DE3716552A1 - Metal trussed girder - Google Patents

Abstract

The invention relates to a metal trussed girder having two continuous weatherstrip grooves in at least one chord tube, predominantly for the simple and rapid erection of temporary roofings and halls in conjunction with scaffolding equipment.

Description

The invention relates primarily to a metal truss for the construction of temporary halls and roofs as well as for Bridges, suspensions and the bracing of towers.

State of the art

Temporary canopies and tents in stationary and mobile Execution are in construction, especially in repair and Restoration work increasingly related to building and / or workers while working against the weather to protect.

In addition to tents, scaffolding structures are primarily used as Support structure used, mostly with tarpaulins to be disguised. As a rule, lattice girders are used as Roof trusses used with scaffold tubes and scaffold couplings be braced. To achieve a tightness of the roof the roof skin is always arranged at the top and may be Do not pierce structural components or fasteners will. This means that those essential for stability Bandages and ties must be placed under the roof skin for static reasons, if possible, directly below the Top chord. A sag of the tarpaulins between them Bracing, and thus the formation of water bags, can be without attaching a solid base made of planks or specially metal frame manufactured for this purpose (DE 34 21 742 A1) is not avoid. During the application of a plank covering a requires additional high wages, they mean Metal frame an additional material inventory, as this only can be used for canopies. With both methods the tarpaulins must be attached to the substructure, what requires additional effort.  

For the erection of temporary roofs, mainly tents, are profiles with grooves for pulling tarpaulins with piping known. However, these profiles are only as roof racks use, the bracing is done with special parts that only can be used for this use and only one limited variation of span and beam spacing allow. The tarpaulins must be made from one piece. At A tarpaulin can go through between the beams corresponding overlaps of the two tarpaulins a seal the impact can be achieved; the piping inside the groove However, the tarpaulin is only blunted and that means in practice a space between the ends of the two Plan through which water can penetrate the canopy.

description

The object of the invention is an essential Rationalization in scaffolding, primarily during construction temporary roofing and halls in a modular system reach through

• significant savings in assembly due to the simple Attaching the tarpaulin without additional fasteners or Support elements,
• a lower material inventory through versatile use possibilities of the metal carrier in different Areas of application, e.g. B. as a roof truss and Bridging or stiffening girders,
• Integration of the metal support in a modular system with optimal adaptation to the respective structural conditions and use of the stiffening material with clutch-free, self-locking connections,  
• an essential when using aluminum parts Weight saving, which is the process of large units allowed by hand.

The subject of the invention is a metal truss made of round tubes with the diameter of the respective scaffolding system (e.g. German standard 48.3 mm or US standard 50.6 mm), ⟨Fig . 1⟩, preferably made of aluminum. At least one belt tube is equipped with two longitudinal grooves ⟨Fig . 1 (1), 2⟩ for pulling in tarpaulins equipped with piping. Vertical posts (rungs) are attached between two belt tubes, the length of which is dimensioned such that at least two stiffening parts can be connected to each rung.

To increase the load capacity can be drawn between the post diagonal ⟨Fig. 1, rechts⟩. The carrier can be produced in different lengths, the individual lengths preferably having a multiple of the grid dimension of the vertical posts and the carriers being asymmetrical in order to maintain the grid dimension continuously when several carriers are assembled.

Pipe diameter of the belts and posts as well as the grid dimension adapted to the respective scaffolding system, thereby the Use of standardized, usually existing Scaffolding components with self-locking clutch-free Claw connections (horizontal, diagonal, transom) too enable. These components are connected centrally, so that an optimal introduction of force is guaranteed.

Essential components of the carrier are connecting elements that can be attached below the lower flange, even when the tarpaulin is retracted. These connecting elements are designed so that stems and struts are connected directly to the lower flange when the tarpaulin is retracted. The position of the stems ( 2 ) and struts ( 3 ) is fixed by the holes in the grid arranged in the grid ⟨Fig . 4⟩. However, since the local conditions often require an exact adjustment of the position of the stems, a further tube of the respective scaffolding system can be attached below the lower chord by means of these connecting elements ⟨Fig . 4 (4)⟩, on the stems ( 5 ) and struts ( 6 ) can be connected continuously. This is e.g. B. for roofing for repair work on highways is particularly important, since fixed dimensions are specified with narrow tolerances.

When used for temporary roofs, the metal support is preferably installed as a roof truss so that the belt with welt grooves is at the bottom and the tarpaulin is retracted into the plane of the lower flange ⟨Fig . 3, 7 (9)⟩. As a result, the necessary roof structures and bars ( 7 ), ( 8 ), in contrast to all known designs of temporary roofs, can be installed above the tarpaulin, so that the tarpaulin between the lattice girders sags freely as a wide gutter ( 9 ) and the water drain without the installation of additional parts is guaranteed. The pulling in of the tarpaulins equipped with piping on both sides into the belt tubes eliminates the need for any additional fastening material and the additional fastening of the tarpaulins to the substructure that is otherwise required.

