DE666726C - Resilient arched track extension - Google Patents

Description

Flexible bogenförnüger route expansion It is flexible iron pit punches known that the upper punch. and holding the lower stamp together Clamping means on one of the punch parts through special projections or depressions to secure against falling. Furthermore, these clamping devices were often designed in such a way that that they encompassed the stamp parts in the form of a wide-area sleeve, so that a Canting as a result of being carried along by the upper punch could not occur. Such sleeve-shaped clamps are, however, for the resilient arcuate or ring-shaped Extension of the route is not usable, as with the extension of the route for a light one Rob a complete dismantling of the connecting parts is required, which is not possible with socket-type connections. Also required the wide area Support of the sleeve-like clerical bracket requires a relatively large amount of material.

The invention relates to a resilient arcuate or annular shape Track extension made of profile iron, in which the extension profiles that can be slid into one another are held together by counter bearings under the action of clamping devices, whose narrow contact surface offers no protection against tipping, and consists of essential in the fact that the easily detachable counter-bearing of an expansion profile with a fixed point of the other extension profile in order to avoid hacking the overall connection is force-locked coupled by an additional connecting element is. In the expansion according to the invention, the inclination of the for example designed as a clamp connecting elements, which as a result the resulting neck support effect the resilience of the expansion cancels, effectively prevented, without the easy detachability of the connecting parts affect. Because in the invention is with narrow contact surfaces by the additional fixing of the counter bearing against a fixed point a fuse against Tilting achieved, which is not inferior to that of a socket connection and its disadvantages avoids in terms of solvability.

The invention can be implemented, for example, in the form that a clamping bracket holding the expansion parts together by an oblique to it The tension bracket is secured. Form the clamping bracket and the tension bracket acting on the fixed point in this way a triangular bond, the angular position of which is not caused by a slant of the clamping bracket can be changed. This can be particularly advantageous between the tension bracket and its point of application on the clamping bracket arranged counter bearings be designed as a lever, for example by taking the shape of a hook-shaped bent Tabs, brackets or the like. Receives. In the case of a pit extension, its sliding one into the other Extension profiles are held together by several clamps or the like, will the invention is expediently implemented in such a way that the counter bearings of the individual clamps are connected to each other, in order to equate all clamping brackets and 'thus achieve an even contact pressure ,,: .iu` @.

The invention is shown in FIGS. I to z i at =., For example.

Fig. I shows the connection in side view. The triangle of forces is shown with lines A, B and G. i are two tensioning screws that tighten the sliding shoe 2. 3 is a tension bracket which connects the sliding block 2, for example referred to as a rocker, to the arched or ring part s. If the sliding shoe 2 is carried along by the slipping of the curved or ring part 6, the tension bracket 3 is tightened at the same time and the parts 5 and 6 are strongly pressed together by the tension component Y. The lever arms on which the forces act are labeled a and b.

Fig. 2 is a section I-1 through - Fig. I. As bow or ring parts For example, double I-irons 5 and 6 are drawn, the tensioning screws i shown here as hook bolts, for example. To increase the resistance the connection are friction inserts 4 - marked.

Fig. 3 is also a section through Fig. I. The flat-lying double I-iron 5 is reinforced by welding a flat iron 7. As reinforcement you can however, any rolled profile can also be welded, screwed or riveted, depending on whether you want parts to be more or less resistant.

In section Fig. ¢ is a double I-iron and a U-shaped profile 8 drawn as a bow or ring part. The connection is shown as a bracket 12.

Fig. 5 shows, for example, a U-shaped and rail-like Profile as arch = or ring parts.

Fig. 6 shows channel-shaped profiles as arched or ring parts.

Fig. 7 shows several connections connected in series. One can Bring both connections into effect by means of a pull bar 9 or diagonal bracket 3. Fig 8 shows a rail-like profile with a rope pulley-like profile as a bow or ring part.

Fig.9 shows the bow or ring part as: = double I-irons 5 and 6 with U-bracket connection Jung.

Fig. Io also shows double I-irons as arch or ring parts Connection of sliding shoe 2, crosshead io and screws i i.

Fig. I i shows a four-part ring with four flexible connections. The ring is expediently installed in such a way that the arch parts 6 absorb the main pressure to have.

Claims (5)

PATENT CLAIMS: i. Resilient arched extension of the line Profile iron, in which the extension profiles, which can be slid into one another, pass through under the Effect of clamping means standing counter bearings are held together, their narrow Support surface offers no protection against tipping, characterized in that the easily. detachable designed counter bearings of an expansion profile with a fixed point of the other expansion profile in order to avoid tilting the entire connection is positively coupled by an additional connecting element. 2. Pit construction according to claim i, characterized in that a The clamping bracket is secured by a tension bracket (3) arranged at an angle to it. 3. Pit lining according to claims i and 2, characterized in that the between the Tension bracket and its point of application on the clamping bracket arranged counter bearing (2) as a lever is trained. 4. Pit lining according to claim i to 3, characterized in that that the counter bearing (2) is in the form of hook-shaped bent tabs, brackets or the like. 5. pit lining according to claim i to 4, characterized in that when arranged several clamps the counter bearings are connected to each other (Fig. 7).