EP0758420B1 - Moulded unit, in particular of concrete, for use in landscaping and landscape gardening - Google Patents

Abstract

A moulded article is proposed, in particular of concrete, for use in landscaping and landscape gardening and designed preferably as a palisade, trough, slope-facing stone and the like. To allow the moulded units, which are placed next to each other, to overlap in space, adjacent lateral faces of the units are shaped in such a way as to create a common contact face when the units are aligned.

Description

The invention relates in particular to a shaped body Concrete for landscaping or garden design after Preamble of claim 1.

Concrete moldings are in various designs and Sizes known. For example, Concrete paving stones and The palisades are the same despite the different heights have a geometric cross-section, i.e. the top view on the palisade can e.g. B. the same or similar to one Paving stone geometry. Palisades are due to their greater height than the lateral border on paths, Embankment supports or raised beds or the like used. To a certain positive connection of the It is to reach palisades placed upright against each other for example from the German utility model GM 78 31 993 become known, a part of the cylindrical surface area of a To give the palisade a concave shape, in which the convex outer contour of the next palisade intervenes positively. This means that the palisades can also can be easily guided on a round arch without it disturbing gaps between the palisades. You sit down namely normal, in cross section essentially Rectangular palisades next to one another, so none spatial overlap of two adjacent palisades instead, see above that even slightest shifts or inaccuracies disturbing gaps between the palisades.

From DE 30 18 727 A1 are also palisade elements become known, seen in cross section from two, with their baseline merged trapezoids in symmetrical Arrangement are formed. With these columnar elements retaining walls or the like can be manufactured. However, the limited design options are disadvantageous.

In addition to paving stones and palisades, the landscape or garden design also troughs, slope elements o. similar known, which also certain geometric Have shapes for a positive connection can (DE-U-93 14 665; DE 35 30 049 A1)

The invention has for its object a molded body for a wide variety of applications and especially as Propose palisade, trough or slope element or to design, in which a spatial overlap of lined up moldings is possible, the Molded body a high degree of design possibilities allow and especially for a straight and arched Arrangement to each other are suitable.

This task is based on a molded body after the Preamble of claim 1, by the characterizing Features of claim 1 solved.

In the subclaims are advantageous and expedient Further training and improvements in the main claim specified shaped body specified.

The molded concrete body according to the invention with the characteristic Features of claim 1 has compared to known designs the advantage that on the one hand because of the total diamond-shaped cross-section a flat, in its front view extensive laying is possible. The concrete molding therefore behaves similarly when laying diamond-shaped shaped body, i.e. it can level and also curved surfaces. The peculiarity of the Shaped body lies in the individual side by side arranged nose-shaped connecting the shaped body Pads, with a diamond-shaped basic structure, the some interlock positively. The Movement of the shaped blocks around a vertical axis of rotation remains, however, so that curve laying is possible is. A form-fit is maintained even if the shaped bodies in their distance from each other to a certain extent vary. The moldings therefore do not need to lie exactly in the grid dimension to the positive To ensure connection. This is done primarily through a vertical contact plane in the direction of installation guaranteed, which serves as a positive stop surface and on which the shaped bodies in their contact surfaces overlap. The otherwise at z. B. rectangular Stone cross-sections normal connecting surface perpendicular to Direction of laying is in the present invention in the Laying direction laid so that a positive Overlap of the molded body is provided in the direction of installation is. If you form the positive connection surface especially slightly arched, this can still easier a certain pivot point or a turning surface for form an arch-like laying of the moldings.

The opposite connection surfaces of the molded body accordingly form two Z-shaped surfaces, which in their Form a common connecting line in the middle.

In a further development of the invention, design variants of the Shaped body possible. These relate in particular to a geometric modification of the basic form, which is either more can be diamond-shaped or more trapezoidal. Furthermore, a corner part is provided according to the invention to a To achieve 90 ° deflection.

The width of the molded body can be in relation to its center line vary, with symmetrical or asymmetrical moldings are provided, but each compatible with each other are relocatable.

A special feature of the invention is therefore in the mutual arrangement of lateral connection surfaces, with a lateral shift of interlocking trapezoidal base sides nose-shaped Pads are created, but not completely form-fit each other.