In the case of tarpaulin joints in the roof level, training can help the tarpaulin with overlaps between the metal beams one Sealing takes place in the area of the grooves in the pipes but only the possibility to blunt the piping. In the In practice, tolerances have to be expected here, one Exclude complete waterproofing of the roof. So it can be for each span only used tarpaulins of a certain length will. That means in the rental business the need for one Keep a large number of tarpaulins. The subject of the invention allows tarpaulins to be installed on two or three levels. This creates the prerequisite for overlapping planning to come across and through the possibility of variation of the Overlap width to determine this so that standard tarpaulins certain lengths can be used. The conditions  for the retraction of the tarpaulins at different levels can be achieved by:

• * Use of metal supports with welt grooves in both Gird.
• * Installation of a connecting piece, through which the assembly of metal supports with a pipe with a piping groove at the bottom and metal beams with a pipe with a piping groove at the top is possible. The connector is formed so that in the assembled state at the juncture of the collection of tarpaulins is possible ⟨Fig. 6⟩.
• * Assembly of metal beams of different heights, the higher beams are equipped with grooves in both belt tubes and the assembly is carried out so that the lower beam is arranged below the higher beam. The shock is carried out in such a way that the lower chords are connected by plug bolts so that the tarpaulin can be pulled from the lower beam over the joint into the upper beam with a greater overall height. The upper chord of the lower, lower beam is connected with a coupling connector to the last vertical post of the upper beam, so that the longer upper chord of the upper, larger beam protrudes beyond the joint, and the tarpaulin drawn into the upper chord of this beam covers the joint and with it overhang on the lower tarpaulin rests ⟨Fig. 5⟩.
• * Ridge pieces on gable roofs that allow tarpaulin to be pulled in a level above the top chord of the metal beams enable.

Ridge pieces are generally used for gable roofs, regardless of whether metal carrier with one or two belt tubes can be used with welt grooves. The ridge pieces, their height is generally about a third larger than that of Carrier, there are 2 versions.

• 1. Two, in the angle of roof pitch obtained welded together support elements mounted on the top flange with a bent pipe piping grooves so that both ends are open and thereby the feeding of tarpaulins is possible ⟨Fig. 9⟩.
• 2. The top and bottom chords of the ridge pieces are bent in a radius corresponding to the roof pitch. While the lower flanges are butted, so that the piping groove of eaves passes to the eaves on the first piece, the upper chords of the metal carrier used as roof trusses are connected to the outer post of the first piece so that the top chords of the first piece are open ⟨Fig. 10⟩.

The procedure is the same for both versions:

The roof tarpaulins are drawn into the girder tubes of the beams on both sides and butted at the ridge point or with an appropriate distance if ventilation is desired. The ridge tarpaulin is drawn into the pipe placed on the ridge piece or the curved top flange, so that the roof and ridge tarpaulins overlap widely. The ridge tarpaulins are preferably covered on both sides with aprons, the lower area with lead cords or similar. are weighted, equipped, on the lower tarpaulin resting ⟨Fig. 9 and 10⟩.

In conjunction with First pieces or with metal beams with greater height, it is possible to arrange Prepare in three levels, which is given an even greater possibility of variation in the use of standardized Prepare ⟨Fig. 8⟩.

In addition to being used as a roof truss, the metal support can be used like any other other lattice girders in normal scaffolding for bridging, Suspensions or to stiffen towers. These versatile uses reduce the Warehousing and allow quick amortization.

Claims (8)

1. Metal truss girder, assembled from individual elements and connectable with standard scaffolding components, characterized in that at least one belt tube is equipped with two longitudinal groove grooves. 2. Metal truss according to claim 1, characterized in that Belts and vertical posts made of round tubes in diameter and are formed in the grid of the respective scaffolding system. 3. Metal truss according to claim 1 and 2, characterized characterized in that vertical holes not only in the straps with welt grooves the ends for the connecting bolts of two beams are, but that regardless of the carrier length in one specified distance from these holes one-sided or further holes arranged on both sides in the same grid are the connection of. even with retracted tarpaulins Enable stems and struts. 4. Metal truss according to claim 1 to 3, characterized characterized in that by means of appropriately trained connecting elements on the vertical holes in the lower flange on one or both End of the lower flange with the tarpaulin retracted respective scaffolding system can be attached to the Stems and struts regardless of roof length can be connected continuously, so that the position the handles are precisely adapted to the local conditions can be. 5. Metal truss according to claim 1 to 4, characterized characterized in that two metal beams of different heights connected can be that the lower flange of both with grooves  provided metal support flush so that the tarpaulin over multiple straps can be retracted, but the top chord is arranged offset, so that also with grooves equipped upper chord of the higher metal carrier remains open and be carried beyond the system dimension of the beam joint can and thus the overhang of the upper chord of the higher Carrier retracted tarpaulin the beam of the lower chord covers. 6. Metal truss according to claim 1 to 4, characterized characterized in that through appropriately trained metal connectors Carrier of the same overall height with the belt tube at the bottom Keder groove with metal brackets with overhead tube Keder groove or both belt tubes can be connected to the keder groove can. 7. Metal truss according to claim 1 to 4, characterized characterized in that for gable roofs two support elements, preferably with grooves in the top and bottom chord, as ridge pieces at an angle are composed of that of the respective roof pitch corresponds and that over the top chord a curved in radius Pipe with piping grooves is attached, which on both sides over the Beam shock can be carried out. 8. Metal truss according to claim 1 to 4, characterized characterized in that for saddle roofs in a roof pitch Radius curved support elements with a one third greater overall height than the subsequent metal supports Keder grooves used in the top and bottom chords as ridge pieces be connected to the metal beams so that the lower belt is pushed flush, so that the welt groove over all connected support elements including the ridge pieces passes through, while the upper girder of the metal beam on the post the ridge piece is connected so that the top chord of the  Ridge piece is open on both sides and over the Beam shock can be carried out.