DE1117152B - Rohrfoermiger, barrier boom consisting of several sections - Google Patents

Description

Tubular barrier boom consisting of several sections Die The invention relates to barriers, in particular railway barriers with tubular round trees, which consist of several shots. These shots are often only at the construction site composed. As the barrier booms, especially if they are still with a lattice hanger are provided, under the influence of wind and weather and as a result of their own movement strong bending and twisting loads when closing and opening the barrier are subject to particularly high demands on the connecting parts of the sections posed. The material stresses occurring in the pipes should as far as possible can be transferred over the entire pipe cross-section to the next pipe. Both known tubular barrier booms this is achieved in that the shots are calibrated at the ends and coated with metal glue before joining will. Another possibility to make the shots so that they are rigid and torsion-resistant To connect consists in the use of sleeves that go over the two butting together The ends of the adjacent shots are pushed and connected to these by gluing, riveting or Welding to be connected. Both versions have the disadvantage that the connection points retrospectively if, for example, a damaged shot is exchanged for another should be difficult to resolve again.

This disadvantage is avoided according to the invention in that at least an annular rib or groove is attached to one end of each pipe section and this pipe section end is connected to the next pipe by a clamp, which positively engages around the rib or engages in the groove and preferably by tightening a locking screw on the entire circumference of the tube in a radial direction Direction is brought to the concern. The advantages of this connection are that that it is rigid and invariable in operation. Nevertheless, the connecting parts be very light. It is very easy to assemble. In addition, the connection very safe, as they are relieved of the more or less tight tightening of the single connecting screw and is almost independent of the quality of this screw. In addition, the clamp can be elegantly designed without great effort, e.g. B. with beveled flanks and smooth jacket surface: fastenings for Lattice hangers, pendulum supports, guy ropes, lighting fixtures, reflectors, etc. be provided. It is particularly favorable if the ribs or grooves of the tubes or clamps have such a wedge-shaped cross-section that when tightened the locking screw the end faces of the ribs and grooves or the pipe section ends are also pressed together in the longitudinal direction of the boom. Then stands even with a small width of the ribs or grooves and thus of the clamps a large one Contact surface for transferring the loading forces from shot to shot directly or indirectly via the clamp.

The ribs or grooves can be formed by embossing, rolling or bending the Cladding sheet to be attached to the shots. But it is also possible to use the shots with an additional part, e.g. B. a ring to be provided. The invention is both Applicable for conically tapering tubes as well as for cylindrical tubes. These Pipes can be formed from sheet metal in a known manner and welded at their longitudinal seam, be soldered, glued or folded.

Some exemplary embodiments of the invention are based on the figures explained.

Fig. 1 shows a longitudinal section on the left and a cross section on the right a junction of two shots 1 and 2. At the ends that meet of the two sections is each an annular rib 11 and 21 with in the radial direction attached wedge-shaped tapering cross-section. The clamp3 has two of the wedge shape Grooves 31 and 32 adapted to the ribs. There are two at the ends of the clamp Lugs 33 and 34 with holes for a locking screw 35. When tightening the locking screw 35 the clamp is practically on the whole Circumference of both tubes brought to rest in the radial direction. Due to the wedge shape of the ribs and grooves it is also ensured that the pipe sections are unambiguous in the longitudinal direction Position to each other.

2 and 3 are two somewhat modified shapes for the ribs and grooves shown. The shape shown in Fig. 2 has the advantage that the entire contact surface decisive for the transmission of the loading forces from shot to shot of pipe and clamp larger than in the embodiment shown in FIG is. In the wedge shape of the ribs shown in Fig. 3 with beveled on one side When the clamp is tightened, the end faces become the radially extending end faces both rings firmly pressed together. A part of the loading forces of the Barrier boom transferred directly from pipe section to pipe section. For the production the ribs and the clamp is less labor in this embodiment than required in the other two embodiments.

