SE467585B - Method and body for producing a concrete foundation slab on soil - Google Patents

Abstract

The soil deck is intended, inter alia, for concrete slabs on soil. The deck is made up of moulded spar bodies of cellular plastic and, cast on top of these, a concrete slab. Compared to traditional techniques using a solid slab, a slab is here obtained which has less intrinsic weight. The invention also provides the possibility of greater span widths, a need for fewer piles and smaller amounts of reinforcement, which results in good cost savings. A very rigid slab and good insulation are also obtained. The soil deck is also used in place of overloading in the form of heavy fillers of the coarse aggregate or coarse gravel type on soil sensitive to subsidence. Insulation bodies 3 are laid out on the soil 1, for example, so that spaces 4 are formed between top parts protruding from the base 1. Reinforcement material 6 is laid in the said spaces 4 before application of concrete to the said insulation body 3 and in the said spaces 4 for forming slab 7 and beam 5. The heat insulation 3 is arranged to form a spar body for concrete and to be used as a spacer member in relation to the base so as to obtain a ventilated area under the foundation slab 7. <IMAGE>

Description

467 585 spaces above them in adjacent insulating bodies, for receiving in a manner known per se of reinforcement and concrete during subsequent casting of concrete slab and beam on top of said bodies and between the upper parts of said bodies, so that a flexurally reinforced ground rib deck is formed on top the heat-insulating insulating plate.

A further object of the present invention is to provide a body for carrying out a method for producing a concrete base plate on the ground with thermal insulation located between the ground and the base plate.

Said further objects are achieved by means of a body according to the present invention and which is mainly characterized in that disc-shaped heat-insulating insulating bodies, which are wholly or whose resp. body upper part consists of foam material, downwardly projecting laterally and along the entire circumference of the body extending portions of insulating material to enable the formation of spaces above them in adjacent insulating bodies, in order to form a savings body for enclosing concrete-produced base slab and beam, and partly as a spacer against the base in question for creating a ventilated space under the concrete base slab.

Thanks to the present invention, it is only now possible to provide concrete ground ribbed decks which can have intersecting reinforcement in the formed cross-shaped space, which is delimited laterally and in the downward direction by insulating material. In addition to effective thermal insulation for the cast concrete slab that rests on the insulating bodies, simple laying of the insulating bodies is also achieved and these are held in place by themselves without extra anchoring to the ground.

Lifting of the insulating bodies when concrete casting mass is filled on the bodies and in formed spaces on top of the laterally projecting and along the entire circumference of the respective insulating body extending lower portions and next to the respective projecting body upper part is now prevented due to the lower portions. the insulating bodies.

In addition, capillary-breaking function of the insulation is achieved.

The laid-out insulating bodies also lock side-by-side similar tiles that are laid out on the ground. 467 585 The invention is described below as a number of preferred embodiments with reference to the accompanying drawings, in which Fig. 1 shows a cross section through a floor layer of an invented type, Fig. 2 shows an embodiment with a high-lying ventilated space, Fig. 3 Figures 6 and 8 show perspective views of the insulating body, and Figure 7 shows a cross section of a further floor.

Areas of application for the invention are as follows: base plates on the ground, support-piled base plates, cohesion-piled base plates, stiffened base plates to avoid piling and compensation-based houses with a very rigid base plate.

Advantages obtained by the invention are as follows: reduced piling, reduced dead weight, reduced amount of concrete and reinforcement and obtaining large spans. Better utilization of the piles results in reduced pile costs. Higher piles can be selected. A very rigid base plate can be built with little deformation. Improved thermal insulation provides better comfort and lower operating costs. During concrete casting, the concrete mass does not sink into the macadam, i.e. that no spillage occurs. The cellular plastic is made of rigid material, which means that no spillage of concrete takes place and that better flatness of the concrete slab is made possible.

Distancing of the reinforcement is simplified. Foundation beams and pile plinths can be avoided, shafts and additional concrete due to tilting are omitted, which means easy excavation. No formwork is needed either and rational working methods can be applied.

Thanks to the invention, floors can be made very easily by reducing the amount of concrete. This is achieved by the cross-section becoming T-shaped, so-called ribbed tires or dome tires. The reduced weight also reduces the amount of reinforcement.

Moisture problems from the ground are avoided. This is achieved by keeping the heat-insulating material away from the ground, so that a ventilated gap is obtained. Thanks to this construction, the usual drainage layer can be eliminated.

Fig. 1 shows a cross section through floors II, 467 585 where thermal insulation material 3 forms savings bodies and spacers towards the ground 1.