A shaped body system according to the invention can be in one Grid dimension can be laid, so that a perfect planning and laying the molded body is possible.

The molded body can in particular be a palisade with a full cross section or as a hollow slope element with or be bottomless. Use as a trough Planting and as a U-stone is also possible. Basically the same basic geometric shape maintained.

The invention is further specified by the Description and the drawings specified in more detail. Here also represent the drawings essential to the invention Details. It is understood that the above mentioned and the features to be explained below not only in the specified combination, but can also be used in a different combination or alone are without the scope of the present invention leave.

Fig. 1

eine perspektivische Darstellung einer aneinandergestellten Reihe von Betonformkörpern in Palisadenform oder als Böschungsabstützung in einer ersten Ausführungsform, wobei

Fig. 1a

eine Normal-Palisade und

Fig. 1b

eine Eckpalisade zeigt,

Fig. 2

eine Draufsicht auf eine Betonformköperanordnung in Palisadenform mit einer "Normal-Palisade" sowie "Eckpalisade",

Fig. 3

eine Ausführungsvariante der Formkörperanordnung nach Fig. 2 mit einer "asymmetrischen" Formkörperanordnung,

Fig. 4

eine weitere an sich bekannte Grundgeometrie des Formkörpers in symmetrischer Anordnung als Ergänzungsformkörper, der nicht Bestandteil der vorliegenden Erfindung ist,

Fig. 5

die Ausführungsform nach Fig. 4 jedoch in asymmetrischer Bauweise bezüglich der Formkörperbreite, ebenfalls nicht Bestandteil der vorliegenden Erfindung,

Fig. 6

eine erste Grundform des Formkörpers als Trog oder Böschungselement und

Fig. 7

eine weitere Ausführungsvariante eines Trogs oder Böschungselements mit bekannter Grundgeometrie, die nicht Bestandteil der vorliegenden Erfindung ist,

Fig. 8a, 8b

eine alternative Ausführungsform für einen Trog mit asymmetrischer Anordnung der zugehörigen Anschlußflächen,

Fig. 9a, 9b

eine Variante nach Fig. 8a, 8b mit einer U-förmigen Ausbildung des Formkörpers,

Fig. 10a, 10b

je ein Verlegebeispiel von Trögen und U-Steinen in Draufsicht, kombiniert mit Palisaden,

Fig. 11a, 11b

eine Böschungswand in linearer Ausbildung mit Trogstein, U-Stein und Palisade in Vorder- und Rückansicht,

Fig. 12a, 12b

eine gebogene Böschungswand mit Bauelementen wie in Fig. 11 mit Palisaden als Bogenelemente,

Fig. 13a, 13b 13c, 13d

eine gebogene Böschungswand mit Bauelementen wie in Fig. 11 mit Trogsteinen bzw. U-Steinen als Bogenelemente in verschiedenen Ansichten.

The concrete moldings shown in the drawing are explained in more detail below. The figures show:

Fig. 1

a perspective view of a row of concrete moldings in palisade form or as embankment support in a first embodiment, wherein

Fig. 1a

a normal palisade and

Fig. 1b

shows a corner palisade,

Fig. 2

a plan view of a shaped concrete body arrangement in palisade form with a "normal palisade" and "corner palisade",

Fig. 3

2 shows an embodiment variant of the shaped body arrangement according to FIG. 2 with an “asymmetrical” shaped body arrangement,

Fig. 4

a further known basic geometry of the shaped body in a symmetrical arrangement as a supplementary shaped body which is not part of the present invention,

Fig. 5

4, however, in an asymmetrical design with regard to the shaped body width, likewise not part of the present invention,

Fig. 6

a first basic shape of the shaped body as a trough or slope element and

Fig. 7

another variant of a trough or embankment element with a known basic geometry, which is not part of the present invention,

8a, 8b

an alternative embodiment for a trough with an asymmetrical arrangement of the associated connection surfaces,

9a, 9b

8a, 8b with a U-shaped design of the molded body,

10a, 10b

a laying example of troughs and U-stones in plan view, combined with palisades,

11a, 11b

a slope wall in linear formation with trough stone, U stone and palisade in front and rear view,

Figures 12a, 12b

a curved slope wall with structural elements as in FIG. 11 with palisades as arch elements,

Figures 13a, 13b, 13c, 13d

a curved slope wall with components as in Fig. 11 with trough stones or U-stones as arch elements in different views.

