EP0198934A1 - Structural elements for dry wall construction, and wall made of such elements - Google Patents

Abstract

Moulding (2) for the mortar-free erection of wall-like structures, such as embankment retaining walls, terrace supports, garden walls, flower-bed borders or the like. The moulding (2) has holes (8; 10) continuous from the top to the bottom for the insertion of bar-like ties (12) which hold together superposed mouldings (2), transversely relative to the tie direction, and/or serve for anchoring the moulding in the end region (32). Structures composed of mouldings (2) of this type. <IMAGE>

Description

The invention relates to a molded body for the mortarless erection of wall-like structures such as slope protection, patio supports, garden walls, bed borders or the like.

In this context, the term "mortarless" means that the wall-like structure is erected by juxtaposing and / or stacking moldings without the application of initially pulpy, then hardening binder, such as cement mortar, mortar-like mass, adhesive mass or the like provided with plastic additive. Buildings of this type are used for the design of outdoor facilities, primarily where level differences in the soil need to be designed and / or secured against slipping. Buildings of this type are often also called "dry stone walls" for short. Typical examples are slope protection, terrace supports, garden walls, raised bed surrounds, all kinds of fencing etc.

So far, one has had to be satisfied with the stability of such shaped bodies or dry walls, which was achievable through the weight of the shaped bodies and the dry wall. Sometimes the lower and / or the upper surface of the molded body has been provided with projections and recesses in order to prevent mutual displacements of molded bodies. But even with these precautions, the stability of the dry stone walls still leaves much to be desired. Experience has shown that after a while there is at least a visual impact beautiful relocations or even toppling over dry stone areas. In addition, shaped bodies profiled at the top and bottom cannot be produced on automatically working machines or only with quality compromises.

The invention has for its object to provide a shaped body with which extremely stable structures can be erected without mortar.

To achieve this object, the shaped body is characterized according to the invention by holes running from top to bottom for inserting rod-like anchors or dowels, which hold superimposed shaped bodies together transversely to the anchor direction and / or serve to anchor the shaped body in the ground.

The anchors are preferably designed as solid rods or tubular hollow rods. They can consist of practically any material of sufficient strength, with metal and plastic being preferred. The anchor kön- _"nen through all the shaped body layers, thus over the entire height of the dry wall, extend, where appropriate, for anchoring project a little into the ground or the bottom, but they can also in each case together hold only two successive set conglomerates, in which case a length of approximately a molded body height is preferred so that each anchor extends approximately halfway into the lower and the upper molded body. The molded bodies are preferably made of concrete, lightweight concrete or brick material. The structures to be erected with the molded bodies are generally relatively low, although a considerable height can be achieved overall, particularly in the case of single or multiple steps in recessed structures, the shaped bodies are preferably only large enough that they can be manually operated according to the modular principle Lay people can be assembled into the structures without the need for special lifting equipment.

The type of anchoring of the shaped bodies or of the structure in the ground made possible according to the invention with the aid of anchors pushed through the shaped body holes is much simpler to carry out than, for example, ground anchoring with concrete bedding or the like. The holes of the superimposed molded bodies preferably form channels which pass through the entire height of the building or, in the case of buildings with a backset, through partial heights of the building.

Since the shaped bodies according to the invention are held together in a manner secured against displacement by means of the anchors and, if appropriate, anchored to the ground, inclined structures of high stability can also be erected without difficulty. The moldings according to the invention can be easily produced in high quality as mass articles on automatic machines.

The holes are preferably arranged in such a way that the moldings can not only be placed flush on top of one another practically on all sides, but can also be stacked on top of one another in a so-called association, i.e. typically a longitudinal offset of the moldings in the next position in relation to the moldings of the drywall layer underneath.

Preferably, at least one of the holes of the shaped body is designed as an elongated hole which extends obliquely to the longitudinal extent of the shaped body, with - still more preferably - each shaped body having a plurality of elongated holes in an alternating oblique direction. To this In this way it is easily possible to erect arched structures in the longitudinal direction of the shaped bodies, as will be explained in more detail below.

The shaped bodies are preferably designed on those sides on which they progressively follow one another in the longitudinal direction of the building in such a way that a form-fitting interlocking of adjacent shaped bodies results. Preferred designs in this direction are given in claims 4 and 5 and in the exemplary embodiments. These adjoining molded body sides are preferably designed in such a way that they form a certain seal for the soil, so that the soil does not penetrate there in large quantities, not even during heavy rainfall.

