DE3419109C2 - - Google Patents

Description

The invention relates to a wall component made of hard Foam plastic as lost formwork for the coat concrete construction according to the preamble of the claim 1.

Wall components of this type as z. B. from DE-C-26 18 125 and FR-A-25 31 988 are known as ver lorene formwork used for the sheath concrete construction. The grooves arranged in the horizontal abutting surfaces or corresponding springs enable a quick and exact placement of the components to open straighten a wall, which then ver with liquid concrete is filled. The grooves and tongues run parallel to the Long edge of the wall component, so that the wall components elements at an angle of 90 ° can be placed around corner connections and T-connector to manufacture solutions. When filling concrete, ho he pressure forces acting perpendicular to the wall. Since the liquid concrete starting from one end of the wall ver filling, there is also considerable thrust forces in the longitudinal direction of the wall. The perpendicular to  Pressure forces acting on the wall must be different from those on the Au outside of the wall component, the nu th limiting projections are included. At low thickness of the wall component, d. H. at less These projections have only one width of the abutting surface low strength so that the risk of shearing off due to the high pressure forces acting perpendicular to the wall te exists. Even the short ones perpendicular to the wall are blue Fenden spring sections have a small width Butt surface only a small footprint so that it abge by the shear forces acting in the wall direction can be sheared.

From DE-PS 9 20 871 a building block is known which its horizontal abutting surfaces like a chessboard has arranged protrusions and depressions, the under Are arranged 45 ° to its longitudinal axis. When on the projections and grip the blocks differently the depressions into each other. The checkerboard style order of protrusions and depressions is suitable only for blocks where the width of the joint surface a multiple of the dimension of the projections or ver depressions. Corresponds to the width of the joint surface only about the size of the projections or recesses gen, so the protrusions of a joint surface only from a small fraction of the wells protrusions of the other abutment supported. The connection cannot lower a higher pressure right up to the wall.

The invention has for its object a wall construction element of the type mentioned at the beginning improve that the tongue and groove connection also at small width of the joint surface that when filling concrete  pressure forces acting perpendicular to the wall and in Shear forces acting in the longitudinal direction of the wall men can.

This task is the one with a wall component genus mentioned solved according to the invention by the features of the characterizing part of the patent saying 1.

Advantageous embodiments and developments of Invention are specified in the subclaims.

In the wall component according to the invention, the interlocking grooves and tongues of the abutting surfaces at an angle of 45 ° to the long edge of the component mentions. The tongue and groove connection can therefore Concrete backfill both perpendicular to the wall tendency compressive forces as well as in the longitudinal direction of the wall absorb the running thrust. Especially also with a small width of the butt surface remains through the se arrangement at an angle of 45 ° always one sufficient length of the grooves and tongues, both for the Recording of the pressure compo acting perpendicular to the wall nente as well as for the inclusion of in the longitudinal wall tion acting thrust component.

The arrangement of the grooves and tongues at an angle of 45 ° and in a square grid a stacking of the wall components with cover same longitudinal edge and also a right-angled opening put together to make corner connections and T connections. The wall components can both in Wall longitudinal direction as well as perpendicular to each other in each by the pitch of the tongue and groove arrangement  given position. With ent speaking design of the grid size results therefore a very versatile application.

The grooves and tongues are over the entire joint surface trained throughout. As a result, the ge entire butt surface for placing the wall components on top of each other elements in both the longitudinal and transverse directions be exploited, what the versatility of the one sentence is essential. On the other hand, this results in a large number of interlocking grooves and Springs, which gives the connection high strength compared to vertical compressive forces and in the longitudinal direction acting thrust. Third, it follows this results in a significant increase in perpendicular to Contact surfaces of the grooves lying on the abutting surface and springs that friction the wall components hold together. This prevents that when filling len with liquid concrete the upper layer of the wall building elements floating and lifted off the lower layer becomes. The fourth finally emerges on the outside area of the wall constructed from the wall components a meandering horizontal butt joint, which, unlike horizontal, run continuously the butt joints less to the appearance of plaster cracks in plaster applied to the wall surface.

The square grid of grooves and tongues, one can have a relatively small grid spacing fitting the wall components slightly on top of each other complicate.

Therefore, they are preferably inside the butt surface areas remaining within the grooves than at the edge  bevelled protrusions formed over the plane protrude from the butt surface. With the opposite Butt surface are the corresponding inside the spring remaining areas as depressions of the joint surface educated. The bevelled protrusions work on the Placing the wall components as a guide, the the precise fitting inevitably comes about leads.

