WO1993019259A1 - Thermally divided cantilever slab with a prefabricated combined concrete-brick slab bearing the facing concrete - Google Patents

Abstract

This cantilever slab has a base consisting of concrete beams (1) and clay bricks (2) on which the facing concrete is cast. The reinforcement consists of non-corroding fibre-reinforced material in which the reinforcing bars are placed in both the facing concrete (3) and the concrete beams (1).

Description

Thermally subdivided cantilever slab with a pre-fabricated concrete-bearing combined concrete-tile slab

The cantilever slabs protruding from the chewing wall, as are used in particular for balcony floors, usually consist of steel reinforced with concrete. This results in very weighty constructions for the required pesticides. Particular attention should be paid to the risk of corrosion existing in steel renovation. A major disadvantage of these known plates is also that, as an element leading from the outside into the interior, they cause considerable heat losses due to the high thermal conductivity of steel-reinforced concrete. Today, this is no longer viable in the general efforts to carefully insulate buildings from heat.

The invention has for its object to provide a cantilever plate which avoids the disadvantages mentioned above. The essential features of the subject matter of the invention result from the patent claim.

An exemplary embodiment of the invention is explained in more detail with reference to the drawing.

The cantilever plate shown for an Ealkon projects cantilevered beyond the chewing wall 8. The over-concrete 3 of the plate is poured onto a prefabricated, combined brick-concrete plate 1, 2. The latter consists of clay boulder stones 2 and ceiling beams 1, the latter of which are reinforced with fiber composite material cables 9. Additional reinforcements 4 are introduced in the over-concrete 3, wherein a mesh fabric 5 can also be provided as reinforcement. For all of these reinforcements 4, 5, 9, fiber composite cables made of aramid or a carbon fiber or glass fiber reinforced (CFCC, GPK) composite material are preferably used, ie in any case a material which, in addition to a negligible thermal conductivity, is also not subject to corrosion. Depending on the mechanical requirements and the type of material, the reinforcement with pre-stress or slack is used, the former in particular with aramid, the latter with C_? CC. The clay Eippenstein 2 are continuous over the entire length of the plate, as are the cables 4 serving as upper armouring and absorbing the tensile stress. The design described below achieves thermal separation between the inner and outer plate part. The over-concrete 3 is divided by an insulation core 6 made of plastic in the area of the house wall 8, and the ceiling beams 1 are divided into two sections by pressure-resistant plastic plates 7. A heat flow from the outside into the interior can thus only take place through the clay cliffs 2 and the reinforcements 4 and 9 consisting of composite material, all of these elements are very poor heat conductors. In order to obtain an underside of the panel consisting of the same material, the ceiling beams 1 can be provided with a clay shoe 10.

Due to the design described, the forces are absorbed by the fiber composite cable 4 in the tension zone at the top, while the pressure zone is formed at the bottom by the clay-brick elements.

Claims

« ^{/ I5} , _ ₃ ^y PCT / CH93 / 00073

Claim

Thermally subdivided cantilever slab with a prefabricated, combined concrete brick slab (1, 2) carrying an over-concrete, characterized in that both the over-concrete (3) and the load-bearing concrete supports (l) of the combined concrete brick slab (l ,) with a corrosion-resistant fiber composite material - the reinforcement (4,9) are provided, v / obe for thermal insulation of the cantilever. Part of the inner part of the over-concrete (3) is thermally divided by an insulating core (β) and the load-bearing concrete beams (1) by insulating plates (7)