NO811991L - SOCKET WALL OF CONCRETE STONES. - Google Patents

Abstract

The load capacity or the building height of a (heavy) retaining wall is i.a. depending on the base surface of the retaining wall or bearing surface against the sub-layer. In the case of large construction heights, the width of this surface is increased by using shaped stones which, in a plane lying across the retaining wall, have larger dimensions than the overlying shaped stones of basically the same shape.

Description

Retaining wall of concrete blocks

The invention relates to a retaining wall of individual shaped stones

of concrete or similar which are arranged in shifts above each other and are in form-locking engagement with each other, and which in particular have a roof-shaped or V-shaped cross-section.

Formstones made of concrete with a self-centering, roof-shaped or V-shaped cross-section are known, e.g. from DE usage pattern 75 20 030. The shaped stones shown there have roof-like sloping bearing surfaces on the upper and lower sides that form an obtuse angle with each other. The heavy dry retaining walls that are made from these shaped stones are formed by laying the shaped stones on top of each other in shifts. By means of a foundation which is usually cast in concrete on site, or by means of

correspondingly designed foundation stones, a specific inclined position of the retaining wall corresponding to the static requirements is determined. During the build-up of the formstones in shifts, these occupy

a stable position as a result of form-locking engagement with each other. The roof-shaped or V-shaped bearing surfaces also have a centering effect during laying.

Because of. the static regulations limit the building height of such retaining walls for securing earth slopes. For covering and securing slopes that are higher than the maximum permitted building height, it is known to make the retaining walls with anchor elements which on the side facing the slope or the soil, is embedded in this, as anchor elements are used in the desired number and of the desired size. The production of such a retaining wall with ground anchors is relatively complicated, especially because the installation of the sometimes elongated anchor elements.

The invention is therefore based on the task of proposing a retaining wall, resp. a building kit for the production of such retaining walls, which without the use of anchor elements allows building heights that exceed the dimensions originally permitted from a static point of view.

To solve this task, the retaining wall or a building kit for the production of this, characterized by the fact that the shaped stones have different dimensions across the plane of the retaining wall, as the lower shifts consist of shaped stones with larger dimensions.

A retaining wall designed in accordance with the invention thus has a stepped cross-section in vertical section. The retaining wall consists of at least two different widths or deep parts. The wide "step" which lies in the lower area and is formed by correspondingly dimensioned support form stones, leads to a corresponding increase of the plant towards the subsoil or the foundation, more specifically an increase of the width of the plant surface. The dimensions of the support formwork in the direction across the plan of the retaining wall are chosen in such a way that the calculated resultant force lies within the area of the construction plane formed by the support formwork. In this way, it is possible to produce higher retaining walls in a statically impeccable manner.

According to a further proposal according to the invention, the supporting form stones are designed with a head part which can be built form-fitting into the supporting wall, and a shoulder which joins the head part, preferably on the side of this facing away from the soil. Preferably, the head part has the same or very similar cross-section as the above shaped stones (normally shaped stones). In this way, the head portion of the support mold stones and the normal mold stones can be put together in a matching manner while utilizing the advantages described.

The approaches facing the front (air side) resp. extensions of the support form stones can, in accordance with a further proposal according to the invention, be designed in such a way that further interlocking and/or centering interlocking parts are obtained. Preferably, therefore, the abutment on the support form stones is likewise designed roof-shaped or V-shaped bent with a very obtuse angle.

According to a further feature of the invention, the end surfaces of the support-shaped stones facing the front of the wall are designed in a similar way to the normal stones, so that in an elevation of the wall it is not possible to see the difference between

the normal form stones and the support form stones.

Finally, according to the invention, in the area of the transition between the support form stones and the normal form stones, a special precaution can be taken which consists in the fact that the uppermost support form stone forms a trough, a pit, a gutter or the like which is intended as a planting trough or planting pit for the reception of plants, flowers etc.

Further features of the invention relate to the design of the mold stones and their arrangement.

Embodiments of the invention will subsequently be described in more detail with reference to the drawing. Fig. 1 shows a retaining wall of normal stones and supporting stones in vertical section. Fig. 2 shows an alternative embodiment of a support wall in vertical section corresponding to fig. 1. Fig. 3 shows a section of an elevation of the retaining wall in fig. 1.

The design examples of retaining walls 10 shown here serve for one-sided or two-sided limitation of earth slopes, e.g. earth fillings etc. The retaining walls 10 consist of concrete blocks that are laid one above the other in shifts. In the design examples shown, two types of shaped stones that have different shapes and sizes are assembled in the wall.