Fig. 2 shows an embodiment of floor layer VI with higher ventilated space 106.

W Fig. 3-5 show perspective images of combined spar and insulation bodies 3 with different designs.

The basic idea of the invention is that the thermal insulation 3 forms both a savings body and that it is used as a spacer against the ground 1 in order to obtain a ventilated space. g The thermal insulation material 3 can be delivered tailor-made to the construction site with any design. Different types of insulation materials can be combined, i.e. glued together to achieve better function. Thus, the bottom layer 3A may consist of mineral wool, as shown in Figs. 4, 6 and 7, and which has no capillary rise height, and in Figs. 4-6 a laminated insulating body 3 consisting of e.g. cellular plastic 3B with underside of mineral wool 3A.

The insulating units 3 can also be designed by cutting out the beam steps in the insulating body according to Fig. 3.

Fig. 5 shows a square insulating body 3 for obtaining a dome floor.

Figs. 7 and 8 show an insulating body 3 for obtaining air gap and material saving. Each insulating body 3 can be built of the same material or different materials to achieve the desired function.

Below is a procedure for producing a base plate 7 on the ground with thermal insulation located between the ground 1 and the base plate 7. On the ground 1, on a drainage layer 2 or on a heat-insulating and capillary-breaking layer 9, spar and insulation bodies 3 are laid out at a certain distance, so that gaps 4 are formed between from the substrate 1; 2; 9 projecting body tops 3B. Reinforcement 6 is laid down in the form of bars and 9, if necessary, bracket reinforcement in said gaps 4 before applying concrete to said insulation body 3 and in said gaps 4 for * formation of concrete slab 7 and beam 5. The thermal insulation 3 is arranged to form a saving body for concrete, partly is used as a spacer against the ground to obtain a ventilated space under the base plate 7. 467 585 The body 3 can be fastened against movement by bars being driven into the ground 1.

According to the invention, insulation is laid out so that thermal insulation is obtained along the entire surface extent of the intended base plate and air gap is obtained between the substrate and said insulation. It is possible, as stated, to lay insulation bodies 3, which at the bottom have laterally projecting portions 3A to form a space 4 above the same of adjacent insulation bodies 3, and it is also possible to have insulation 3 supported by beam-forming parts protruding from the substrate, which consist of insulating material , whereby the insulation 3 can be locked with parts protruding from the substrate by inserting them between the insulation 3.

Ground rib decks can thus be built up of cellular plastic bodies 3, in which grooves can be milled out in one or two directions, which form the beam shape itself. The underside may be blocked for drainage. The ground ribbed tire can be built as a cross-reinforced ribbed tire or as a single-span ribbed tire.

The height of the spare bodies can be varied and the beam width can be selected up to any dimension.

Claims (6)

467 585 P a t e n t k r a v 1. A method for producing a concrete base plate (7) on ground (1), with thermal insulation located between the ground (1) and the base plate (7), characterized in that thermal insulation bodies (3) are laid on the ground (1). , which are constructed of the same material or of different materials with at least each respective body upper part consisting of foam material and which at the bottom have laterally projecting and along its entire circumference extending portions (3A) of insulating material, to form a gap (4) above them in adjacent insulating bodies (3), for receiving in a manner known per se reinforcement (6) and concrete during subsequent casting of concrete slab (7) and beam (5) on top of said bodies (3) and between said upper parts (3B) of said bodies, so that a rigid reinforced ground rib deck is formed on top of the heat-insulating insulating plate. 2. A method according to claim 1, characterized in that insulation is laid out so that thermal insulation is obtained along the entire surface extent of the intended base plate and air gap between the substrate and said insulation. Method according to Claim 2, characterized in that the insulation (3) is supported by beam-forming parts (11, 12) projecting from the substrate, which consist of insulating material. Method according to Claim 3, characterized in that the insulation (3) is loosened with said parts (12) projecting from the substrate, by inserting them between the insulation (3). Body for carrying out a method for providing a concrete base plate on the ground with thermal insulation located between the ground and the base plate according to any one of the preceding claims, characterized in that disc-shaped heat-insulating insulating bodies (3), as a whole or whose respective body upper part (3B ) consists of foam material, at the bottom showing laterally projecting and along the entire circumference of the body extending portions (3A) of insulating material to enable the formation of gaps (4) above them in adjacent insul- 467 585 annular bodies (3), in order to form a savings body for enclosing a concrete-produced base plate (7) and a beam (5), and partly as a spacer against the base in question for creating a ventilated space under the concrete base plate (7). Body according to Claim 5, characterized in that an air gap (10) is formed underneath at the center of an insulating body.