DE3116642A1 - METHOD FOR THE PRODUCTION OF A SPECIALTY BRACKET AND METHOD BRACKET PRODUCED BY THE METHOD - Google Patents

Abstract

1. Method for producing a lattice girder with at least one zig-zag strut arranged between two beams and connected thereto and which is formed from a continuous metal band, at least one beam having a U-shaped cross-section and the metal band firstly being fixed to the back of one chord as a strut and is then connected to another chord, characterized in that prior to fixing the upper chord to the strut, a sheet metal covering, ceiling or roof layer is placed thereon and whose profile shape corresponds to that of the strut, the latter optionally comprising a lamellar portion separated from the covering layer.

Description

The invention relates to a method for producing a truss with at least one, between two spars arranged and connected with this zigzag extending strut, which consists of a continuous metal band is formed, with at least one spar having a U-shaped cross section and one by this method manufactured lattice girders, in particular for storage on supporting columns of skeletal structures.

There are already generic lattice girders known in which the metal strip to be deformed for bracing is profiled. This means a relatively high manufacturing cost. In addition, there is the disadvantage of these trusses that ceilings or ceiling beams only the actual trusses can be stored. As a result, the height of the building to be built is around the For structural reasons, the required height of the trusses increased.

The object of the invention is to provide a method for producing a truss that is integrated allows the ceiling in the truss within their construction height.

According to the invention, the object is achieved in that only on the back of the central web of the lower chord, which is U-shaped in cross section, has a zigzag shape formed flat surface sections having sheet metal strips is attached as a strut, and then that of the lower chord distanced to this parallel surface sections of the strut can be attached with an upper chord, which is im Cross-section is rectangular or U-shaped.

In a special embodiment of the invention, the truss is through a! U-shaped lower chord in cross-section marked, which with its side bars on supporting columns of a skeleton construction lying on the Support columns can be stored and on the middle of the side webs facing away as a bracing to the top chord Zigzag formed flat surface sections having sheet metal strips is arranged.

Further features of the invention are described in the subclaims and below using the example of the one in the drawings illustrated truss explained in more detail. It shows

1a and 1b each show a truss according to the invention with different upper chords, each in a side view in partial section

Fig. 2 shows a truss according to Fig. 1a in

a perspective view in an exploded view

As shown in Fig. 1a, the truss 1 consists of a lower chord 2 and an upper chord 7 and a strut 6. The lower chord 2 has a U-shaped cross section and is arranged so that the side webs 3, 4 are directed downwards are. The strut 6 is attached to the surface of the central web 5 of the lower chord 2 that is remote from the side webs 3. The upper chord 7 is fastened to the surface sections 9 of the strut 6 facing away from the lower chord and parallel to these. The upper belt 7 has a generally rectangular cross-section and can, for example, as a sheet metal strip or the like. be trained.

The strut 6 preferably consists of an obcne surface section having sheet metal strip 12, the zigzag

is shaped. The connection of lower chord 2 and upper yurt 7 with doi bracing 6 can be riveted or Screw connections take place. It is also possible to provide welded or glued connections.

The lower chord 2 is designed so that it can be placed directly on supporting columns of skeletal structures can. The lower chord 2 is preferably designed in such a way that the side webs 3, 4 rest against the support columns. The connection to the support columns can be made in a manner known per se by means of screw bolts or riveted connections take place. If a further storey is formed above the truss and for this purpose on the truss further support columns are to be arranged, can be used as a top chord one with a U-shaped cross-section can be used. This lattice girder 1a shown in Fig. 1b is, except for the upper chord 8, designed like the truss 1. The upper belt 8 is, however, U-shaped in cross section and arranged so that the side webs 16, 17 upwards are directed. Between the side webs 16, 17 can then Support columns, infill elements or the like. be plugged. The strut 6 is connected to the central web 15 of the upper chord 8 via the surface sections 9.

In Fig. 2, a truss 1 is shown in a perspective view in an exploded view. The lower chord 2 can be attached to differently designed support columns 11 of a skeleton structure 10. After that, the Strut 6 designed as a sheet metal strip 12 is attached to the lower chord 2. The sheet metal strip 12 can be special folded sheet metal profile are formed or a blank 14 from a ceiling layer 13, which like the strut 6 is profiled and stored on the truss 1

shall be. If such a top layer 13 on the Lattice girder 1 is to be supported, it is before fastening the upper chord 7 with the strut 6 on the latter laid. Thereafter, the upper chord 7 is placed in alignment with the lower chord 2 on the top layer 13 and this connected to the strut 6 in a bracing manner. Instead of an upper belt 7, the schematically illustrated upper belt can also be used 8 can be used so that the ceiling layer 13 can also be used in a truss 1a.

By integrating the ceiling layer 13 in the truss 1, 1a, the overall height of each floor is reduced by the height of an otherwise required support layer.

The tread and visible surfaces on the ceiling layers 13 are in usually by specially to be attached planking or the like. created. The result of the profiling of the ceiling layer Channels formed in 13 can be used as supply channels for supply lines and the like.

Claims (9)

Claims f 1. Process for the production of a truss with
at least one between two spars nmjponlnctcn
and with this connected zigzag extending strut, which consists of a continuous metal band
is formed, wherein at least one spar has a U-shaped cross-section, characterized in that only on the back of the central web of the cross-section
U-shaped downwardly open lower chord a zigzag-shaped formed flat surface sections having sheet metal strips is attached as bracing and then the spaced from the lower chord to this parallel surface sections of the bracing are attached with an upper chord, which is rectangular or U-shaped in cross-section. 2. The method according to claim 1, characterized in that the cross-sectionally U-shaped upper belt is open at the top is attached to the strut. 3. The method according to claim 1 and 2, characterized in that that a Dockenlagc made of sheet metal is placed before the attachment of the upper belt to the strut on the Profile shape corresponds to that of the strut. 4. The method according to claim 1 to 3, characterized in that the strut from a separated from the ceiling layer strip-shaped section consists. 5. The method according to claim 1 to 4, characterized in that the strut with the lower chord and the upper chord and if necessary, the ceiling layer is connected by means of screw, rivet or welded connections. 6. The method according to claim 1 to 5, characterized in that the lower chord on support columns of a skeleton structure is inserted, with the side bars of the lower chord resting on the support columns. 7. Lattice girder, produced by the method according to claim 1 to 6, characterized by a in cross section U-shaped lower chord (2), which with its side webs (3, 4) rests on supporting columns (11) of a skeleton structure (10) can be mounted on the support columns (11) and on its central web (5) facing away from the side webs (3, 4) as a strut (6) to the upper belt (7, 8) a zigzag-shaped, flat surface sections (9) having sheet metal strips (12) arranged 1st. 8. Truss according to claim 7, characterized in that on the sheet metal strip (12) one of the profile shape of the strut (6) corresponding ceiling layer (13) made of sheet metal is. «Ο ο ο α β α α ο α ο * "β οο β ο ο 9. Truss according to claim 7 and 8, characterized in that that the strut (6) is designed as a blank (14) separated from the top layer (13). ο Lattice girder according to claim 7 to 9, characterized in that that the upper belt (8) is U-shaped in cross section and with its central web (15) in such a way on the Strut (6) or the top layer (13) is attached so that the side webs (16, 17) face away from the lower chord (2) are arranged.