DE1192137B - Connection clamp for tensioning nested channel profiles of the pit extension - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

E21d

PL,

German KL: 5 c- 9/10

Number: 1192137

File number: B 61199 VI a / 5 c

Filing date: February 9, 1961

Opening day: May 6, 1965

The main patent relates to a connecting clamp for bracing relative slidably to one another supported gutter profiles, whereby the clamp is coupled to one of the profiles in the sense of entrainment is and consists of a bracket that engages under the profiles and one that can be coupled with this, the profiles overlapping bracket consists, wherein the tab can be pressed against the undersides of the profile flanges is. The main patent is characterized in that at least the against the flanges of the connecting clamp relatively displaceably arranged channel profile pressed surface sections of the Connection clamp with a particularly counteracting expansion stress on the profiles hard guide rib are provided.

These connections are special clamping devices where it is important to that the profiles are braced against each other with great force, but with one can perform such sliding arch expansion required relative longitudinal displacements. The insertion resistance between the relatively displaceably arranged channel profiles should be over the entire Insertion path remain essentially the same.

The present invention is based on the object in the sense of the main patent, the connecting clamp to further develop in an expedient manner, if possible while achieving a relatively simple design. The invention is accordingly characterized in that the against the flange surfaces of the channel profile protruding guide and clamping body from in the Material of the reinforced pressure ribs of the lower clamp flanges, only part of their height Diameter embedded and welded small balls made of hard material, z. B. steel, are formed.

In the connection according to the invention, it is therefore essential that the small spherical Pressure bodies are welded in the recesses of the pressure ribs of the clamp flanges, so that they cannot rotate. There are also no prepared guide grooves in the Flanges available. Rather, it is important that the protruding from the small balls Part in the flanges causes a plastic deformation and that through this continuous plastic Deformation of the insertion resistance is determined.

In the case of proposals for screw locking devices that have been around for decades, it is known that in the pressure connection clamp for bracing
nested channel profiles
the expansion of the mine route

Addendum to the patent: 1112 478 -

Applicant:

Bochum ironworks Heintzmann & Co.,
Bochum, Blücherstr. 33

Named as inventor:

Dipl.-Ing. Hans-Friedrich Heintzmann,

Erwin Blenkle, Bochum

surface of a washer to switch on a small ball as a locking element. The problem is hence a different one. Connection clamps for sliding bend dismantling are completely different Objects, with certain movement processes by means of the balls in the sense of the special task should be regulated between the nested gutter profiles.

In connection clamps for tensioning channel profiles, it is known to provide rolling bodies in certain pressure areas of the channel bottom or the outer flange surface of the inner channel profile, which are intended to reduce the frictional resistance. Furthermore, tilting of the connecting clamps should be prevented with the help of the rolling or rolling rollers. This reduction in frictional resistance is synonymous with a lower load-bearing capacity of the expansion.
In the construction according to the invention, any reduction in the frictional resistance is not only avoided, but even an increase in friction is achieved. The flanges of the outer profile are gripped with the aid of the spherical projecting pressure bodies. The ball-like projections form, so to speak, coupling points that engage in the profile flange undersides and work in the manner of joints that allow the lateral sliding of the

509 568/86

Claims (2)

