AT396496B - FORMWORK STONE - Google Patents

Description

AT396496B

The invention relates to a formwork block with an outer wall, an “inner wall, with an intermediate * cavity for concrete filling, with two end walls, which are provided with recesses, and with an insulation insert.

In order to save costs, formwork blocks are increasingly grazing in the dwelling, especially used for the basement. However, it is also possible to build the walls of the house entirely with formwork blocks. Formwork blocks have the advantage that they can also be used by non-construction specialists. In general, only the first layer of stone is placed in mortar and the rest of the wall is pulled up dry, like in a construction kit. For this purpose, formwork blocks of this type are generally relatively accurate, for which purpose they are milled and provided with tongue and groove. After the formwork blocks have been laid on top of each other in a stack, 10 their cavities are crumbled with concrete. This results in a very stable wall with simple construction.

Such formwork blocks, however, have very little thermal insulation. For this reason and formwork blocks are already known, which are provided with insulation inserts. In addition, the walls of the cavity of the formwork block are completely covered with the insulation insert. This results in relatively good insulation, but the disadvantage is that almost no heat storage can take place in the wall. The filled concrete would be a very good heat storage in the sense of a tiled stove effect, but since it is also surrounded on the inside by styrofoam, it cannot be used for this purpose. Another disadvantage is that only very poor moisture condensation or moisture removal through the stone can take place. As a result, the so-called building moisture να lies in a finished house for a very long time, and there is even a risk that panels attached to the wall may fall off. Because filled in the cavity

Concrete, which is surrounded on all sides by the insulation insert, is naturally very moist and this moisture can only escape to the outside very slowly. Aba also later suffers from the indoor climate with such a stone, because the vapor pressure that is always present in the room can only be dissipated with difficulty through such a wall. 25 The present invention is therefore based on the task of sharpening a formwork block as mentioned at the beginning, which has good heat * and sound insulation properties without moisture problems with simple handling

According to the invention, this object is achieved in that the insulation insert extends over the inside of the outer wall, the inside of the end walls and along the recess over these. 30 According to the invention, the insulation inserts are now arranged in such a way that good heat and sound insulation is now provided, but in addition there is also sufficient moisture transport through the formwork block. So is z. B. between the inner wall of the formwork block and the cavity into which the concrete is later poured, no insulation insert. This means that the tiled stove effect takes effect, because the heat of the interior can be stored in the concrete. 35 At the same time, however, the insulation insert attached to the two end walls and the inside of the outer wall ensures that the heat cannot be transported to the outside. The formwork blocks in a row are connected to each other by the concrete filling, which results in a very stable bond. Moisture can be dissipated across the formwork part through the part of the end walls, since the recess is not interrupted. 40 In a further embodiment, it can be provided that the recess in the end walls has a tunnel shape, the curved surfaces of which are covered by an expansion of the insulation insert. This configuration in conjunction with the cladding of the curved surfaces with the insulation insert makes the insulation effect even better.

Furthermore, it can be provided that the thickness of the insulation insert tapers on the inside of the end walls 45 in the direction of the inside wall.

This configuration is practically possible without any reduction since thermal insulation. At the same time, however, more space is created for the backfilling of concrete and thus for a higher static load-bearing capacity of the masonry it supports.

Another very advantageous embodiment of the invention is that the two end faces each have an insulation groove running parallel to the end face on their 50 upper sides facing away from the cutouts, in which an extension of the insulation insert lies.

In this way it is achieved that when laying formwork blocks in mortar diesa this does not come into direct contact with the concrete or the end wall of the formwork block. In this way, direct contact is avoided by the insulation insert located in the insulation groove. This measure further improves the thermal insulation of the formwork block

The insulation insert can be formed in one piece, which is inserted accordingly after the formwork block has been produced. For easy installation, especially if the leading edges are cut out and the insulation groove is provided with an insulation insert, the insulation insert will generally be made in two parts, with the parting joint in the form of a step heel to prevent an insulation break being approximately in the middle of the stone

An exemplary embodiment is described below since the invention is described in principle with reference to the drawing.

