DE1006372B - Device for pressure-resilient bracing of the profile segments of pit support frames - Google Patents

Description

Device for pressure-resilient bracing of the profile segments of Pit support frame The present invention relates to two-part clamping brackets for pressure-resilient bracing of route expansion profile segments. The most common used for this purpose. Connections consist of two by screw bolts clamp halves clamped together. Clamping connections are also common, which brace a one-piece clamp with just one bolt.

These connections. Have the major disadvantage that the screw bolts when sliding the profiles into one another at an angle, until they pass through the raised Bracing pressure can be blocked, deformed or torn off.

Another disadvantage of these clamping connections equipped with screw bolts is that the tension pressure in the connection by tightening the nuts must be done by hand or key. Tightening nuts by hand affects the unevenness of the tension pressures and thus in the different Compressive flexibility of the stretch curve. This difference requires a repeated one Tightening the mother or a news of the connection and thus an additional Maintenance, they also tilt when the profiles slide into one another, stretch or block the compliance.

Numerous proposals have already been made to overcome these difficulties to meet. However, due to their complicated design, they were more susceptible to failure and more expensive and therefore uneconomical. It is known, for example, to use eccentric catches in pit construction to be provided for the pressure-resilient bracing. Thereby the tension is alone Caused by the eccentricity of the clasp, provided there is sufficient contact pressure is available.

In order to achieve this pressing effect, the catch must at least by hand be posted. Another pressing of the profiles against each other when moving but is heavily dependent on the nature of the surfaces of the two profiles. If these surfaces are sufficiently rough, the eccentric catch is taken along. It However, there is a risk that the braking will be caused by the roughness of the braking surfaces becomes too strong and thus the flexibility of the two profiles is no longer guaranteed is. Also switching on a sliding plate between the moving profile and the eccentric catch has become known. But even with this construction it is likely the surface properties play the decisive role.

Eccentric clamping rollers are used as the lock for telescopic pit punches proposed, in such a way that the pinch rollers the round profile of the upper punch are adapted in the pressing surface. However, here too, the safety is in effect depending on the nature of the surface.

To remedy these disadvantages is the object of the invention, so that according to the invention it is proposed that the lever arm be in a recess of a clamping bracket half stored eccentric ring engages in a recess of a steel band that between a guide sleeve and a clamping bracket half is attached. In addition, can also the lever arm of the eccentric catch in a recess in the outer profile or on a bolt attached to the outside of the outer profile.

Just like the steel band that is held on the guide bracket and by this the clamping bracket is pulled with it when it is pushed apart, through its The eccentric lever of the slot-shaped recess in the area of the bracing bracket The lever arm becomes through the bolt on the outside of the outer profile rotated together with the eccentric collar and bracing by means of the eccentric of the two clamping bracket halves with simultaneous compression of the profiles.

The eccentric height is chosen so that in addition to overcoming the manufacturing tolerances of the profile, the tension pressure is sufficient to yield in the direction of thrust of the profiles. The contact pressure can be increased by the height of the eccentric (Load absorption) must be specified in advance in the clamping connection.

The screw bolts only serve to connect the clamp halves and by no means as a means of achieving pressure for one another bracing profiles. In the formation of this clamping connection only one link is required for compressive compliance. The second link serves as a guide bracket for the profiles. Undoubtedly, two brackets could also be used be used so that the guide bracket would be omitted.

The advantages of a pressure-resilient one caused by eccentric catches Bracing of channel profiles of all kinds are; besides the more reliable tension and achievable even pressure resilience, an automatic, already through Tensioning of the connection triggered by the load on the profile itself, the elimination further care and maintenance of the one-time connection.

In the drawings, the object of the invention is shown as an example and schematically, and Fig. 1 shows a resilient bracing with a clamping bracket A and a guide bracket B and a perforated recess in the outer profile, Figure 2 shows the arrangement according to Figure 1 after the insertion of the Profile in the state of its bracing; Fig. 3 shows a section according to CD of Fig. 2, Fig. 4, a stamped recess and Fig. 5 a punched recess; Fig. 6, 7 and 8 show the arrangement of a bolt arranged on the outer profile, while Fig. 9 shows an arrangement of a steel band attached between a guide sleeve and a clamping bracket, in the recess of which the lever arm of the eccentric clasp is guided, Fig. 10 an arrangement according to Fig .9 in the clamped state and Fig. 11 a cross-section of the clamping bracket according to EF in Fig. 10.

In the lower part of a two-part clamping bracket A is an eccentric catch 1 with its eccentric height and the lever arm 2 mounted. By nesting of the profiles in the pressure direction indicated by arrows becomes one in the outer profile provided recess 3, the limitation of which serves as a stop for the lever arm 2, Take this lever arm 2 with you, complete a rotation of the eccentric catch 1 and by means of an eccentric 5 achieve a bracing of the two profiles. The two clamp halves are held together by screws 4.

In Figs. 6, 7 and 8 the lever arm is guided by a bolt 6.

Figures 9, 10 and 11 show another version in which the profiles do not have a stop themselves. A steel band 7 which is provided with a slot 8 is and the guide sleeve B connects to the two-part clamping bracket A, leads the Lever arm 2. A pressure piece 9 transmits the pressure of the eccentric 5 to the inner profile 10, while the eccentric 5 on the other hand is against the inner surface 11 of the steel strip 7 sets. The steel band 7 also carries a shear pin 12, which after the first pressure absorption shears off and releases the steel strip 7, so that when the profiles are pushed in further the steel band 7 is pulled through the clamping bracket A.

Claims (3)

PATENT CLAIMS: 1. Two-part clamping bracket for pressure-yielding Bracing of profile segments in pit support frames, characterized in that that the lever arm of an eccentric pin mounted in a recess of a clamping bracket half engages in a recess of a steel band between a guide sleeve and a clamping bracket half is attached. 2. Two-part clamp according to claim 1, characterized in that the lever arm of the eccentric catch is in a recess of the outer profile is performed. 3. Two-part clamping bracket according to claim 1, characterized characterized in that the lever arm of the Exzenterknagge on one on the outside of the Outer profile attached bolt is performed. Considered publications: German Patent Nos. 203 843, 468 173, 513 855, 730 460; German patent application W 17451 VI / 5c (Patent No. 947 458).