In the following description of the exemplary embodiments 1 to 5, the concrete body is essentially on Example of a palisade explained. However, there are others Objects or use cases conceivable, as also in the other Figures 6 to 13 is set out.

1 is a perspective view of Palisades shown the two different designs include. The shown in the drawings different palisade types are identified by reference numerals 1 to 5 designated. 1 are three "normal palisades" 1 slightly arched next to each other, which are two Connect "corner palisades" 3 to create a right-angled paragraph to build. Two more "normal palisades" 1 form the front continuation of the corner palisades. 1a shows in Individual representation of a normal palisade 1, Fig. 1b one Corner palisade 3.

Each palisade 1, 3 has a height H of, for example, up to up to 3 m, with an arbitrarily shorter construction. The front 6 and the back 7 of palisade 1 are straight Laying in parallel to each other Levels, such as the top row of FIG. 2, as a top view such a palisade arrangement also shows. The front one Level is with reference number 8, the rear level with Reference numeral 9 denotes. The structure of palisades 1, 3 is based on a top view of such Palisade arrangement explained in more detail.

In the upper arrangement of two in FIG. 2 adjacent palisades 1, 1 'with one attached to it adjoining corner palisade 3 is due to the aligned Arrangement drawn a center line 10, which is also as a vertical longitudinal center plane in the direction of installation 12 of Represents palisades. Around the palisades in a grid a x b to be divided, are also perpendicular to the median longitudinal plane 10 Cross lines 11 drawn. The intersection of levels 10, 11 is designated by reference numeral 24.

In the direction of installation (arrow 12) can therefore Grid dimension "a" can be defined, which is the distance of the Cross lines 11 to each other.

If the front and rear sides 6, 7 of the palisades 1 are largely parallel to one another in the planes 8, 9, which lie parallel to the line of symmetry 10, the lateral connecting surfaces 13, 14 oriented transversely to this are approximately diamond-shaped, ie obliquely aligned, which can be represented by the two inclined planes 15, 16 arranged parallel to one another, which form an angle α ₁ ≈ 105 ° with respect to the front surface 6 or front plane 8 and with respect to the rear 7 or rear plane 9. In the embodiment of the "normal palisade" 1 according to FIG. 2, these oblique diamond surfaces or diamond planes 15, 16 extend to the center line of symmetry 10. This applies to an upper diamond section 17 of the lateral connection surface 13 shown on the right in FIG. 2 and for a diamond section 17 'in the lower palisade area in FIG. 2 of the other lateral connection surface 14. These diamond sections 17, 17' are followed by nose-shaped surface sections 18, 18 'which project laterally beyond the cross-section-shaped palisade 1, ie beyond the levels 15, 16 and which are designed as opposing connecting links between adjacent palisades 1, 1 '. The nose-shaped surface section 18 arranged in the lower region on the right-hand side connection surface 13 in the lower region is on the opposite side of the side connection surface 14 as a nose-shaped surface section 18 'rotated by 180 ° about the pivot point 24, with two adjacent palisades 1, 1 'In Fig. 2, the nose-shaped surface sections 18, 18' are positively against each other. For this purpose, each nose-shaped surface section 18, 18 'has a surface section 19, 19' lying in a common plane and, in particular, aligned in the vertical longitudinal center plane 10, which form-fit one another. This surface section 19, 19 'in the upper exemplary embodiment according to FIG. 2 is designed to be straight, so that the adjacent palisades 1, 1' have a possible contact plane 19, 19 'which extends over the entire height H and which is somewhat shorter Form overlapping surface section, which is indicated in Fig. 2 with reference numeral 20. The entire width of the surface section 19, 19 'is identified by reference symbol "e", the maximum overlap region 20 being able to assume approximately the size "e".

The surface section 19, 19 'of the nose-shaped surface sections 18, 18' is followed, with a certain rounding 21, by a further surface section 22, 22 ', which in turn has the front 6 or the associated front plane 8 and the rear 7 or the associated rear plane 9 includes an angle α ₁ ≈ α ₂ ≈ 105 °.

