DE1008682B - Bolting for the pit construction - Google Patents

Description

Bolting for the pit lining The innovation relates to a multi-part bolting for pit construction, especially for route construction, the bolt ends of which overlap each other on the extension frame.

With the known bolting for the pit construction and in particular for the expansion of the track, the spacers are made of square iron, flat iron, Elbows, T-irons, U-irons, pipes, etc. are formed. The spacers will be partial clamped to the structures by bending their ends or with the help of brackets and wedges. The known bolts can only be used successfully if the distance of two buildings is the same over the entire outer circumference. Such regularities with regard to the distance between two structures are rare, especially when extending the line. The irregularities in the spacing of the structures are essentially due to inaccuracies when processing the extension arches in the workshop and when installing the structures in the pit itself. These deviations, which are sometimes uncomfortably noticeable the distance between two structures over the entire extension often leads to bolting loosen automatically, which interrupts the bracing. An alignment the spacer to the variable building distance is often time-consuming work, so connected with cutting to size and re-drilling.

These disadvantages of the known embodiments are intended according to the invention can be avoided by creating a bolt, the spacers easily and simply adjust to the changing distance between two structures over the entire scope of the expansion permit.

According to the aim of the invention, it is based on the idea the creation of a length-adjustable bolting for the pit lining, in particular the expansion of the route, in which despite the existing movable connections a pull and pressure pick-up is enabled.

According to the invention, only every second one of the bolts following one another in the longitudinal direction is fastened directly to the extension frame as the main bolt, and the ends of the bolts are each provided with a pair of elongated holes for the fastening screws acting on the extension frame and with a tab with round holes to secure the distance between the screws on the inside of the Main bolt provided. Furthermore, the intermediate (secondary) bolts, which have elongated holes offset from one another in the longitudinal direction of the bolts at their ends in both legs, are connected to the support frame by fastening them to the main bolts. So bolts are arranged at the same height on every construction but one, so that, for. B. on the buildings of an odd number of higher lying main bolts and on the buildings of even number of lower lying secondary bolts are provided. The elongated holes provided on the two legs of the secondary bolsters are arranged offset from one another for the reason that, compared to the distance between the elongated holes on the legs, there are various compensation options between a maximum size and a minimum size. The lower and upper spacers are braced by screws or wedge connections, which can be inserted into the individual elongated holes on the mutually adjacent legs.

The contact surfaces of the overlap points of the adjacent Legs of the upper and lower 'spacers are appropriately roughened, and although by impressions, 'corrugations, metal application or the like.

The small devices, '-which the upper spacers to the Define individual structures are formed by clamping brackets and screws. The screws are made taking into account the elongated holes provided in the legs of the spacers held at a distance by flat tabs with round holes on the inside of the structures.

Instead of clamping brackets and special screws can be used, which embrace with einsei * tig protruding holding claws the flanges or edge reinforcements of the burrows forming profiles. Here, too, it is necessary to keep the special screws at a distance using spacer plates. The clamping brackets or the retaining claws of the special screws can have reinforcing beads on their legs that engage in the profiles of the structures. The bolting can be made entirely or partially from light metal.

The bolting according to the invention primarily offers the advantage that irregularities in the distance between two structures are easy on their entire extension and are easily compensated and that despite the adjustability, a tension and pressure absorption is guaranteed, in spite of the existing elongated holes in the clamped state result in immovable connections.

This type of bolting also has a significant advantage in that that for the attachment of the auxiliary bolts at their ends only one fastening screw is necessary and therefore the expansion is considerably cheaper. It also offers this type of expansion has the advantage of a shorter installation time. What the stress the connecting elements are concerned, so needs to be through these connecting elements The holding on the support frame is not greater than the buckling strength of the bolt to be. A hold in accordance with the buckling strength of the bolt can, however, be achieved achieve the embodiment according to the invention without difficulty, for example, in that the overlapping legs of the main and secondary bolts in the overlap area by grooves, grooves or similar surface design an increased frictional resistance to have.