The upper part of the retaining wall 10 consists of normal-shaped stones 11. These have a specific shape, in that they have a bent or angled cross-section. In this way, sloping bearing surfaces 15 and 16 are obtained on the upper side which form an obtuse angle with each other. Parallel to these, sloping bearing surfaces 17 and 18 are formed on the underside, which therefore also form an obtuse angle with each other. By means of this roof-shaped resp. V-shaped arrangement of the bearing surfaces 15 - 18, the normal shape stones 11 can be laid with mutual self-centering.

In the examples shown, the lower bearing surface 17, which lies on the soil side, is narrower in the direction across the retaining wall 10 than the corresponding upper bearing surface 15. The upper side of the normal-shaped stones 11 also has an edge surface 13 which joins the upper bearing surface, which is closest to the front 16, and which is slightly bent upwards in relation to this, e.g. to an approximately horizontal position, and which is not covered by the overlying normal shaped stone 11. Thereby, on both sides of the retaining wall 10, step-shaped steps 12 or 19. On the side facing the soil, as a result of this step-off 12, an intimate connection with the soil is obtained. On the front of the support wall 10, the horizontal edges of the normal form stones 10 at the front end of the bent edge surface 13 and the continuous lower bearing surface 18 are designed with a strong, striking bevel 20 or 21. One of the phases limited end surface 14 extends mainly vertically when the form stones are assembled, or deviates only slightly from the vertical.

In the present case, the inclined position of the retaining wall 10 is determined by a foundation 22. In the examples shown, this is made of concrete cast on site. An upper foundation surface 23 has a shape that corresponds to the underside of a lower formstone, taking into account the achievement of the desired angle of inclination of the retaining wall 10.

The retaining wall 10 consists of the described normal shaped stones 11 and preferably several shifts of supporting shaped stones 24. The latter form the lower part of the supporting wall 10. Such a supporting shaped stone 24 rests against the foundation 22.

The support formstones have a larger dimension than the formstones

in the direction across the plane of the retaining wall. On the front side facing the air, the support mold stones 24 have a shoulder 25 which increases the width of the stones. The support mold stone 24 is formed by this approach together with a head part 26.

The head part 26 is designed with essentially the same geometric features as the normal form stones 11. The latter can therefore be built together with the support form stones 24 in the area of the transition between the support form stones and the normal form stones, so that in this area too a form-locking engagement and a self-centering effect is obtained as described above .

The head part 26 is. thus on the upper side limited by bearing surfaces 27 and 28 which form an obtuse angle with each other. Parallel running and similarly arranged bearing surfaces 29 and 30 lie on the underside of each head part 26. The end surface of the head part 26 which faces the slope, i.e. the soil, in the present case has a different shape to the normal shaped stones 11, as it consists of two rear end surfaces 31 or 32 which have different sizes and form an obtuse angle with each other. The composite support form stones 24 in this way form a sawtooth-shaped limiting surface on the side facing the soil. Alternatively, however, the head parts 26 in this area can have the same shape as the normal form stones 11. Conversely, it is possible and advantageous to design the normal form stones 11 in the same way as the head parts 26 on the side facing the soil.

The elongated plate-shaped projections 25 join the head part, more specifically its bearing surfaces 28 and 30, on the upper side and the lower side via upwardly directed, inclined intermediate surfaces 33. The bearing surfaces 28 and 30 thus together with the intermediate rafts 33 form a cross-sectional triangular recess 34 resp.

a corresponding projection on the underside. These parts stand in form-closing interference with each other. Otherwise, the intermediate surface 33 is as follows: arranged and dimensioned so that the lower face 21 of the lowermost normal form stone 11 lies form-fitting against the intermediate surface 33.

The rest of the attachment 25 forms on the upper side and the lower side also a roof-like or V-shaped in relation to each other aligned support surfaces 35, 36 on the upper side and 37, 38 on the lower side. These support surfaces, which form a very obtuse angle with each other, provide a further connection of the support form stones 24.

The end surfaces 39 on the front side of the support mold stones 24 resp. the projections 25 are designed with the same appearance as the end surfaces 14 of the normal form stones 11. Clear phases 40, 41 are thus formed at the upper and lower edges. The appearance of the retaining wall 10 from the front is therefore uniform, as it is not possible to see a difference between the areas for the support form stones 24 and the area for the normal form stones 11.

