NO851514L - ISOLATED STABLE BLOCK FOR BUILDINGS. - Google Patents

Description

The invention relates to an insulated stacking block for buildings, comprising a block of concrete or the like. and an insulation arranged in connection with the block, as the block is provided with tongue and groove in horizontal and vertical direction,

and with a cavity or a recess for receiving casting compound and/or reinforcement.

There are previously known different types of hollow block systems where the blocks are assembled horizontally and vertically using the blocks' tongue and groove system, and where the blocks' cavities can be filled with insulating material or provided with reinforcement and poured with concrete. The known systems include i.a. so-called system blocks which are combined dry stacking blocks and formwork

blocks, as formwork block means that the block can be reinforced and cast using the block's cavity. Such a system can, for example, comprise a main block, a corner block and an adaptation block.

A disadvantage of the previously known systems with insulated stacking blocks is that they have to be bricked up, i.e. connected using a mortar in the joints, so that a cold bridge is formed during the bricking.

To achieve improved sound and heat insulation, one known system comprises a stacking block which has an S-shaped cross-sectional shape seen in the horizontal stacking direction, so that a space suitable for an insulation mat is created when two blocks are stacked on top of each other "back to back". Although this solution achieves a substantially extended thermal bridge and a significantly improved sound insulation, the thermal bridge is still present even though its transfer of cold is greatly reduced due to the said extension.

The purpose of the invention is to provide a brick-free, insulated stacking block which enables the complete elimination of thermal bridges, and which at the same time provides rational construction and involves great constructional flexibility with regard to the choice of external and internal wall cladding materials.

The above-mentioned purpose is achieved by providing a stacking block of the type indicated at the outset which, according to the invention, is characterized by the fact that it consists of the combination of a load-bearing structural part which is constituted by the said block, at least one insulating part which forms an adhesive, insulating layer along a side surface of the supporting part, and an outer surface part which adheres to and covers at least part of the outer side of the insulation part.

In an advantageous embodiment of the invention, the insulation part consists of foamed polyurethane. Polyurethane is known to have very good insulating properties and at the same time it has very good physical properties with regard to strength and adhesion (glue properties). This strength and adhesion make it • possible to attach the insulation to the load-bearing structural part of the block without the use of other gluing, at the same time that on the outer side of the insulation part, i.e. the side facing away from the load-bearing part, a finished outer surface can be attached, f .ex. a 2 cm concrete slab.

The invention will be described in more detail below with reference to the drawings, where fig. 1 shows a perspective view of an insulated stacking block according to the invention, fig. 2 shows a view of the stacking block in fig. 1, seen from the underside, fig. 3 shows an end view of two stacked blocks of the one in fig. 1 and 2 shown embodiment, and fig. 4 and 5 show floor plans of two different designs of corner blocks.

The one in fig. 1 and 2, the embodiment of a stacking block 1 according to the invention constitutes a so-called main block and comprises a construction part 2 which in itself alone constitutes the supporting part of the block, an insulation part 3 which forms an insulating layer along one side surface of the construction part, and an outer surface part 4 which in the embodiment shown, it covers the entire outer side of the insulation part. In the embodiment shown, the supporting part is a system block of e.g. concrete and consists of two parallel side parts 5 which are mutually connected by two transverse step parts 6, so that a central cavity 7 and two side recesses 8, 9 are formed which, after suitable stacking and assembly of blocks, can be used for casting or for recording of insulation and/or reinforcement. Each of the side parts 5 is provided along its horizontal side edges with tongue and groove 10, 11 for stacking in the vertical direction, and along the sides. vertical edges provided with corresponding tongue and groove 12, 13 for assembly in horizontal direction. As shown, the tongue and groove arrangement on the vertical side edges is arranged so that matching is achieved even when a block is turned 180°.

It will be clear that the supporting structural part does not need to have cavities or through openings as in the embodiment shown. When the carrier part is to form a system block as described in the introduction, it can alternatively e.g. have side depressions that form continuous openings after assembly with stacking blocks with corresponding side depressions.