It is preferred if the length of the shaped bodies is substantially n times the width of the shaped bodies, where n = 1, 2, 3, 4 .... This facilitates the formation of building corners, but also the setting of the shaped bodies in the association, as already indicated above.

You can structure at least one of the long sides of the molded body, namely the one intended for the front of the building, in an optically appealing manner, for example by protruding or protruding parts, arched or recessed parts, relief-like design or the like. A particularly envisaged option is elongated recesses, which are in particular about half as long as the width of the molded body.

The shaped body can also be designed with a reduced width in the central region of its length. This execution The possibility of formation is particularly suitable for those moldings which are placed transversely to the longitudinal direction of the building and are used for, if necessary additional, ground anchoring, as will be explained in more detail in the exemplary embodiments.

It is also possible to provide at least one projection on one long side of the molded body and at least one recess on its other long side, cf. Claim 9. This design is particularly useful in the case of the shaped bodies mentioned, which are placed transversely to the longitudinal direction of the masonry, as will also be explained in more detail with reference to the exemplary embodiments.

The design of molded body sides for mutual interlocking of molded bodies adjacent to one another in a position can also be discussed on a transverse side and on a long side or be made part of a long side, so that you get a possibility of positive Uber-corner attachment. Preferred possibilities are specified in claim 10 and in the exemplary embodiments.

The invention further relates to a wall-like building made of molded bodies without mortar from the molded bodies described above in the basic version and in further developed versions. According to the invention, this is characterized by holes Ln through the shaped bodies from top to bottom and by rod-like anchors inserted into shaped body holes, which hold the superimposed molded bodies transversely to the anchor direction and / or the anchoring of the structure in the ground serve. These structures can run at least over a section of their length in an arc shape in the sense of the angular juxtaposition of (straight) shaped bodies. In the building, adjacent shaped blocks can interlock in the longitudinal direction of the building.

According to a development of the invention, the building can have a back offset transversely to the longitudinal direction of the building at least at an intermediate height of the building. Preferably, one or more shaped stones are placed transversely to the longitudinal direction of the building at the point of the back offset, which can be anchored in the ground on the back with rod-like anchors.

It goes without saying that the structure according to the invention can have one or more of the further training features dealt with above in connection with the individual shaped bodies.

• Fig. 1 einen Formkörper in Draufsicht;
• Fig. 2 einen Eck-Formkörper in Draufsicht;
• Fig. 3 einen Formkörper geringerer Länge in Draufsicht;
• Fig. 4 einen längeren Formkörper in Draufsicht, der insbesondere als Erdreichverankerungs-Formkörper quer zur Längserstreckungsrichtung des Bauwerks einsetzbar ist;
• Fig. 5 einen Kurzanker in vereinfachter perspektivischer Darstellung;
• Fig. 6 eine Querseitenausbildung des Formkörpers mit gerundetem Rücksprung in genauerer Draufsichts-Darstellung;
• Fig. 7 eine Querseitenausbildung des Formkörpers mit gerundetem Vorsprung in genauerer Draufsichts-Darstellung;
• Fig. 8 eine Draufsicht auf einen Abschnitt einer Trockenmauer, wobei Formsteine zweier übereinandergesetzter Lagen dargestellt sind;
• Fig. 9 eine vereinfacht dargestellte Frontansicht einer Trockenmauer aus Formkörpern;
• Fig. 10 und Fig. 11 zwei unterschiedliche Lagen der Trockenmauer von Fig.9 in Draufsicht;
• Fig. 12 eine Böschungssicherung in Seitenansicht.

The invention and further developments of the invention are explained in more detail below with reference to exemplary embodiments illustrated in the drawings. Show it:

• 1 shows a shaped body in plan view.
• 2 shows a corner molded body in plan view;
• 3 shows a shaped body of shorter length in a top view;
• 4 shows a longer shaped body in plan view, which can be used in particular as a soil anchoring shaped body transversely to the longitudinal direction of the structure;
• 5 shows a short anchor in a simplified perspective view;
• 6 shows a transverse side formation of the shaped body with a rounded recess in a more detailed plan view;
• 7 shows a transverse side formation of the shaped body with a rounded projection in a more detailed plan view;
• 8 shows a plan view of a section of a dry stone wall, shaped stones of two superimposed layers being shown;
• 9 shows a simplified front view of a dry wall made of molded articles;
• 10 and 11 show two different layers of the dry wall of FIG. 9 in a top view;
• Fig. 12 is a slope protection in side view.