The normal form stones 11 and the support form stones 24 are, as shown in fig. 3, arranged in shift 42 or 43 in the direction of the retaining wall 10. In the present design example, the normal-shaped stones 11 in the shifts 42 are arranged at a distance from each other, so that spaces 44 are obtained. These can accommodate plantings in the form of bushes, flowers, etc.

In the present case, the support formstones 24 have a smaller width (dimension in the plane of the support wall 10) than the normal formstones 11. The purpose of this is to achieve an approximately equal width of both types of formstone. As further appears from fig. 3, the supporting form stones 10 in their shifts 43 are arranged close together, i.e. without gaps.

A further special design is shown in fig. 2.

In the area of the transition between the shifts 43 of the deeper support form stones 24 and the normal form stones 11, by corresponding design of the support form stones 24a in the top shift 43a, an upwardly open, trough-shaped container has been formed which can here be used as a planting pit 45. For this purpose, the support form stones 24a at the outer edge designed with an upwards resp. inclined step 46 made of concrete. This step 46 extends over the entire width of the supporting formstone 24a, so that when the stones are laid without gaps, a continuous, trough-shaped planting pit 45 is obtained. This is limited at the inner edge by the end surface 14a of the lowermost normal formstone lia.

Claims (11)

1. Retaining wall of individual form stones made of concrete or the like which are arranged in shifts above each other and are in form-closing engagement with each other, and which in particular have a roof-shaped or V-shaped cross-section, characterized in that the form stones (normal form stones 11, lia and support form stones 24, 24a ) have different dimensions across the plane of the retaining wall (10), as the lower shifts (43) consist of form stones (support form stones 24, 24a) with larger dimensions. 2. Retaining wall as stated in claim 1, characterized in that the supporting form stones (24, 24a) have a head part (26), the design (cross-section) of which corresponds to the shape of a normal form stone (11) and fits and can be built together with this. 3/ Retaining wall as specified in claim 1 or 2, characterized in that the supporting form stones (24, 24a) on the front have a shoulder (25) which joins the head part (26) and increases the width of the retaining wall (10). 4. Retaining wall as specified in claim 3, characterized in that the abutment (25) which joins the head part (26) on the front side (air side) has a substantially straight upright end surface (39), the shape of which corresponds to the shape of the front side (14) of the normal form stones (11). 5. Retaining wall as stated in claim 4, characterized in that the end surface (39) on the front side of the shoulder (25) on the supporting form stones (24, 24a) is designed with transversely extending phases (40, 41) or broken edges above and below. 6. Retaining wall as specified in one of the preceding claims, characterized in that the normal form stones (11) and the head part (26) of the support form stones (24, 24a) on the upper side are designed with roof-like sloping bearing surfaces (15, 16; 27, 28), at the same time as the support form stones (24, 24a) in connection with the head part (26) are designed, with a recess (34) on the upper side and a corresponding protrusion on the underside, the recess (34) being arranged to receive the protrusion or the lower chamfer (21) on the lowermost normal form stone (lia). 7. Retaining wall, especially as stated in one of the preceding claims, characterized in that the abutment (25) which joins the head part (26) of the supporting form stones (24, 24a) on the upper side has a roof-shaped projection which forms support surfaces (35, 36 ), and on the underside has a roof-shaped notch which forms corresponding parallel support surfaces (37, 38). 8. Retaining wall as stated in one of the preceding claims, characterized in that the head part (26) of the supporting form stones (24, 24a) and/or the normal stones (11, lia) on the back side facing the soil has two sawtooth-shaped rear end surfaces (31 , 32) which form an obtuse angle with each other. 9. Retaining wall as specified in one of the preceding requirements, ff ■ characterized in that the support form stones (24, 24a) have a smaller width in the plane of the support wall (10) than the normal form stones (11). 10. Retaining wall as specified in one of the preceding claims, characterized in that the supporting form stones (24, 24a) arranged in several shifts (43) lie close together, i.e. without mutual distance. 11. Retaining wall, especially as specified in one of the preceding claims, characterized in that the support form stones (24, 24a) in the upper shift (43a) are designed with a boundary wall formed in one with the stone or a raised step (46) by the upper edge lying at the front, as the wall or step together with the end surfaces (14a) on the front of the normal-shaped stones in the lower shift (42a) of normal-malform stones forms a trough or a planting pit (45) to receive plants etc.