As can be seen from fig. 1 and 3, the step part is 6

on its upper side designed with a recess as in fig. 3 is denoted by 14, so that when two blocks are stacked on top of each other, a cavity 15 is formed which, together with a corresponding cavity between the blocks in two adjacent shifts in a wall, forms a continuous cavity for receiving a suitable reinforcement. The shown grooves 16 in the recesses 14 can be used for placing reinforcing bars.

As mentioned, the insulation part 3 preferably consists of

of polyurethane, although other insulation materials with suitable strength and the necessary adhesion properties can be used. Although in the embodiment shown an insulation layer 3 and a covering part 4 are arranged only on one side of the supporting part, the opposite side of the supporting part can also be provided with insulation and a suitable covering part.

Fig. 4 and 5 show two designs of corner blocks, the design in fig. 4 can be described as a right-hand corner block and the design in fig. 5 can be described as a left corner block. The designs correspond in principle to the design in fig. 2, as also each corner block ?7 respectively. 18 consists of a supporting construction part 2, an insulation part 3 and an outer surface part 4, but the insulation part and the outer surface part here form an angle

the

round'corner-forming surfaces of the carrier part. As shown, the corner block 17, in the half bordering the corner angle, on the upper side of the support part 2 is provided with four upright knobs 19, while the support part of the corner block 18 on the corresponding

manner is provided with four upright knobs 20. These knobs cooperate with corresponding recesses (not shown) on the underside of the corner blocks when stacking corner blocks 17 and 18 at an angle on top of each other when building a corner of a wall. The other halves of the corner blocks are provided on their upper and lower sides as shown with corresponding tongue and groove arrangements as the main block 1 in fig. 1-2, for engagement with corresponding halves of main blocks when stacking the blocks together in mutually adjacent shifts.

The insulated stacking block according to the invention can be produced by a finished stacking block 2 together with a suitable outer surface part 4, e.g. a concrete slab with a thickness of 2 cm is placed in a form with a mutual distance equal to the desired thickness of the insulation part 3. Next, ready-mixed polyurethane is dosed into the space. The polyurethane, which expands approx. 16 times during the foaming, it forms the finished foam insulation 3 at the same time as the supporting structural part 2 and the outer surface part 4 are tied together to form an insulated block. With this method, one can thus choose the thickness of the insulation for the purpose for which the stacking block is to be used, e.g. a basement wall with a K-value of 0.8, a living room in a basement with a K-value of 0.45, or a residential building with a K-value of 0.2.

When it comes to the outer surface part 4, you can also freely choose the outer surface you want, e.g. glazed ceramic tiles when the block is to be used for a swimming pool. The outer surface part can also consist of a base part molded into the insulation part (not shown), such as a wooden nail, without using a finished outer surface, so that you can then choose the outer surface outside or inside by nailing down the desired surface, e.g. plaster, panel etc. As mentioned, you can also lay insulation on both sides of the load-bearing part, in order to be able to choose the outer and inner surface you want.

When stacking the insulated stacking block according to the invention without the use of mortar for masonry, there is no joint opening between the blocks, and thus the blocks' insulation parts are butted against each other, so that the cold bridges that otherwise occur in the joints are eliminated.

Claims (5)

1. Insulated stacking block for buildings, comprising a block of concrete or similar. and an insulation arranged in connection with the block, the block being provided with a tongue and groove in the horizontal and vertical direction, and with a cavity or a recess for receiving casting compound and/or reinforcement, characterized in that it consists of the combination of a load-bearing structural part (2) which consists of the aforementioned block, at least one insulation part (3) which forms an adhesive, insulating layer along a side surface of the load-bearing part (2), and an outer surface part (4) which adheres to and covers at least part of the insulation part (3) outer side. 2. Insulated stacking block according to claim 1, characterized in that the insulation part consists of foamed polyurethane. 3. Insulated stacking block according to claim 1 or 2, characterized in that the supporting part is a hollow concrete block and the outer surface part is a concrete slab. 4. Insulated stacking block according to claim 1 or 2, characterized in that the outer surface part consists of a ceramic tile or the like. 5. Insulated stacking block according to claim 1 or 2, characterized in that the outer surface part consists of a base part embedded in the insulation part, such as a nail, for attaching a desired surface element, such as a plasterboard, a panel board etc.