supported on them in the direction of insertion. Through this there is additional friction between the clamping devices and the inner support segments achieved. One or two clamping devices can now generate kinetic friction, change the overall friction and adapt to the mountain conditions. Likewise one can Install only one clamping device at a connection point, i.e. on the second clamping device refrain so. that the second clip bracket acts only as a guide bracket.

The drawing shows four embodiments of the invention each as Cross-section and as a side view of a connection point, and indeed in Fig. I and 2 with clamping blocks and clamping nut with opposing thread, "Fig. 3 and ¢ with Clamping blocks and articulated clamping nut, Fig. 5 and 6 with clamping wedges in two pairs of clamping profiles and Fig. 7 and 8 as. Fig. 5 and 6, but with a clamping wedge in just one pair of clamping profiles.

The channel-shaped expansion segments i consist of the floors and the inclined webs, the ends of which are designed as flanges. They are made of sheet steel manufactured. The flanges are spanned by the bracket 2. The clamping devices are arranged within the inner expansion segments i. In Figs. I and 2 are there clamping blocks 3, the pressure surfaces of which the inclination of the webs of the expansion segments i are adapted. The clamping nuts serve to spread apart the clamping blocks 3 4. In Fig. I there are two screw bolts 5 with opposing threads in the clamping nut 4 screwed in. In Fig. 3 a screw bolt 5 is screwed into the clamping nut ¢, which are rotatably mounted in the pin 6 and pivotably mounted in the pivot bearing 7. is. In fig. 5 to 8 are the mirror images of the same clamping elements 8 in pairs as clamping means installed, in their keyways 9 the clamping wedges io in the longitudinal direction of the expansion segments i are driven. The clamping elements 8 are with the cams i i on the clamp brackets 2 supported. In Figs. 5 and 6 two such clamping means are one behind the other installed, in Figs. 7 and 8 - such a tensioning device and a second clamp bracket2, which only acts as a guide bracket.

Claims (5)

PATENT CLAIM: i. ' Mine construction, in particular route construction two nested, channel-shaped pit support profiles, which are connected by internal Clamping means are pressed together and the flanges of which are spanned by clamp brackets are characterized by clamping blocks (3, 8), which are paired with the gradient adapted pressure surfaces are spread apart by spreading means (4, 5, 6, io). 2. Pit lining according to claim i, characterized in that screw bolts are used as expanding means (5) with rotatable clamping nut (4) serve (Fig. I to 4). 3. Pit support according to claim 2, characterized in that the clamping nut (4) is articulated in the clamping block (3) is (Fig. 3 and 4). 4. Pit lining according to claim i, characterized in that as a spreading means mirror-inverted, with keyways (9) for storage one preferably in the longitudinal direction of the pit lining segments (i) driven clamping wedge (io) provided clamping blocks (8) are used (Fig. 5 to 8). 5. Pit lining according to claims i to 4, characterized in that the clamping means (3, 8) are connected to the clamp brackets (2) or are supported on them in the insertion direction (Fig. 5 to 8). Documents considered: German Patent No. 682 i47.