SE500312C2 - Prefabricated building element - Google Patents

Abstract

A prefabricated structural wall unit for houses, comprising a load-carrying reinforced concrete panel (2) and a rigid insulating material (4) in abutment against the broad face (3) and secured to said broad face (3) by means of thin bars (11) of thin galvanized sheet metal, said bars having flanges (14) in abutment against the face (13) of the insulating material (4) that is turned away from said broad face (3), and also anchoring members (15) which are embedded into the concrete of the panel (2) and extend transversely to and through the insulating material (4).

Description

500 10 15 20 25 30 35 312 2 In addition, the wooden joists themselves are quite thick, usually approx. 20-40 mm, which means that they protrude corresponding dimensions from the insulating material away from the flat side facing the concrete slab. A disadvantage of this is that they are unaesthetic to be used alone together with the insulation material to form, for example, interior walls in buildings. To hide the wooden joists, an additional wall cladding is therefore required in the form of, for example, building boards or plasterboard.

The main object of the present invention is to provide a prefabricated building element of the type initially stated and which lacks the above-penetrated disadvantages with and disadvantages of known building elements.

This object is achieved according to the invention in that the insulating material is fixed to the flat side of the concrete slab by means of bars of thin, preferably galvanized, sheet metal, which bars have flanges abutting against the side of the insulating material, extending transversely and in the concrete slab cast anchors.

The invention is described in more detail in the following with reference to the accompanying drawings, which show a presently particularly preferred embodiment thereof.

Fig. 1 shows a prefabricated building element according to the invention in perspective obliquely from the side, the element being shortened in longitudinal direction and certain parts having been cut away to illustrate the underlying details.

Figures 2 and 3 show sections along the line II-II and 111-111, respectively, in Figure 1.

The prefabricated building element according to the invention, generally denoted by 1, is intended for such buildings as houses or the like and can then be used as, as in the case shown, a load-bearing wall element for external walls. In the same or modified design, it can also be used as a load-bearing wall element for partitions and / or as a load-bearing or floor element. 10 15 20 25 ab 35 3 As shown, the building element 1 has a substantially rectangular shape and comprises a supporting plate 2 and an insulating material 4 abutting against at least one flat side 3 of the plate and this flat side substantially covering this flat side.

The board, or slab, 2 is made of concrete, either conventional concrete, lightweight concrete or the like, and is preferably reinforced with a reinforcement not shown in the drawings. In the embodiment shown, the concrete slab 2 has along its two opposite, upper and lower longitudinal edges 5 and 6 in one piece flanges 7 and 8 cast therewith, which at least partially cover the opposite surface surfaces 9 of the insulating material 4.

The insulating material 4 can in a manner known per se be formed of relatively rigid sheets 10 of preferably cellular plastic and / or mineral wool. However, there is nothing to prevent the insulating material 4 from being made of other material or, for example, being foamed on site.

The insulation material 4 is, as can be seen from the drawings, fixedly fixed to one flat side 3 of the load-bearing concrete slab 2 by means generally indicated by 11 bars.

The studs II are made of thin sheet metal, say 0.6 - 1.2 mm, which is preferably galvanized but can of course be corrosion protected in other ways. The sheet metal bars 11 are, as shown, placed partly along the longitudinal edges 5, 6 and transverse edges 12 of the concrete slab 2, partly between opposite longitudinal or, as shown, transverse sheet metal bars. All sheet metal joists 11 have flanges 14 abutting against the insulating material 4 away from the flat side 3 of the concrete slab 2, and extending across the insulating material 4 and anchoring 15 in the concrete slab 2.

In the embodiment shown, the sheet metal joists 11 along the longitudinal and transverse edges 5, 6 and 5, respectively, of the supporting concrete slab 2 12 essentially L-profile. One flange of the L-profile constitutes the flange 14 facing the side 13 of the insulating material 4 away from the flat side 3, which flange more precisely abuts flat against and in line with the said side 13 of the insulating material 4. The second flange 16 of the L-profile lies, 500 312 10 15 2.0 25 30 35 4 as shown, substantially in life with the longitudinal and transverse edges 5, 6 and 12 of the load-bearing concrete slab 2.

