DE3621582C1 - Steel-tube trussed girder - Google Patents

Abstract

The invention relates to a steel-tube trussed girder for scaffolding construction, having a top chord 1 and a bottom chord 2 arranged parallel thereto and having diagonal members 3, 4 and vertical webs 5 which are welded in between the top chord 1 and the bottom chord 2. In the case of said girder, the arrangement is such that the tubes forming the top chord 1, the bottom chord 2, the diagonal members 3, 4 and the webs 5 have the same external diameter, and the tubes forming the top chord 1 and bottom chord 2 comprise a steel quality with a particularly high mechanical strength, and the tubes forming the diagonal members and webs comprise a steel quality with a normal mechanical strength (Figure 1). <IMAGE>

Description

The invention relates to a tubular steel truss for scaffolding with a top chord, one parallel to it arranged lower chord and with between the upper chord and diagonal and vertical bars welded into the lower flange ben, with the the upper chord, the lower chord and the rods forming tubes have the same outside diameter.

A parallel-belt lattice girder is known in which Upper and lower chord a mutual distance of 45 cm to have. This steel lattice girder serves as a bridge support and load-bearing element for special constructions the manufacture of scaffolding. He has a top chord, egg nen lower chord and diagonal and Vertical bars. Upper chord, lower chord and rods consist of the same steel with normal strength values. Here have the tubes forming the top and bottom chords same outside and inside diameters, therefore in total including the same dimensions. The bars also have under  the same dimensions, but the Dimensions of the tubes forming the rods are smaller than the dimensions of the top and bottom chord tubes. A such lattice girder has a span of 15 m, if there are two bars, each with a length of 7.5 m are plugged together, a load capacity of 67 kg per running meter. This load bearing is for the most applications too small.

In addition, the individual form the truss the rods have to absorb different forces, so that the available cross-sections correspond are used differently. That can cause that one staff is already overloaded while the other bars are not yet fully loaded.

From GB-PS 7 03 250 a tubular steel truss is the known in the introduction, in which the upper chord, Un belt, diagonal bars and vertical bars made of pipes with same diameter exist. This well-known framework Carrier consists of several carrier units. Any carrier unit instructs a top chord, one at a distance from it orderly lower chord, two pre-spaced and between the top flange and the bottom flange ordered vertical bars and a diagonal bar. Several of these carrier units are with their top chords and lower chords to form a longer truss gers connected.

The invention has for its object a steel tubular truss girder of the type mentioned in the introduction fen, in which the individual who form the truss  Rods are better utilized.

This object is achieved in that the tubes forming the upper and lower chords a steel with particularly high mechanical strength and the tubes forming the rods made of steel normal mechanical strength.

In this way you get to a tubular steel framework Beam with a cross that is optimally used in all bars cut. In addition, the trained according to the invention steel tubular truss girder with a span of 15 m over a load capacity of 450 kg per running meter adds that is fully sufficient for all applications.

In a further embodiment of the invention, that the raw forming the upper chord and the lower chord re made of steel ST 52 or a comparable steel consist.

The tubes forming the rods expediently exist made of ST 37 steel or a comparable steel.

This measure ensures that the Upper chord and comparatively high acting in the lower chord Forces easily from the top and bottom chords be taken while also in the bars acting comparatively lower forces even without further be taken up by the bars without the Bars that have high quality steel straps.

Furthermore, it is recommended that the wall thickness of the Rods is weaker than the wall thickness of the Upper chord and lower chord, with the possibility speed, the wall thickness of the bars is equal to the wall to develop the strength of the upper and lower chord.  

A can be placed between two adjacent diagonal bars Vertical rod can be provided so that diagonal rods and Alternate vertical bars. Appropriately ha ben top flange and bottom flange a mutual distance from 0.5 m to 1.5 m, in particular a distance of 1.25 m.

With the help of the truss designed according to the invention gers can produce a series of truss girders with parallel chords with grading and the possibility of combination be created. There is also the possibility of rah to produce menike structures.