In the following the invention is based on one in the Drawing he illustrated embodiment closer purifies. It shows

Fig. 1 - a top view of a portion of a horizontal abutment surface of a Wandbauele ments,

Fig 2 -.. A plan view of a part of Figure 1 to the corresponding part of the opposite horizontal abutment surface of the wall component,

Fig. 3 - a section along the line III-III in Fig. 1 and

FIG. 4 - is a section according to line IV-IV in Fig. 2.

In the drawing is only part of a part Wall component made of rigid foam plastic, in particular made of foamed polystyrene. The wall building ment is a formwork block for the shell concrete construction. The drawing represents a fragment of the outer or inner formwork wall of such a brick. Da the invention only connecting the horizontal Butt faces of the stacked wall components concerns, it is not necessary refinements of the wall component to explain and represent the are not the subject of the invention.

One horizontal flat abutting surface 10 of a wall component, for example when the wall components are placed one on top of the other, has rectangular springs 12 in cross section. The springs 12 extend at an angle of 45 ° to the longitudinal edge of the wall component and cross at right angles, forming a square grid. The grid of intersecting springs 12 extends over the entire abutment surface 10 of the wall component.

The opposite horizontal flat abutting surface 10 of the wall component, which, for example, is the lower abutting surface when stacking wall components, has grooves 14 which are arranged corresponding to the springs 12 . The grooves thus also run at an angle of 45 ° to the longitudinal edge of the wall construction elements and intersect in a square frame which extends over the entire abutment surface 10 .

If the wall components are placed on top of one another, as indicated by the dashed arrows in FIGS . 3 and 4, the springs 12 engage in the grooves 14 . Due to the arrangement of the grooves and tongues in a square grid and at 45 ° to the longitudinal edge, the wall components can be placed on top of one another with congruent longitudinal edges or with right-angled longitudinal edges. In both cases, it is possible to move the wall components against one another in steps corresponding to the grid dimension.

The pitch of the grooves 12 and springs 14 is selected so that space for at least a complete square of the springs 12 and the grooves 14 within the width of the abutment surface 10 is available. In the embodiment shown, the width of the wall construction element is 1.25 times the grid dimension, so that just a complete square of the springs 12 or grooves 14 is received by the width of the abutment surface 10 .

Within the complete squares of the springs 12 , the abutment surface 10 each has a recess 16 . Correspondingly, in the opposite abutting surfaces, the regions lying within the complete squares of the grooves 14 are designed as projections 18 which project beyond the plane of the abutting surface 10 . The edges of the projections 18 and also the edges of the depressions 16 are beveled. The bevelling of the projections 18 he facilitates the nesting of the springs 12 and grooves 14 when the wall components are placed one on the other.

In an expedient embodiment, the wall thickness of the wall component is, for example, 60 mm. The grid dimension of the intersecting grooves 14 and tongues 12 in the longitudinal direction of the wall component or perpendicular to the longitudinal direction of the wall component is 50 mm. The springs 12 and grooves 14 have a width of approximately 10 mm and a height of approximately 12 mm. Before the projections 18 protrude by about 8 mm beyond the abutting surface 10 and accordingly the recesses 16 are about 8 mm deeper than the abutting surface 10 . The Wandbauele elements can be placed against each other in a grid dimension of 50 mm offset congruent or perpendicular to each other.

Claims (3)

1. Wall component made of rigid foam plastic as a lost formwork for the sheath concrete construction, with grooves on a horizontal abutment surface and corresponding springs on the opposite horizontal abutment surface, the Nu th and correspondingly the springs each have mutually perpendicular sections, characterized in that the grooves ( 14 ) and accordingly the springs ( 12 ) run at an angle of 45 ° to the longitudinal edge of the wall construction element and intersect in a square grid, the grooves ( 14 ) and correspondingly the springs ( 12 ) being formed continuously over the entire abutting surface . 2. Wall component according to claim 1, characterized in that the width of the abutting surface ( 10 ) has space for at least one complete square of the surfaces remaining within the grooves ( 14 ) or springs ( 12 ). 3. Wall component according to claim 1, characterized in that at least in a continuous row in the longitudinal direction, the surfaces within the grooves ( 14 ) remaining as projecting edges at the edge ( 18 ) protrude beyond the plane of the abutment surface ( 10 ) and the corresponding, within the Springs ( 12 ) remaining surfaces are designed as recesses ( 16 ) of the abutting surface ( 10 ).