The vertical plate bars 11 in the case shown between the opposite, transverse plate bars 11 have a substantially T-profile, the flange 14 of which also forms a flange abutting and in line with the insulating material 4 away from the flat side 3 facing side 13 of the supporting concrete slab 2. The stack 17 of the T-profile is suitably double-folded and extends into the joint 18 between adjacent, edge-to-edge sheets 10 of the insulating material 4.

From the above it appears that when the building element 11 constitutes a load-bearing wall element, as shown, the sheet metal bars 11 with a substantially L-profile along the longitudinal and transverse edges 5, 6 and 12 of the concrete slab 2 constitute upper and lower beams, respectively. end posts and the sheet metal bars ll with essentially T-profile vertical intermediate posts. However, there is nothing to prevent the intermediate posts from extending horizontally instead of vertically. In any case, at least the end and intermediate posts may not have holes shown for penetrations of electric pipes or the like and constitute a bracket for electrical boxes or the like.

The previously mentioned anchors 15 are formed in the embodiment shown and on the plate joists 11 welded to each other at intervals, preferably spot-welded, plate strips 19, which are obliquely angled at their parts 20 molded into the supporting concrete slab 2. The plate strips 19 are suitably made of the same sheet metal material as the sheet metal studs ll, ie. can be as thin as these, and typically have a width of about 20 mm and a length, depending on the thickness of the insulation material 4, about 200 mm and up. The plate strips 19 on the upper and lower members forming the plate bars 11 with a substantially L-profile are then suitably welded to the flanges 14, while the plate strips 19 on the end bars forming the plate bars 11 with a substantially L-profile are suitably welded to the flanges 16. the posts constituting the plate bars 11 with a substantially T-profile, the plate strips 19, as shown in Figs. 1 and 3, are zigzagged on either side of the stack 17. At least some of the plate bars 11, in the showed the case the upper and lower resp. the end posts constituting the plate bars 11 with a substantially L-profile, have punched-out tabs 21, which may have the approximate dimensions 30 x 20 mm and which are folded over or into the insulating material 4 for fixing thereto.

In order to achieve a stabilization and an edge shoeing, in the case shown all plate studs 11 along the free longitudinal edges 22 of their flanges 14 and 16 are slightly bent, say in the order of about 10 - 30 °, towards the flange plane and thus the insulating material 4 away from concrete - the flat side 3 of the disc 2 facing side 13 into engagement with this side, i.e. with the insulation material 4, resp. against the longitudinal upper and lower flanges 7, 8 of the concrete slab 2.

From the above it appears that the concrete slab 2 in the embodiment shown in the drawings constitutes the outer side of the building element and the supporting structure.

The primary task of the thin plate bars 11 is to hold the insulation material 4 in place, the insulation material constituting the inner side of the building element 1. When the sheet metal joists 11, advantageously used together with, for example, mineral wool as shown, are aesthetically designed, they can be used with large boards as insulation material, where no other interior wall cladding is needed. The advantages of this are that a good sound absorption and fire resistance are obtained.

In cases where wall cladding, for example in the form of building boards or gypsum boards, is desired, such can be easily mounted on the sheet metal bolts by screwing, gluing or similar fastening. Since the concrete slab 2 is the supporting part of the building element 1, a flexible center distance (c / c) is made possible between the plate bars 11 in this case constituting the end posts and the intermediate posts. This center distance can, for example, when using gypsum boards and cellular plastic as insulation material, amount to 900 mm. The ergonomic advantages of 900 mm wide gypsum boards are large, and the stability of the gypsum boards is not compromised, since the insulating material 4 away from the flat side 3 of the concrete board 2 and the flanges 14 of the plate joists 11 are aligned with each other. Support fixing of the gypsum boards can then be done between the plate joists by, for example, spot gluing.

