FR2752257A1 - Concrete floor insulating system - Google Patents

Abstract

The thermal and acoustic insulating system is used for concrete floors (14) cast in situ over self-supporting beams and prefabricated panels (13) covered with insulating panels (12). It consists of using moulded or prefabricated blocks (7,8), e.g. of polystyrene or polyurethane foam, shaped to fit over the reinforcing trellis (3) of the beams to break the thermal bridge between the beams and cast floor (14). If the foam blocks are prefabricated, they are made with notches to engage with the beam's reinforcing trellis to ensure that they remain in position while the floor concrete is poured over them.

Description

CONCRETE FLOOR INSULATION SYSTEM
INCLUDING METAL MESH BEAMS
The present invention relates to an insulation system for concrete floors comprising steel lattice beams.

 It concerns the industrial field of construction of buildings of all types, and aims to improve the insulation of floors using self-supporting steel truss beams of the "WAREN" type with heel, this type of beam being made up by an upper longitudinal iron and two lower longitudinal irons linked together by welded diagonals forming a light lattice, the lower irons being embedded in a concrete heel.

 Reinforcements of the "WAREN" type are most often used to make reinforced concrete floors without formwork, formed of support panels, often referred to as "negatives", resting on the edge of the heels of two consecutive beams, and on which are cast the compression slab constituting the upper part of the floor.

 To date, the insulation of this type of floor is carried out either above the "negatives", or below.

 In the first case, insulating panels are placed between the beams before casting the compression slab, said beams then constituting as many thermal bridges very significantly reducing the efficiency of the insulation.

 In the second case, recourse is had to plates, or slabs with expensive tabs, the delicate implementation of which requires highly qualified additional labor resulting in a significant increase in the cost price of the floor.

 We also know the replacement of the concrete heel with an expanded insulation, an elaborate technique made in the workshop which requires a change or a transformation of the existing material.

 The invention aims to remedy these drawbacks. Indeed, it allows, without modifying traditional manufacturing, without increasing the thickness of the floor, or generating additional labor, to remove thermal bridges over the entire surface of one structure.

 In the system according to the present application, an insulator such as polystyrene or polyurethane foam, cast or inserted, by means of internal grooves and notches provided for this purpose, on the trellis of the beams, is placed above the heel of the latter, the risks of buckling of the upper iron, due to the fact that part of the lattice is not coated with the concrete of the floor slab, being compensated by a reinforcing iron doubling said upper iron at mid-range of the beam, where the bending moment is maximum.

In the accompanying drawings, given by way of nonlimiting examples of embodiments of the subject of the invention:
FIG. 1 represents, seen at the end, a self-supporting beam of the "WAREN" type with insulation poured over the heel,
FIG. 2 is a perspective view of an insulating element with notches allowing it to be inserted into the truss of the beam,
FIG. 3 is an end view of a beam with two notched insulating elements, one of which is being put in place and the second in its final location,
Figure 4 is a partial side view of the beam of Figure 3
and Figures 5 and 6 show parts of floors with particular arrangements, seen from the end of a beam.

 The implementation of the system illustrated in FIGS. 1 to 6 consists in placing above the heel 1 of a self-supporting beam 2 an insulating element partially incorporating the trellis 3 of the beam, so as to cut the thermal bridge over the above the concrete of the heel 1.

 The trellis 3 consists of irons welded to the upper 4 and lower 5 irons of the beam 2 so as to form on each side a series of triangles (Figure 4).

 The insulating element may consist of a cast block 6, preferably in the workshop, or of an assembly of two contiguous parts 7, 8 comprising notches 9 parallel to the irons of the trellis 3, as well as internal grooves 10 likewise inclination, the assembly being determined so that the insulating parts 7, 8 can be presented in the upper part of the trellis and threaded on the irons thereof which thus penetrate into the grooves 10 passing through the notches 9, the form of the latter being such that the insulating parts remain blocked on the trellis 3 when they are brought to the heel 1 by a vertical translation (Figures 3 and 4).

 The irons of the lattice 3, not being coated with concrete in line with the insulating element, the compressed upper iron 5 is capable of "flaming" if it is stressed too much; this possibility is resolved either by increasing the section of the steel of the trellis, or by positioning under this steel and between the branches of the trellis 3 a reinforcing iron 11 at mid-range of the beam 2, where the bending moment is maximum. This technique increases the span between walls, and also makes it possible to standardize the stock of reinforcement.

 The insulating element, whether in a single block 6 cast, or consisting of removable parts 7, 8 will be made of polystyrene or polyurethane foam, or a similar material. The insulating parts can be of various shapes and the system for fixing to the trellis can be different from that described without calling into question the invention. The part of the insulating parts 7, 8 situated on the side opposite the notches 9 can advantageously be raised to serve as a stop for the insulating panels 12 placed on the traditional "negatives" 13 in concrete, thus preventing their displacement when the compression slab is poured. 14 (Figure 5).

 The present invention can also be used in the case of using floor slabs, also providing sound insulation by breaking the transmission of noise.

 According to a particular application of the invention, the insulating parts are made up of panels 15 covering the entire surface of the concrete "negative" 13 or of the pre-slab, separating the thickness of the floor into two layers of concrete of different masses (figure 6).

 The positioning of the various constituent elements gives the object of the invention a maximum of useful effects which had not, to date, been obtained by similar devices.

Claims (4)

 10. Insulation system for concrete floors comprising steel truss beams, usable for buildings of all types and allowing improvement of floors using self-supporting steel truss beams of the "WAREN" type with heel made of an iron upper longitudinal and two lower longitudinal bars linked together by welded diagonals forming a light lattice, the lower bars being embedded in a concrete heel,  characterized in that an insulating element (6 or 7, 8) partially incorporating the trellis (3) of the self-supporting beams (2) is arranged above the heel (1) of the latter so as to cut the thermal bridge au- above said heel.  20. Isolation system according to claim 1, characterized in that a reinforcing iron (it) lining the upper iron (5) compressed from the frame of the self-supporting beam (2) is disposed at mid-range of said beam, at the point where the bending moment is most important, in order to avoid the risk of buckling of said upper iron due to the fact that the irons of the trellis (3) are not coated with concrete at the right of the insulating element.  30. Insulation system according to any one of the preceding claims, characterized in that the insulating element consists of a cast block (6).  40. Insulation system according to any one of claims 1 and 2, characterized in that the insulating element consists of two contiguous parts (7, 8) comprising notches (9) parallel to the bars of the lattice ( 3) and internal grooves (10) of the same inclination determined so that the insulating parts (7, 8) can be presented in the upper part of the trellis (3) of the self-supporting beams (2) and threaded on the irons of that -ci which thus penetrate into said grooves passing through said notches, the shape of the latter being such that the insulating parts remain blocked on the trellis (3) when they are brought to their final location on the heel (1).  5. Insulation system according to claim 4, characterized in that the part of the insulating parts (7, 8) situated on the side opposite the notches (9) is raised to act as a stop for the insulating panels (12) placed on the " concrete negatives "(13) thus preventing their displacement when pouring the compression slab (14) from the floor.  60. Insulation system according to claim 4, characterized in that the insulating parts consist of panels (15) covering the entire surface of the "negative" (13) or the concrete slab.