Fig. 1 shows a shaped body which is rectangular in plan view with the exception of the design of the two transverse sides to be explained in more detail below and the one serving as visible side, one long side is rectangular. The top and bottom of the molded body 2 are practically smooth. If one disregards the modifications to be explained in more detail below on the two transverse sides and on one longitudinal side, the shaped body 2 is three times as long as it is wide, so that it can be thought of as being composed of three elements 4 which are square in plan view. On the longitudinal central axis 6 of the molded body 1, three circular holes 8 are arranged, going from top to bottom through the molded body 2, each in the center of each element 4, so to speak. Between two adjacent round holes, an elongated hole 10 is provided, which also runs from top to bottom goes through below. The elongated hole 10 on the left in FIG. 1 runs from the bottom left to the top right at an angle to the longitudinal central axis 6, specifically at an oblique course angle of approximately 30 to 45 °. The elongated hole 10 on the right in FIG. 1 runs obliquely from the top left to the bottom right, in a mirror image of the left elongated hole 10. The elongated holes 10 are delimited at the ends by semicircular arches and have flat boundary walls in between.

If one attaches an adjacent molded body with its transverse side in a straight line to the transverse sides of the molded body 2, as indicated on the right in FIG. 1, a dry stone layer is formed with molded bodies 2 placed in the longitudinal direction thereof. The layer placed thereon can be arranged such that it is straight on each molded body 2 sits a further molded body 2 without longitudinal offset. However, a longitudinal offset by one or two element lengths is preferably provided, so that there is a stacking in the association, which is better illustrated in FIG. 9 in the front view. Irrespective of whether a drywall construction with longitudinal offset or without longitudinal offset of the shaped bodies 2 from layer to layer is provided, round holes 8 come to lie one above the other. Anchors or dowels, which are not shown in FIG. 1, are inserted from above through the perforated channels thus created. These can pass through the entire drywall from top to bottom and preferably extend a little further into the ground below the lowest drywall layer for anchoring. These anchors prevent the moldings 2 from being displaced relative to one another, so that a dry stone wall of very high stability is created.

However, as illustrated in FIG. 8, the individual shaped bodies can be joined together with a bend in the longitudinal direction, so that the skirt wall has an arcuate shape overall. This possibility is shown in FIG. 8 combined with the stacking of the shaped bodies 2 with a length offset in the individual layers. The round left 8 in FIG. 8 of each molded body 2 of the upper drywall layer is aligned with the rightmost circular hole 8 de: molded body .2 of the drywall layer below and with further holes in it underlying drywall layers, not shown.

The elongated hole 10 on the right in FIG. 8 crosses the oppositely inclined elongated hole 10 in the molded body 2 below, a channel common to these two molded bodies 2 having an approximately rhombus-like cross section being formed. An anchor 12 is inserted from top to bottom into the round-hole channel and into the channel with a rhombus-like cross section, which anchor is formed from a metal tube or a plastic tube in the illustrated embodiment. It can be seen that the extent of the kinking of the longitudinal direction of the drywall can be selected within certain limits, because the elongated holes 10 of molded bodies 2 lying one above the other run obliquely in opposite directions and still intersect at a slightly larger or slightly smaller kink angle.

It can be seen in FIG. 1, below, that a longitudinal side 14 of the molded body 2 is provided with cutouts 16, each of which extends over the left half of the length of an element 4. Correspondingly, there are three protruding regions 18, each of which extends over the right half of the length of each element 4. These recesses 16 and protruding areas 18 are used in the illustrated embodiment to optically structure the visible surface of the molded body 2 or the drywall.