1 shows a plan view of the formwork block according to the invention, the right half being a -2 *

Claims (7)

AT396496B is a horizontal section according to (II) of FIG. 2, FIG. 2: an end view of the formwork block, FIG. 3: a perspective view of the formwork block, FIG. 4: several laid formwork blocks and FIG. 5: a plan view of a formwork block with stiffening ribs . The formwork block has an outer wall (1), an inner wall (2) and end walls (3) and (4). These walls thus enclose a cavity (5) into which concrete is poured from above after the formwork blocks have been laid. The cavities (5) of formwork blocks lying adjacent to one another are connected to one another via cutouts (6) in tunnel form in the end walls (3) and (4). Grooves (7) and tongues (8) are arranged diagonally to one another in the end walls (3) and (4), by means of which the formwork blocks can be placed next to one another without gaps. In the two end walls (3) and (4) there are further transverse slots (9) which can be continuous in the vertical direction. Of course, they can also be closed on an outside of the formwork block. So that the greatest possible length of the transverse slots (9) is achieved, they are offset from one another with respect to the longitudinal axis of the stone. This is necessary due to the location of the grooves (7) and springs (8). An insulation insert (10) is divided into two, with the parting joint in the form of a step (11) located approximately in the middle of the stone length. As can be seen in particular from FIG. 1, the insulation insert (10) is located on the inside (12) of the outer wall ( 1) and on the inside of the two end walls (3) and (4). At the same time, the insulation insert in this section protrudes approximately semicircularly into the recess (6) with an extension (13) and covers its end edge (14). In Fig. 2, the stone is shown so that the recess (6) is an opening in the shape of a tunnel. Of course, however, a reverse laying of the formwork block is also possible, i. that is, the two recesses are each in the upper region of the end walls (3) and (4). In both end walls (3) and (4) on their upper and lower sides facing away from the recesses there is in each case an insulating groove (16) running parallel to the end faces, in which an insulation insert (10) in the region of the two end faces also extends Extension (17) protrudes To insert the two-part insulation insert (10), this is inserted from the side of the stone on which the recesses (6) are open, from below or above, the lateral extensions (13) and (17) of which the front edges (14) or in the insulation groove (16) are placed or inserted. As can be seen from FIG. 1, the thickness of the insulation insert in the area of the two end walls (3) and (4) decreases in the direction of the inner wall (2). In Fig. 4 several laid formwork blocks are shown on a smaller scale. The shape of a corner stone (18) is also visible, which closes an end wall, i. H. without a recess (6) while the inner wall (2) is provided with the recess (6) in the outer area. In addition, an insulation insert is provided on the outwardly projecting end face. If you do not want to use a separate corner stone (18), you can also use a normal formwork stone as the corner stone. All that is required is that the outwardly projecting end face with the recess (6) is covered accordingly by a separate insulation plate (shown in dashed lines) and a recess (6) is made in the inner wall (2) either at the factory or subsequently at the construction site . Fig. 5 shows a plan view of a formwork block with stiffening ribs. As can be seen, a continuous stiffening rib (19) is arranged on the inside of the outer wall (1) and the inner wall (2) in the region of the central stone plane. The insulation insert (10), which is also on the inside of the outer wall (1), is designed so that it follows the shape of the stiffening rib, so that a constant thickness of the insulation insert is always guaranteed. The shape of the stiffening rib can be any. In general, the stiffening rib will be designed in such a way that its side connecting walls run obliquely to the outer or inner wall and with an insulation insert, characterized in that the insulation insert (10) extends over the inside (12) of the outer wall (1), the inside of the end walls (3, 4) and along the recesses (6). 2. Formwork block according to claim 1, characterized in that the recess (6) in the end walls has a tunnel shape, the curved surfaces (14) of an extension (13) of the insulation insert (10) are clad. -3- AT 396 496 B 3. Formwork block according to claim 1 or 2, characterized in that the thickness of the insulation insert (10) on the inside of the end walls (3, 4) tapers in the direction of the inner wall (2). 4. Formwork block according to one of claims 1 to 3, characterized in that the two end walls (3, 4) each have an insulating groove (16) running parallel to the end face on their upper and lower sides facing away from the recesses (6) which is an extension (17) of the insulation insert (10) 5. formwork block according to claim 4, characterized in that the insulation groove (16) with the insulation insert over a substantial part of the width, at least approximately above the width of the recess (6) of the stone. 6. Formwork block according to one of claims 1 to 5, characterized in that the insulation insert (10) is in one piece. 7. Formwork block according to one of claims 1 to 5, characterized in that the insulation insert (10) is divided into two, the parting joint being in the form of a step heel (11) approximately in the middle of the stone length. With 3 sheets of drawings -4-