DE2556301A1 - Formwork support anchor stressable girder - with upper and lower chords comprising two components, and all interconnected by stem - Google Patents

Abstract

The girder, as used in formwork support, is designed to be universally adaptable, and easily symmetrically stressed by form anchors or similar, without any need for holes to be made in it. It comprises top and bottom chords, interconnected by a stem running vertically between them, backwards and forwards between their edges, over the length of the girder. The upper chord (1) and lower chord (2) are each made up from two chord components (4), arranged parallel on the inside and at an interval apart. All these components are interconnected by the stem (3). The upper and lower chord components on one side may be interconnected by fishplates (6), fitted at the points where the stem runs across to the other chord component.

Description

Beams with upper chords and lower chords that

by a bar running vertically between the straps The invention relates to a carrier with upper chords and lower chords, which are connected to one another by a web running vertically between the straps are, the web between the edge regions of the belts over the longitudinal extent of the carrier runs back and forth.

According to DT-Gm 1 960 856 two beams arranged parallel to each other and braced with formwork anchors. Intended to only a single beam must be used, for example for the formwork anchor special bores are made through the carrier, or the carrier must be asymmetrical be braced so that additional bending moments occur on the carrier. Through the The introduction of additional bores in the straps of the girders results in a weakening the same and an additional time-consuming operation is required.

In contrast, the invention is based on the object of a carrier to create the type mentioned, which can be used in a simple manner symmetrically by formwork anchors or the like. can be clamped without holes or Breakthroughs must be made.

To solve this problem, the invention provides that the top belt and the lower chord each consists of two parallel on the inside, at a distance from one another arranged belt parts consists, and that all belt parts through the web with each other are connected.

By using two such belt parts arise in the Plane of symmetry of the carrier free passages through the tie rods or the like. simple are feasible. The introduction of force occurs directly in the plane of symmetry no laterally acting forces or moments, as is the case with an eccentric force attack is the case, or how this occurs, when the center of thrust of the beam does not lie in the plane of symmetry. Of course, the straps and the web made of wood, plastic or metal, or a combination of these materials. at Straps with straps made of metal can advantageously be in front of or between the Belt parts are at least partially provided nail strips, so that formwork coverings or the like can be nailed directly to the carrier.

The nail strips can be made of wood or plastic.

A rational, cheap production is possible when used as belt parts Standard profiles, preferably angle profiles or U profiles, are used as these profiles Manufactured in large series can be purchased cheaply in the market. The belt parts can also be made from wood with a rectangular cross-section if the Processing of wood is preferred. The web itself can advantageously a zigzag Have corrugated or trapezoidal shape and made accordingly be made bent or shaped sheet metal strips. In the case of wooden beams but also the web advantageously made of juxtaposed, possibly with one another galvanized wooden panels or correspondingly shaped strips of plywood.

Increased stability of the carrier can be achieved by that in each case the belt parts of the upper belt and lower belt lying on one side through Tabs are connected to one another, the tabs then being provided at the points where the web runs on the other part of the belt. The tabs at Especially high stress prevents buckling of the belt parts. The carrier is thus also for the transmission of axial compressive forces, for example for support oddgle particularly suitable.

At. A pure wooden beam can be used to achieve a particularly high Load-bearing capacity of the web have milled tongues which are in corresponding grooves the belt parts are embedded and glued there. The feathers are each on the Outside of the belt parts provided so that the triangular, the groove inward limiting wooden part of the belt parts is as large as possible and does not tend to break out.

A significant increase in the strength of the beam is achieved by that the ends of the strap parts and the web each have a faceplate with one another Are positively connected, which means that high ones also act on the girder ends Bending moments and transverse forces can be safely absorbed. For pushing several at the front Carriers can advantageously the end plates with a coupling device Particularly advantageously, the coupling device can have at least one dovetail groove have, then for the frontal coupling of two carriers in those facing each other Grooves of the two carriers at least one double wedge can be inserted through the transverse forces and tensile forces are transferable. A particularly advantageous embodiment provides that one wedge lock each in the tension and compression zone, i.e. in the belt areas is arranged.

Further advantages and features of the invention emerge from the following Description based on the accompanying drawings and further subclaims They show: FIG. 1 a plan view of a carrier, FIG. 2 a side view carrier shown in Fig. 1, Fig. 3 is a cross section through a carrier according to the line III-III in Fig. 1, Fig. 4 and 5, two of Fig. 3 corresponding Cross-sections of other carrier designs, FIG. 6 shows a plan view of a carrier made of wood, FIG. 7 a side view of the carrier shown in FIG. 6, FIG. 8 a cross-section of the carrier along the line VIII-VIII in Fig. 6 on a larger scale, 9 shows a side view of two coupled to one another at the end by two double wedges Carrier, FIG. 10 a plan view of a carrier with a trapezoidal web, FIG a side view of the carrier shown in FIG. 10, FIG. 12 a plan view on a carrier with a wave-shaped web, Fig. 13 is a side view of the in Fig. 11, FIG. 14 shows a cross section through a carrier with asymmetrical Belt training and wooden insert.

The carrier shown in Figs. 1 to 3 made of metal has a Upper chord 1 and a lower chord 2 on r which do not have to be designed identically and are connected to one another by a web 3 running in a zigzag shape. The web 3 consists of a correspondingly angled sheet metal strip.