The invention is based on a in the drawing tion shown embodiment of the closer he purifies. It shows

Fig. 1 a tubular steel truss,

Fig. 2 is a tubular steel truss according to FIG. 1, but of half the length,

Fig. 3 shows a shock bolt for connecting two tubular steel truss,

Fig. 4 is a node of the Stahlrohrfachwerkträ gers and

Fig. 5 shows another node of the steel tube compartment carrier.

The tubular steel truss shown in Fig. 1 consists of an upper chord 1 and a lower chord 2 made of raw steel from ST 52. The upper chord 1 and the lower chord 2 forming tubes have an outer diameter of 48.3 mm and a wall in the embodiment shown thickness of 4.0 mm.

Between the upper flange 1 and the lower flange 2 , diagonal rods 3 and 4 and vertical rods 5 are provided, which consist of steel ST 37. The bars 3, 4, 5 consist of tubes having an outer diameter of 48.3 mm, the diagonal bars 3, 4 has a wall thickness of 3.2 mm or age of 4.0 have natively mm, while the vertical bars 5, a wall thickness of 2 , 9 mm or alternatively 3.2 mm or 4.0 mm.

At the two ends of the straps 1 and 2 , screw holes 6 are provided.

The tubular steel truss has a length of 5 m and a height of 1.25 m.

The tubular steel truss shown in Fig. 2 un differs from that shown in Fig. 1 single Lich in that it has half the length, namely a length of 2.5 m.

In Fig. 3 is a push pin 7 with holes 8 Darge provides. The push pin 7 is used to connect at least two steel pipe truss shown in FIGS . 1 and 2 by pushing the push pin 7 into the top chord 1 of the truss shown in FIG. 1 so far that two matching screws through the screw holes 6 of the Upper flange 1 and through the screw holes 8 of the push pin 7 can be carried out. Likewise, another shock bolt 7 is screwed onto the lower flange 2 . Then another truss girder with its top flange 1 and its lower flange 2 is pushed over the two protruding plungers from the neighboring truss girder so that here too the screw holes 6 of the truss girder and the screw holes 8 of the plunger are aligned with one another, so that on these Way two trusses screwed together by means of two push bolts, ie can be extended.

In Figs. 4 and 5, two nodes are Darge provides, in the example illustrated in Fig. 4 node of the lower chord 2, and the rods 3, 4, 5 are welded together, while in FIG. 5 dargestell th node of the top chord 1 and the rods 3, 5 are welded together.

Claims (6)

1. tubular steel truss girder for scaffolding with an upper chord, a lower chord arranged parallel thereto and with diagonal and vertical bars welded between the upper chord and the lower chord, the tubes forming the upper chord, the lower chord and the rods having the same outer diameter, characterized in that the upper chord ( 1 ) and lower chord ( 2 ) form the tubes made of steel with particularly high mechanical strength and the rods ( 3, 4, 5 ) forming tubes consist of steel with normal mechanical strength. 2. steel tube truss according to claim 1, characterized in that the upper flange ( 1 ) and the lower flange ( 2 ) forming tubes made of steel ST 52 or a comparable steel. 3. tubular steel truss according to claim 1, characterized in that the rods ( 3, 4, 5 ) forming raw re made of steel ST 37 or a comparable steel. 4. tubular steel truss according to one of the preceding claims, characterized in that the wall thickness of the bars ( 3, 4, 5 ) is weaker or the same thickness as the wall thickness of the upper flange ( 1 ) and the lower flange ( 2 ). 5. tubular steel truss according to one of the preceding claims, characterized in that a vertical rod ( 5 ) is provided between two adjacent diagonal bars ( 3, 4 ). 6. tubular steel truss girder according to one of the preceding claims, characterized in that the upper flange ( 1 ) and lower flange ( 2 ) have a mutual distance of 0.5 m to 1.5 m, in particular a distance of 1.25 m.