The design of the transverse sides of the molded body 2 will now be described in more detail with reference to FIGS. 6 and 7. Fig. 6 shows a transverse side formation with a recess. This transverse side formation differs from the basic, pure rectangular shape in that, starting from the longitudinal central axis 6 of the molded body 2, a bevel 22 extends in each case to a longitudinal side 14 has been taken. In addition, a circular cylindrical recess 24 is made symmetrically to the longitudinal central axis 6. The radius is R1 and is selected so that a corner section 26 remains from each bevel 22, which makes up approximately 15 to 40% of the length of each bevel. 7 shows the transverse side formation with a circular cylindrical projection 28, which is also symmetrical to the longitudinal central axis 6. Here, too, there are bevels 22. The radius R2 of the projection 28 is somewhat smaller than R1, so that the length of the corner sections 26, which are also present here, is approximately the same size as in the transverse side formation with recess. It can be seen in particular in FIGS. 1 and 8 that the projection 28 of a molded body 2 fits crowned into a recess 24 of an adjacent adjacent molded body 2 and that it is nevertheless possible for the molded bodies to snap together, the maximum extent of the kinking being caused by the angle of the bevels 22 given is. If one uses the maximum extent of the kinking, the corner sections 26 located on the inside of the arch come into contact with one another. These corner sections 26 or, if the maximum kink is not used, the contact between the recess 24 and the projection 28 form a soil seal.

The extent of the recess 24 and the extent of the projection 28, measured in each case in the longitudinal central axis 6 up to the intersection of the bevels 22, are the same.

It goes without saying that, according to the basic principles of the invention, shaped bodies 2 can also be designed, the length of which is generally n times the width, where n = 1, 2, 3, 4, ....

In Fig. 3, a molded body 2 is drawn, the length, apart from the described design of the transverse sides and the one long side, as long as the width. The shaped body serves, as it were, to fill the one individual layers over their full length when the individual layers are stacked together. This shaped body 2 has only a round hole 8 in the middle and no elongated hole 10.

A corner molded body 2 is drawn in FIG. Apart from the modifications described below, this has a rectangular basic shape which is twice as long as it is wide; it therefore has two basic elements, so to speak, a round hole 8 and no elongated hole being provided in the center of each basic element. A recess 24 is only on one of the two transverse sides of the molded body 2. This recess 24 is described in more detail for a normal molded body, similar to that shown in FIG. 6, but with no bevel over half of the transverse side and one over the other half of the transverse side, so to speak Bevel 22 is made to the outside, so that a corner portion 26 is formed in the form of a slightly projecting nose. The longitudinal side adjoining the described transverse side on one side is only designed on the adjoining half as in the case of the normal molded body. The other long side is then formed on the nose with a bevel 22 'which gradually runs outwards from there and extends to half of this long side. The subsequent second half of this long side is provided with a circular cylindrical recess 24. Right and left of this recess there remain corner sections 26 which do not run obliquely but in the longitudinal direction of the molded body 2.

With the described corner molded body 2, essentially right-angled changes in direction of the dryer wall can be built, as shown in FIGS. 10 and 11. Man recognizes in these figures that it is necessary to use the corner molded body 2 partially turned, i.e. underside lying above, and to use the corner molded body 2 partially in alignment with the dry wall section shown and partially with its longitudinal direction perpendicular to it. This leads to contact situations in which recess 24 points against recess 24, and the purpose here is: the bevel 22 'of the soil seal. 10 and 11, anchors or dowels 12 are indicated as circles filled in black.

4 shows a shaped body 2 which, apart from the details to be described below, is four times as long as it is wide and has, as it were, a round hole 8 in the middle of each element. This molded body 2 is particularly useful as an anchored molded body which is placed transversely to the longitudinal extent of the drywall, it can also be shorter or longer than shown.

A transverse side of the shaped body 2 from FIG. 4 is formed with a recess 16 and a projecting area 18. The elements 4 at the ends are each provided on one long side with a projection 28 according to the principle explained with reference to FIG. 7 and on the other long side with a recess 24 according to the principle explained with reference to FIG. 6, the two projections 28 one Long side of the molded body 2 and the two recesses 24 are assigned to the other long side of the molded body 2. The two middle elements 4 have a width that is less than their length, mainly to save weight. 5 shows a so-called short anchor or short dowel 12, which is at most as long as it corresponds to a molded body height. This anchor 12 has a collar 30 in the middle. This anchor 12 extends approximately half from above into a hole 8 or 10 of a molded body 2 and half from below into a hole 8 or 10 of a molded body 2 placed thereover. The collar 30 secures the desired position of the anchor 12.

Fig. 12 illustrates an entire slope protection, the entire structure consisting of a total of four parts, which are gradually set back relative to each other. The bottom part consists of six layers of dry wall, which are set in the association. At each of the two ends of the uppermost drywall layer, an anchoring molded body 2 is placed at right angles to the longitudinal direction of the drywall, which is aligned with the lowest structural part at the front and anchored to the ground 32 by means of an anchor 12 driven deep into the ground through its rearmost hole 8 . A sealing connection of the anchoring molded body 2 to adjacent normal molded bodies 2 is possible by means of the projections 28 and recesses 24 described.