Due to the thin wall thickness of the plate joists ll, as mentioned about 0.6 - 1.2 mm, a large insulating ability is achieved in a relatively thin building element, since the weakest points from an insulation point of view are at the upper and lower posts and end posts constituting the plate joists complementary, in the same way as the plate bars 11 shown and described, plate bars designed for scope at doors, doors and windows, etc. (not shown).

Claims (6)

10 15 20 25 30 35 U7 C) CD 04 .A BJ PATENTKRAV A prefabricated supporting wall element (1) for buildings such as houses or the like, which wall element (1) has a substantially rectangular shape and comprises a supporting slab (2) of, preferably reinforced, concrete and a flat side against at least one of the slab (2) (3) abutment and this substantially covering, preferably rigid, insulating material (4), which is fixedly fixed to the flat side (3) of the concrete slab (2) by means of bars (11) of thin, preferably galvanized, sheet metal, which bars ( ll) has flanges (14) abutting against the side (13) of the insulating material (4) away from the flat side (3), partly extending transversely (15) across the insulating material (4) and casting into the concrete slab (2), wherein the concrete slab (2) along its two opposite longitudinal edges (5, 6) has integrally cast flanges (7, 8), which at least partially cover the opposite surface surfaces (9) of the insulating material (4), and wherein the sheet metal bars (II) are placed partly along the longitudinal and transverse edges of the concrete slab (2) (5, 6, 12), partly between opposite longitudinal or transverse sheet metal bolts (11), characterized in that the sheet metal studs (11) along the longitudinal and transverse edges (5, 6, 12) of the concrete slab (5) form the upper and lower part of the wall element (1). underlying resp. end posts and have a substantially L-profile, one flange (14) of which abuts flat against and in line with the insulating material (4) away from the flat side (3) facing side (13) of the concrete slab (2) and the other flange (16) of which is in line with the longitudinal and transverse edges (5, 6, 12) of the concrete slab (2), in that the sheet metal bars (11) between the opposite, longitudinal or transverse sheet metal bars (11) form intermediate posts and have a substantially T-profile, the flange (14) of which abuts flat against and in life with the insulating material (4) away from the flat side (3) facing side (13) of the concrete slab (2) and whose stack (17) is double folded and extends into the joint (18) between adjacent, edge to edge standing sheets (10) of the insulating material (4), and in that the anchors (15) are formed by plate strips (19) which are attached to each other on the plate rails (11) at intervals, preferably welded together, which are angled at its parts (20) cast in the concrete groove (2). Wall element according to claim 1, characterized in that the sheet metal bolts (11) along the longitudinal edges (22) of their flanges (14, 16) are slightly bent in the direction of the insulation material (4) away from the surface of the concrete slab (2). side (3) facing side (13) into engagement with this side (13) resp. against the longitudinal flanges (7, 8) of the concrete slab (2) for stabilization and edge protection. Wall elements according to claims 1 and 2, characterized in that at least some of the sheet metal bars (11) have punched tabs (21), which are folded over or into the insulating material (4) for fixing thereto. according to any one of the preceding claims, in that the insulating material (4) is known in a manner formed from sheets (10) of mineral wool. 4. Wall elements are known to be per se cellular plastic and / or Wall element according to one of the preceding claims, in which the metal studs (ll) constitute have holes for carrying through, characterized in that the end and intermediate post tubes or the like and form a bracket for electrical boxes or the like. Wall element according to one of the preceding claims, in that a wall cladding, preferably in the form of building boards or gypsum boards, is mounted characterized on the sheet metal bars (11), preferably by screwing and / or gluing, and in that the center distance between the ends - and the intermediate posts constituting the plate bars (11) are flexible and when using gypsum boards and cellular plastic insulation amounts to 900 mm.