Through this recessed arrangement of the Surface sections 22, 22 'form a palisade shape, which can also be seen in cross-section or in plan view from two trapezoidal surface sections that can be described always touch on their wider base, or on the vertical longitudinal plane 10 reflect, but around the Amount "e" are laterally offset from each other. If the lower trapezoid 23 is rotated in FIG Center point 24 (pivot point) by 180 °, so you get the upper one Trapeze 23 '. The normal palisade shape 1 is the result two mirror images of each other, but offset mutually arranged trapezoidal sections 23, 23 '. It is the mirror plane the trapezoid base or the Longitudinal median plane 10. The nose-shaped surface sections 18, 18 'are arranged diametrically to one another.

The arrangement of the palisades 1, 1 'takes place in a grid dimension the grid dimension "a", the grid dimension a with approx. 333 mm (1/3 m) is used. The grid dimension a is from middle point of contact 25, i.e. Middle of the route e or the distance 20 measured, which is also a middle point of the contact surface section 19, 19 '. The However, pitch a is also the distance between the Cross lines 11 to each other.

The width of the palisade 1 is designated by "b", the longitudinal center line 10 being arranged at a distance b / 2. The height h _{1 of} the two trapezoids 23, 23 'is therefore the same and corresponds to the amount b / 2. The width b can e.g. B. be dimensioned with b ≈ 200 mm.

The palisade 1 according to FIG. 2 is called a "symmetrical palisade" or "normal palisade" because they are essentially made up of two mirror images, but with their base pages 45, 45 ' laterally offset trapezoidal shapes 23, 23 'is constructed with approximately the same height b / 2. Hereby this results in the mutual formation of noses according to the invention with the surface sections 18, 18 '. A symmetrical one complete contact of the side pads 13 is not given. Rather, only the touch Surface sections 19 of the nose-shaped sections 18.

According to the design of a palisade 2 in FIG. 3, a so-called "asymmetrical palisade" 2 is formed in that the trapezoidal cross sections 23, 23 ″ arranged in mirror image to one another have different surface areas or trapezoidal heights. The palisade 2 shown on the right in FIG. 3 has a trapezoidal cross section 23 ″ in its upper half, which has a height h ₂ = c / 2. The lower trapezoidal cross section 23 is of the same design as the corresponding surface section 23 in FIG. 2. The lower trapezoidal cross section 23 accordingly has a height h ₁ = b / 2, the upper trapezoidal cross section 23 ″ has a height h ₂ > h ₁ , where h ₂ = c / 2.

3 next or middle palisade 2 ' is the palisade stone shape 2 by 180 ° around the center or Pivot point 24 rotated so that the larger trapezoidal section 23 '' below and the smaller trapezoidal cross section 23 to lie above is coming. Finally, the one shown in Fig. 3 on the left Palisade 2 '' arranged in the same way as the one shown on the right Palisade 2, i.e. with a larger trapezoidal cross section 23 '' in the upper half of the picture and a smaller trapezoidal area 23 in the lower half of the picture. Such an "asymmetrical" arrangement consecutive palisades each result in one Dimension "f" set back front 6 or back 7, see above that no uniform front level 8 or rear level 9 is available. The dimension f is f = c / 2 - b / 2. The grid dimension such an asymmetrical arrangement shows Pitch "a" as in FIG. 2, however, the pitch "c" 3, where c = b - 2f. Always touch but also the longer staggered ones Trapezoid basic sides of the trapezoids 23, 23 ''.

Otherwise, the "asymmetrical" palisade 2 is in its The design is basically the same as that "symmetrical" palisade 1, i.e. there are two each Trapezoidal cross sections arranged in mirror image to each other laterally offset from each other to the nose-shaped surface sections 18, 18 'in the middle Form pad area, each for a lateral positive overlap. Same parts are identified by the same reference numerals.

The palisade arrangement according to the invention is supplemented by a "corner palisade" 3, as in Fig. 2 in the left Half of the image in a triple arrangement to display several right angle is shown. As shown in the top Corner part 3, this consists essentially of four Sections marked as follows. By the Axis 10 ', 11' is again a grid a or b built to integrate the corner part 3 in a grid can. The one arranged on the right of the transverse axis 11 ' Surface area 26 of the upper corner part 3 is essentially constructed in the same way as the one on the right of the transverse center line 11 intended area of the two palisades 1, 1 'in FIG. 2.