In Fig. 5 a weft connection is shown, in particular for such trees are suitable, which consist of a number of cylindrical tubes, their Diameter, as shown in Fig. 4, leaps from the tree top to the tree root becomes larger. If necessary, the wall thickness of the tubes can also be from weft to be changed to shot. The stepped construction of a barrier boom shown in Fig. 4 results in the same favorable strength behavior as a conical design continuously changing diameter and also arouses by its external shape the impression of a conical tree. By appropriately dimensioning the levels, can be achieved that the shots telescopically into the root shot during transport can be pushed in, so that only very little transport space for a barrier boom is required. The stepped construction with cylindrical tubes according to FIG. 4 enables also a considerable simplification of the production compared to the conical design, those in the rectangular sheet metal blanks and the simpler production facilities is justified.

From Fig. 5 it can be seen how the increment from the pipe section 4 to the pipe section 5 can be used for the design of the flexible and tensile connection of the two pipes. The thinner pipe section 4 has an outer diameter which is smaller than the inner diameter of the larger pipe section 5. The thinner pipe section can therefore be pushed into the thicker pipe section from behind when the tree is not yet assembled. The pipe section 4 is provided at its end pointing towards the tree root with a ring of the shape shown in Fig. 1, 2 or 3 or with a corresponding rib. The clamp 6 is pushed into the end of the thick pipe section 5 pointing towards the tree top and is firmly connected to it, e.g. B. by welding. The clamp 6 in turn has a groove which matches the shape of the annular rib of the thinner tube. The thicker pipe section 5 is slit in the longitudinal direction at the closing point of the clamp to such a length that it and the clamp 6 can be blown over the rib 41 of the thinner pipe section 4. When the locking screw is tightened, the clamp is stretched so tightly around the thinner pipe section that there is also a completely form-fitting, tensile and flexurally resistant connection between the two pipe sections, which enables the material tension to flow evenly from one section to the next and optimal use of the strength properties of the pipe material .

Loose clamps can also be used to connect stepped sections can be used as provided in FIGS. 1 to 3. The one shown in FIG But execution is. more favorable in terms of the external shape, because this involves the fastening means are partly invisible.

FIG. 6 shows a modification of the clamp shape shown in FIG shown. This clamp 60 has, in addition to the groove arranged on its inner surface, which surrounds the rib 41 of the thinner pipe section, still on its outer surface a groove for a tension band 42 made of spring steel. As shown in Fig. 7 indicated, also in a manner known per se by a single locking screw be tightened so that the clamp in the radial direction practically on the entire The circumference of the thinner pipe section is firmly attached. The weft connection shown in FIG has especially with stepped shots and firmly with each thicker weft connected clamps have the advantage; that there are no lugs on the bells are required for the locking screw. The pipe sections can therefore during transport pushed into one another even further than when the clamp shape shown in FIG. 5 is used will.

Claims (6)

PATENT CLAIMS: 1. Tubular, consisting of several shots Barrier boom, characterized in that at least one end of each pipe section (1, 2) an annular rib (11, 21) or groove is attached and that this pipe section end is connected to the next pipe section by a clamp (3) which is positively locked engages around the rib or engages in the groove and preferably by tightening a Locking screw (35) on the entire circumference of the tube in the radial direction to Concern is brought. 2. Barrier boom according to claim 1, characterized in that that the ribs or grooves have wedge-shaped cross-section. 3. Barrier boom Claim 1, characterized by conical pipe sections that taper so strongly that that the shots lying towards the top of the tree pushed into the root shot from behind can be. 4. barrier boom according to claim 1 or 3, characterized in that that the shots consist of cylindrical tubes in a manner known per se, whose Outside diameter smaller than the inside diameter of the barrier tree root to adjacent shot is. 5. barrier boom according to claim 1 or 4, characterized in that that the clamp (6) firmly, for. B. by welding, connected to the thicker section (5) is and that this shot at the closing point of the clamp with a lengthways extending slot is provided so that the clamp over the rib (41) of the after the The top of the boom can be blown to the lying shot. 6. Sohrankenbaum according to one of claims 1 to 5, characterized in that the Clamps (60) are provided with a groove for a tension band (42) on their outer surface are that when tightening the locking screw the clamp radially to the to be connected Pipe sections presses. Publications considered: German Auslegeschrift No. 1023 789; Austrian patent specification No. 153 856.