Prevent pressure strips from the profile flanges and thereby press the flanges of the outer profile against the inner profile with great certainty. Thereby frictional forces between the profiles and between the outer profile and the lower part of the connecting clamp are achieved in several respects. This secure bracing contributes to the fact that the individual parts of the connecting clamp do not have to be unnecessarily oversized. In a further embodiment of the invention, using clamp halves which are connected on each longitudinal side by a clamping screw, an improvement is achieved in that the balls are arranged in the cross-sectional plane running through the two clamping screws at an inward distance from the clamping screws. This enables fewer balls to be used and results in efficient pressure transfer. When using several balls assigned to a bracket flange, the same are arranged offset in the longitudinal direction of the bracket and transversely thereto. As a result, these offset balls attack the profile flanges in areas of the opposing surfaces that are separate from one another. The simple way of fastening the small steel balls gives the further possibility of fastening these balls as close as possible to the inner edge of the pressure bar of the flanges, in such a way that the balls engage in the groove located between the profile flange and the profile web. As a result, the fillet is used as a guide groove in a simple manner and the gaping of the profiles is also effectively counteracted. In an embodiment in which two balls are arranged in each bracket flange, the same are provided at a uniform distance from the cross-sectional plane running through both tensioning screws. In this way, too, an advantageous transfer of pressure from the balls to the profile flange is achieved while protecting the screws. The invention is illustrated by way of example in the drawing. F i g. 1 shows a view of part of two arches forming a route extension in the area of their overlap; Fig. 2 is a section on line II-II of Fig. 1; F i g. 3 shows the fastening of a steel ball in the bracket flange in vertical cross section and on a larger scale. In the illustrated embodiment, the inner profile 1 and outer profile 2 consist of the same rolled profile. The profiles are directly supported on one another in the area of the overlap with their flanges 3 and 4. An intermediate space is provided between the floors 5 and 6. The connecting clamp consists of the bracket 7 and the bracket 8. The bracket has the flanges 9, while the bracket is provided with flanges 10. The bracket flanges and the bracket flanges are connected by a screw 11 on each side of the clamp. However, it is also possible to use two screws on each side of larger clamps. The screws 11 can be connected directly to the bracket 7. In the exemplary embodiment, the screws are also provided and secured against falling out. The bracket 7 has a nose 12 which extends in front of the end face of the channel profile 1, so that the connecting clamp is coupled to this profile 1 in the sense of entrainment. During the relative displacement of the channel profiles 1 and 2 under the load of the rock, the channel profile 2 must therefore slide through the connecting clamp 7, 8, provided that the frictional resistance is overcome. The flange 9 of the bracket 7 has a downwardly directed projection which engages behind the flange 10 of the bracket 8 and thereby supports the entrainment of the bracket 8 by the bracket 7. It is also possible to provide a connection clip suitable for generating a clamping force at the end of the channel profile 2. In this case, the bracket 7 is provided with lugs which grip in front of the end face of the channel profile 2. The balls are fastened in the bracket 7 and lie on the flanges of the inner profile 1. This second connection clip can, however, also be replaced by a guide ring which is coupled to the channel profile 2 in the sense of entrainment. The tab 8 of the connecting clamp has strip-like projections 14 which are directed against the underside of the flanges 4. In the upper side of the strip-like projections 14, short, approximately perpendicularly directed depressions 14 a are provided, which receive balls made of hard material, in particular steel balls 15 a. The depth of the recess 14 a is selected slightly less than the diameter of the ball 15 a, so that the ball protrudes with a dome over the bar 14 and forms a particularly hard rib. This ball is - viewed from the clamping screw 11 - arranged offset to the 'channel profile, but is located with the screws 11 in the same cross-sectional plane, so that the tensioning force of the screws 11 is effectively transmitted through the ball in the flange of the channel profile. If there are several balls, a corresponding offset is made both in the longitudinal and in the transverse direction. The relatively small steel balls 15 are welded into the recesses 14 a. The deep embedding of the balls and the welding ensure that these balls cannot be torn out of the bracket flanges. Patent claims: 1. Connection clamp for tensioning nested gutter profiles of the Pit extension according to patent 1 112 478 using spherical pressure bodies, characterized in that the guide and clamping bodies projecting against the flange surfaces of the channel profile in the material of the reinforced pressure ribs (14) of the lower clamp flange (10) only with a part of its diameter embedded and welded small balls (15) hard material, e.g. B. steel, are formed. 2. Connection clamp according to claim 1, wherein the clamp halves on each longitudinal side through a clamping screw are connected, characterized in that the balls (15 a) in the through the two clamping screws (11) running cross-sectional plane in the inward direction Distance from the clamping screws are arranged.