For this purpose, an auxiliary line 27 in the front level 8 drawn. This right surface section 26 closes therefore in grid dimension a / 2 to the transverse line 11 'to the Palisade 1 'to the right of it.

By an angular arrangement of 90 ° with the nose-shaped To obtain surface section 18 'is at the corner part 3 further surface section 28 is provided, the left of the Transverse line 11 'and below the longitudinal median plane 10' connects and a surface area or a cross-sectional shape has, like this the upper left or the lower right Trapezoidal section laterally of the transverse center lines 11 of the two Trapezoid 23, 23 'corresponds. The surface section 28 forms accordingly also the grid dimension a / 2 up to the point of contact 25, in the now perpendicular to the longitudinal median plane 10 Touch level 19, 19 '. The surface section 28 has consequently also a nose-shaped surface section 18 ' on that for the positive overlap of two neighboring ones Palisades serves. For example, in Fig. 2 to the upper corner palisade 3 another underlying corner palisade 3 'as a top view of the Palisade arrangement.

Furthermore, the upper corner palisade 3 shown in FIG. 2 completed by the upper, square Surface section 29 with the edge length b / 2 to the Corner palisade 3 a harmonious, essentially rough to give square cross section. The one below the Auxiliary line 27 drawn surface section 30 with a sloping connecting line 31 is used for harmonic Perfection of the corner palisade 3. Finally, the two flat side surfaces with reference numerals 32, 33 designated.

As Fig. 2 further shows, several corner palisades harmoniously through a multiple arrangement in series the grid system a, b can be integrated. The Palisade 3 depending on the rotation around the center of rotation 24 'in the various positions are brought, whereby each sets a grid dimension a / 2 + b / 2, from which the relocation system continues. This is done by a four rows of corner palisades 3 in the left Figure half of Fig. 2 clearly. Same parts are again identified by the same reference numerals.

2 finally shows three in its lower area a corner palisade 3 overlaps form-fitting subsequent palisades 1, which are in an arcuate Arrangement describe a curve along line 34. Due to the overlap of the palisades in the area of the nose-shaped sections 18, 18 'can therefore also Easier curvatures of the palisade arrangement reach without creating a line of sight between individuals Palisades is coming.

Due to the trapezoidal design of the adjoining trapezoidal sections 23, 23 'with their corresponding lateral offset by dimension e, too front (38) or rear (39) and in particular V-shaped Gussets formed that serve as a kind of hinge opening. The fulcrum of the stacked palisades always lies at the center of touch 25, the Contact surface sections 19, 19 'are also curved could be.

1 therefore also shows an arc shown arrangement of three individual palisades 1 on the right half of the picture, and a straight course of two further palisades 1 with a corner palisade 3 in a straight line Arrangement.

The palisades 1 to 3 can on their visible surfaces 6, 7, i.e. on the front and back or on two visible ones Corner pages 32, 33 of the corner palisade 3 two each Have cross-section trapezoidal indentations 35, 35 'to a relaxed appearance of the front or Get back. The visible surface 33 of the corner part 3 contains only one due to its shorter length Indentation 35 '. An indentation 35 'is direct in each case arranged next to the transverse center line 11 and 11 ', respectively the other trapezoidal indentation 35 '' in the middle Area of the remaining to the side of the transverse center line 11 Side area.

One known per se in its basic geometric form Shaped stone is a supplementary stone to the present invention shown in Figures 4 and 5. 4 shows one Palisade 4 in "symmetrical design" and Fig. 5 one Palisade 5 in "asymmetrical design" based on the longitudinal median plane 10.

The symmetrical palisade 4 shown in FIG. 4 reflects generally on the transverse center line 11 as Symmetry line 11 is formed. The nose-shaped Surface sections 18 for forming the overlap surfaces are therefore generally in the embodiment of the palisade 4 in Fig. 4 on one side of the trapezoidal Surface sections 36 and not diametrically opposite arranged. The palisade 4 is therefore by an im Cross section of larger trapezoid 36 with arranged on both sides formed nose-shaped surface sections 18, the one smaller trapezoidal cross-section 37 is assigned, the Trapezoidal cross sections 36, 37 along the longitudinal median plane 10 touch their broader base. The stringing together Adjacent palisades 4, 4 ', 4' 'in Fig. 4 then happens by a subsequent rotation of the palisade by 180 °, see above that the trapezoidal cross sections 36, 37 once below and once 4 come to rest at the top. As a result, the nose-shaped surface sections 18, 18 'always side by side and form corresponding surface sections 19, 19 'for one positive, overlapping area between two adjacent palisades 4, 4 '. Training the nose-shaped surface sections 18, 18 'is geometric of the same design as described for palisade 1 in FIG. 2. There is only a side mirror around Cross center line 11 instead of diametrical reflection around the Pivot 24 in the embodiment of FIG. 2 instead.