The belts 1 and 2 each consist of two parallel spaced apart arranged belt parts 4, which are held together via the web 3.

Opposite the kinks 5 of the web 3 are the belt parts 4 of the upper chord 1 and the lower chord 2 each connected to one another via a tab 6.

These tabs 6 are simply welded between the belt parts 4 and prevent the belt parts 4 from buckling too early. The tabs 6, like the web 3, run vertically between the belts 1 and 2.

To also on the existing metal carrier formwork or the like. nail down to be able to, are longer or shorter nail strips between the belt parts 4 depending on requirements 7, as shown in FIGS. 5 and 14. The nail strips 7 can made of wood, but also made of plastic.

The ends of the beam are closed by end plates 8, through which at the same time the ends of the Belt parts 4 and the web 3 firmly are connected to each other, so that transverse forces acting just at the ends can be safely transferred to the entire cross-section of the beam.

As shown in Fig. 9, 8 dovetail grooves in the end plates 9 may be provided so that two such carriers via double wedges 10 on the end face are connectable. For power transmission, the dovetail grooves 9 are parallel to arranged along the belt levels. To achieve a special wedge effect the double wedges 10 can also be slightly conical.

In FIGS. 6 to 8, a carrier made of wood is shown The bridge consists of plywood sheets galvanized together or shaped accordingly Plywood strips, which are on for better anchoring in the straps 1 and 2 respectively their outside are provided with tongues 11 which are glued into corresponding grooves 12 are. The arrangement of the springs 11 on the outside of the web 3 are the Triangular parts 13 cut free by the grooves 12 are somewhat larger, so that the inclination to chipping at high loads is reduced.

The web 3 can also be corrugated or trapezoidal instead of the zigzag shape be formed (Fig. 10 to 13).

Due to the parallel arrangement of the belt parts 4 at a distance, in the plane of symmetry of the beam at almost any point a tensioning anchor, a Screw connection or the like. be carried out, so that these carriers are particularly advantageous can be used to support formwork coverings in construction.

The possibility of the almost revealing arrangement of tie rods or the like. is advantageous in civil engineering, since only a few dimensions are standardized there, see above that here the carriers are particularly versatile. When in Fig. 14 in .Cross section The carrier shown consists of the upper chord 1 of two L-profiles, between the outer upwardly directed legs a wide nail bar 7 is arranged, so that formwork coverings can be safely nailed on.

L e r s e i t e

Claims (18)

Claims girders with upper chords and lower chords through a bar running vertically between the straps are connected to one another, where the> web between the edge areas of the belt above the longitudinal extension of the carrier runs back and forth, characterized in that the top belt (1) and the lower chord (2) each consists of two parallel on the inside, at a distance from each other arranged belt parts (4) and all belt parts (4) through the web (3) together are connected 2. Carrier according to claim 1, characterized in that all <Curt parts (4) and the ends of the web (3) are connected to the end plates (8). 3 carrier according to claim 1 and 2, characterized in that before or nail strips (7) are at least partially provided between the belt parts (4) (Fig. 5 and 14) 4. Carrier according to claim 1 and 2, characterized in that as Belt parts serve standard profiles, preferably angle profiles (Fig. 5 and 14). 5 carrier according to claim 1 and 2, characterized in that the belt parts (4) are U-profiles (Fig. 4). 6. Carrier according to claim 1 and 2, characterized in that the Belt parts (4) are formed by pieces of wood with a rectangular cross section (Fig. 8). 7. Trager according to claim 1 and 2, characterized in that the Web (3) has a zigzag shape. 8. Carrier according to claim 1 and 2, characterized in that the web (3) trapezoidal shape (Fig. 10) 9. carrier according to claim 1 and 2, characterized in that that the web (3) has a wave shape (Fig. 12). 10 carrier according to claim 1 and 2r characterized in that the on belt parts (4) lying on one side of the upper belt (1) and lower belt (2) through tabs (6) are connected to one another, the tabs (6) being provided at the points where the web (3) runs on the other part of the belt (Fig.l, 10 and 12) 11. Carrier according to claims 6 and 7 made of wood or plastic or mixed, characterized in that that the web (3) is formed by plates placed one against the other at i-m angles. 12. Carrier according to claim 11, characterized in that the web (3) consists of plates that are galvanized together 13. Carrier according to claim 11, characterized marked, dDI de: Stey (@) consists of appropriately shaped strips. 14. Carrier according to claim 11 or 13, characterized in that d!% Bar (3) has springs (11), the corresponding grooves (12) of the belt parts (4) are embedded and glued. 15. Carrier ch claim 14, characterized in that the. feathers (11) each provided on the outside sinc (Fig. 8). 16. Carrier according to claim 2, characterized in that the end plates 3aß (8) have a coupling device, 17. Carrier according to claim 16, characterized in that at least one dovetail groove as a coupling device (9) is provided, with the front coupling of two carriers into each other facing grooves (12) at least one double wedge (10) can be inserted. 18. Carrier according to claim 1 and 3, characterized in that the Belt parts (4) of the upper belt (1) are L-profiles, between their upwardly directed Legs the nail bar (7) is held.