The building part adjoining in height is set back by two shaped body widths and is placed on the left and right on the anchoring shaped body 2. Otherwise, the structure is the same as that described above, first part of the building. As already described, anchoring molded bodies 2 are again provided on the top of the second structural part.

The third part of the building is set back by three molding widths and has only three layers of dry stone. Anchoring molded bodies 2 are again provided at the top. The fourth part of the building consists only of a dry wall layer.

For each of the four parts of the building, normal lawn edging stones, which are laid flat on the top dry wall layer on ^g e, form the conclusion. It is possible to place the lowest dry stone layer of the second, third and fourth structural part between the anchoring moldings 2. It is also possible, depending on the length of the structure, to provide more than two shaped anchoring elements for each setback.

The individual building parts are drawn with short anchors between the drywall layers. It goes without saying that continuous anchors 12 can also be used instead, which can also continue in one piece into the ground 32.

Finally, it can be seen that at the setback levels there are free areas of earth that can be used for planting. If necessary, longer anchoring shaped bodies 2 can be formed by coupling a plurality of anchoring shaped bodies 2 by means of an anchor.

The projections 28 and recesses 24 described have practically no static function, since the mutual fixation of the shape of the shaped bodies 2 is done by the anchors 12. Rather, they primarily have the function of sealing against falling out or flushing out of the ground, and in addition, a non-linear course of the dry wall is possible. The moldings 2 can be placed in the longitudinal direction of the drywall with mutual gaps in single or multiple element lengths, these gaps being bridged by a higher layer of drywall.

Claims (14)

1. Shaped body (2) for the mortarless erection of wall-like structures such as slope protection, patio supports, garden walls, bed surrounds or the like, characterized by holes (8; 10) from top to bottom. for inserting rod-like anchors (12), which hold superimposed molded bodies (2) together transversely to the anchor direction and / or serve to anchor the molded bodies in the ground (32). 2. Shaped body according to claim 1, characterized in that at least one of the holes is formed as an oblong hole (10) extending obliquely to the longitudinal extent of the shaped body (2). 3. Shaped body according to claim 2, characterized in that a plurality of elongated holes (10) are provided with alternating oblique direction. 4. Shaped body according to one of claims 1 to 3, characterized in that a, preferably rounded, projection (28) on its one transverse side and a, preferably rounded, recess (24) are provided on its other transverse side. 5. Shaped body according to claim 4, characterized in that the projection (28) has a smaller radius of curvature than the recess (24). 6. Shaped body according to one of claims 1 to 5, characterized in that its length, possibly without taking into account the projection (28) and the recess (24), is approximately n times its width, where n = 1, 2, 3rd , 4 ... is. 7. Shaped body according to one of claims 1 to 6, characterized by at least one elongate recess (16) on its one long side (14), which is preferably about half as long as the width of the shaped body (2). 8. Shaped body according to one of claims 1 to 7, characterized in that its width is reduced in the central region of its length (Fig.4). 9. Shaped body according to one of claims 1 to 8, characterized in that on its one long side (14) at least one, preferably rounded, projection (28) and at least one, preferably rounded, recess (24) is provided on its other longitudinal side (FIG. 4). ₁ 0. Shaped body according to one of claims 1 to 9, characterized in that on its one transverse side (20) has a projection (28) or a recess (24) and on its one longitudinal side (14) a projection (28) or a recess (24) are provided. 11. Wall-like structure made of molded bodies (2) without mortar, such as slope protection, terrace support, garden wall, bedding or the like, characterized by holes (8; 10) in the molded bodies (2) and through in molded body holes (8; 10 ) used, rod-like anchors (12), which hold superimposed molded bodies (2) together transversely to the anchor direction and / or serve to anchor the structure in the ground (32). 12. Building according to claim 11, characterized in that the shaped bodies (2) are attached to one another in an arc shape at least in a section of the building length (FIG. 8). 13. Building according to claim 11 or 12, characterized in that in the longitudinal direction of the building adjacent shaped blocks (2) interlock positively. 14. Building according to one of claims 11 to 13, characterized in that a back offset is provided transversely to the longitudinal direction of the building at least at an intermediate height of the building, preferably there molded bodies (2) with rod-like anchors (12) set transversely to the longitudinal direction of the building are anchored in the ground (32) on the back.

Images