FI112817B - Construction Beam System - Google Patents

Description

112817

BACKGROUND OF THE INVENTION The present invention relates to a building beam system in which horizontal beams are carried between the vertical columns of a building and support battens which form the floor of a building.

Horizontal beams usually consist of steel beams made of very thick steel sheet or sheet steel profiles filled with reinforcement and concrete mass.

Finnish Patent Publication 93382 discloses a building beam system according to the prior art, in which in the composite beam the prestressing elements are molded into a beam structure. However, it does not disclose the possibility of tightening the prestressing elements.

It is an object of the invention to provide a completely new type of building beam system, in which the floor of the building is directly cast on top of beams carrying load-bearing slabs. The building beam system according to the invention is characterized in that the horizontal beam consists of a plate beam, which is provided with a tensioned pre-elevation by means of drawbars between the plate beam and the vertical column. On the horizontal flanges of the horizontal beam plate beams, bark slabs are laid and a layer of slab covering the entire layer is obtained. Thereafter, a concrete mass is poured around the vertical pillars 20 and over the slab line so that the drawbars are covered. Once the first concrete casting has cured, we have a very durable molding that can be subjected to a second concrete molding to form a leveled molding floor. The so-called. Continuous structural tile with a construction load of approximately half of known flooring solutions.

An embodiment of the invention is characterized in that the draw bar is attached at one end to the gripping projection in the plate beam and at the other end by a clamping wedge anchor or nut connection to an ear protrusion protruding from the vertical column.

Another embodiment of the invention is characterized in that the longitudinal center portion of the plate beam 30 is bent upwards into an A-shape and the vertical pillars have corresponding A-shaped brackets. The plate beams are thus easily placed between vertical columns.

2, 112817

A third embodiment of the invention is characterized in that both sides of the A profile have other upwardly bent A profiles and that the gripping tabs are located about 1/3 of the length of the ends of the plate beam and are secured between the vertical walls formed by the A profiles.

Other embodiments of the invention are set forth in the claims.

The invention will now be described by way of example with reference to the accompanying drawings, in which Fig. 1 shows a vertical column and two plate beams in axonometric view, Fig. 2 shows a mechanical joint between a vertical column and a plate profile;

Figure 4 is a sectional view taken along line IV-IV in Figure 3,

Figure 5 is a sectional view taken along the line V-V in Figure 3, Figure 6 is an end view of the plate profile, Figure 7 is an end view of the peripheral portions of the sheet profile, and Figure 8 is a partially sectional elevational view of the horizontal beam.

Between the vertical pillars 1 of the building site system, there are horizontal beams 2 carrying bark slabs. The tiles can be bark slabs 22, hollow slabs or 20 composite slab profiles. The horizontal beam 2 consists of a plate beam 3, 4, 5 which is provided with a tensioned pre-elevation by a tension bar 6 or a wedge anchor between the plate beam 3 and the vertical column 1. The draw bar 6 is secured at one end to the clamping projection 7 in the plate beam 3 and at the other end by a clamping nut connection 8 to the projection 9 extending from the stop column 1 to the upwardly bent A-form 10 and the vertical pillars Both sides of the A-profile 10 have second upwardly bent A-profiles 12. The gripping projections 7 are located about 1/3 of the length of the ends of the plate beam and are secured between the vertical walls formed by the A-profiles 10, 12. The edge plate beams 4, 5 have a mold-shaped half-A profile 13, which in the be-30 tone casting acts as a mold wall. The figures show a slab beam 3 with a concrete reinforcement 14 attached through its A-profile 311, a bark slab 15 on top of the slab beam flange and a cast concrete mass 16 cast in two batches, the first casting 17 and the second casting 18. as if it were a tile. There is intentionally a considerable gap between the plate beam 3 and the vertical column to provide a longitudinal clearance for the le-5 hinge profile for thermal expansion caused by a possible fire below. The first concrete casting is carried out around the vertical pillars 1, at points 17, to obtain very durable concrete structures around the vertical pillars, and the second concrete casting 18 can be spread over the entire layer, forming an intermediate floor and thus a floor level.

10 The first concrete cast 17 over the beam line extends about 1/3 over the slabs 22, Fig. 5. Thus, the tension bars 6 and plate beams 3 are completely covered. When concrete reinforcement 14 is still inserted through the slab beams 3, a composite beam is obtained from the slab 3. This assembly accounts for about half of the structural loads. The middle sections are then cast and the surface of the tile is made.

Claims (5)

1. A structural beam system, in which horizontal beams (2) between the building's vertical pillars (1) are supported, which support scale plates (22), which constitute the building's intermediate base, characterized in that the horizontal beam consists of a slab (3, 4, 5). , in which a tensioned elevation increase is achieved with tension bars (6) between the disc beam (3) and the vertical column (1). 2. A structural beam system according to claim 1, characterized in that a pull rod (6) is fixed at one end of it to a fixed projection (7) on the panel beam and at the other end with an exciting wedge anchor or nut connection (8) fixed to a vertical vertical pipe. 10 (9). A structural beam system according to claim 1 or 2, characterized in that on each side of the A-profile (10) there are other folded A-profiles (12) and that the fixed projections (7) lie at a distance of about 1/3 of the length ( 1) from the ends of the slab beam and are fixed between the horizontal walls formed by the A profile (10, 12). 4. A structural beam system according to claim 1, characterized in that, adjacent to a vertical column, the wedge anchor or nut joint is a watertight bolt which spans two tension rods in each direction. : 5. A structural beam system according to any preceding claim, characterized in that an edge plate profile (4, 5) has a profile which constitutes one half of an A profile, which at the concrete casting acts as a mold wall (13). <