In the drawings, some exemplary embodiments are shown according to the invention, namely Fig. 1 showing the attachment of bolting means of clamping angle at a point of overlap to an expansion profile, fig. 1 a shows a section through the point of overlap of the spacer along the line IJ as shown in Fig. 1. , Fig. 2 a fastening of the bolt according to Fig. 1, in which the clamping brackets have edge beads, Fig. 3 the fastening of the bolt with special screws, Fig. 4 a spacer, Fig. 5 a view of the bolt attached to three structures and Fig. 6 shows a plan for Fig. 5.

The bolting according to the innovation is composed of two differently designed spacers, namely, a main bolt 1 and a secondary bolt 2. As can be seen in FIG. 5 , the spacers 1 and 2 are attached to the support frame 24 alternately higher or lower. As can be seen from Fig. 1 , the higher-lying main bolts 1 have two elongated holes 3 on one leg at each end and a further elongated hole 4 arranged between these elongated holes 3 on the other leg result, each of their limbs of a long hole 5 and a long hole having at the end 6. the elongated holes 5 and 6 of the spacers are provided on the legs offset against each other and therefore provide compensation possibilities between a maximum dimension and a minimum dimension 7. 8

The bolts 1 and 2 are placed against each other with the legs according to Fig. 1 a and overlap with their ends "so that one of the elongated hole pairs 5 or 6 of the secondary bolts 2 under the elongated hole., 4 of the - main bolt 1 comes to lie übereina-Direction lying Lang18eher 4 and 5 or 4 and 6, the main bolt 1 and the auxiliary bolt 2 are od clamping screws 14, cam locks. like. used. the main pins 1 are clamped to the expansion frame. Here, the terminal device 1 may as shown in fig. by clamping brackets 9 and screws 10. The clamping brackets 9 capture the extension profiles of the structures 24 at their edge reinforcements and are clamped to the main bolts 1 via the screws 10. Because of the elongated holes 3 provided in the legs of the main bolts 1 , it is necessary to attach the screws 10 to the To keep the inside of the extension frame 24 or the main bolts 1 at a distance by flat tabs 11. The flat tabs 11 have round holes so that the screw en 10 cannot approach each other. The clamping brackets 9 , like the special screws 13 in Fig. 3, can also be equipped with reinforcing beads 12 with which they engage behind the extension profiles at their edge flanges as shown in Fig. 2. The contact surfaces of the main pin 1 and the secondary pin 2 are z. B. od by pressing, corrugating or applying metal. Like. Roughened.

every second bolt is therefore arranged at the same height, so that, for. B. the main bolts 1 all above and the auxiliary bolts 2 all below, d. H. under the main pin 1 and are connected to them.

The formation of the bolting after the innovation results In spite of the elongated holes, connections cannot be moved, and it is a guarantee for this given that the bolts can absorb both tensile forces and compressive forces.

as necessary the side bolt 2 4, in the embodiment according to fig. to utilize their spans by pivoting either the called maximum dimension 7 or 8 as minimum dimension spacing of the slots 5 and 6 are fixed. In the exemplary embodiments, the use of bolting in channel profiles is illustrated. Naturally, the bolting can also be used for any other profile, in particular also for I-profiles.

Claims (2)

PATENT CLAIMS- 1. Bolting for pit construction, in particular route construction, the bolt ends of which overlap each other on the support frame, characterized in that of the bolts (1, 2) following one another in the longitudinal direction, only every second bolt is attached directly to the support frame (24) as the main bolt and the ends of the bolts are each provided with a pair of elongated holes (3) for the fastening screws (10, 13 ) acting on the extension frame (24) and with a bracket (11) with round holes to secure the spacing of the screws on the inside of the main bolt (11) , and that the intermediate (secondary) bolts (2), which have elongated holes offset from one another in the longitudinal direction of the bolts at their ends in both legs, are connected to the extension frame by fastening to the main bolt (1) . 2. Bolting according to claim 1, characterized in that the overlapping legs of the main bolts and secondary bolts (1, 2) in the overlap area, for. B. od by grooves, grooves. Like. Surface design have an increased frictional resistance. 3. Bolt according to claim 2, characterized in that the fastening screws (13) have a head (12) projecting on one side which engages in a longitudinal groove in the bead of the extension profile (24). Considered publications: German Patent Nos. 618856, 803896, 818 483; German patent application G 1340 VI / 5 c; German utility model No. 1667 123.