The palisade 4 in FIG. 4 has a grid dimension "a" in the longitudinal direction and a grid dimension "b" in the transverse direction, the trapezoidal cross sections 36, 37 each having a height h ₁ = b / 2. This corresponds to the symmetrical embodiment of palisade 1.

FIG. 5 shows the "asymmetrical" embodiment of the palisade according to FIG. 4, as is described analogously to FIG. 3. Here, the trapezoidal cross section 36 also has a height h ₁ = b / 2, while the height h _{2 of} the trapezoidal cross section 37 'has the height h ₂ = c / 2. The palisades 5 are then in turn arranged one after the other rotated by 180 ° around the center 24, so that there is an offset in the front or rear surface by the amount "f". For this purpose, reference is made to the description according to FIG. 3. 5 is therefore in the longitudinal dimension "a" and the modular dimension "c" in the transverse direction.

Otherwise, the same parts are shown in FIGS. 4 and 5 Identified with the same reference numerals, this to Figures 2 and 3 are described. For completeness sake Total length "d" of the cross-sectional shape shown in plan view the palisades 1, 2, 4, 5 with the reference symbol "d", where d ≈ a + 2 x e / 2.

In Figures 6 and 7, the concrete molding is a trough or formed as a slope element 40, 41, the geometric shapes of the palisades described above were basically retained. 6 shows one Concrete block designed as a trough or slope element 40, which is essentially the same cross-sectional shape has, like the palisades 1, 2 in Figures 1 to 3. Likewise, the one designed as a trough or slope element Concrete molded body 41 has a cross-sectional shape known per se, the cross-section of that described to FIGS. 4 and 5 Palisade 4, 5 corresponds. This applies in particular to the respective side pads 13, 14 so that on the Description of the preceding figures expressly reference is taken.

To a plantable trough or a plantable To create slope element are the concrete blocks 40, 41 6 and 7 in their interior with a cavity 42nd provided, the respective concrete block with or without Base plate 43 can be formed. If necessary also a bottom plate 43 separately in the otherwise bottomless Concrete block 40, 41 are used, for which no further details Floor support elements shown can be provided.

The concrete blocks 40, 41 can in turn next to each other be form-fittingly put together, like this to the Figures 1 to 5 is described. However, you can too be arranged one above the other and in particular offset, in order to serve as a slope wall. The floor area completely, partially or not at all with a corresponding one Base plate 43 may be provided in order to Effect connection to the ground. The elements 40, 41 can of course also stand alone as a trough be used.

The vertical inner walls 44 of the shaped elements 40, 41 can also be tapered downwards be, if necessary, a requirement for an insert Obtain floor element 43.

The palisades according to FIGS. 1 to 5 and the trough shapes or embankment elements according to FIGS. 6 and 7 can be used in a uniform system for the design of landscape or garden facilities. The grid dimension "a" proposed in FIGS. 1 to 5 in the size of, for example, a ≈ 1/3 meter can eg. B. with the stone element according to FIGS. 6 and 7, each trough 40, 41 having for example the system dimension 3a, ie approximately the system length of one meter. Likewise, the width of the elements 40, 41 can be approximately three times the width b of the palisades 1, 4. B ≈ 200 mm was chosen. The height of the stone elements 40, 41 can be adapted to the required heights. For use as an embankment element or as a trough, the height H ₁ ≈ 60 cm to 1 m. In contrast, the palisades described in FIGS. 1 to 4 can have a total height H ≈ 3 m or less. The palisades can also have the dimensions of conventional concrete paving stones in cross section.

The shaped concrete blocks according to the invention can be made of concrete or Polymer concrete, i.e. a resin-based concrete be made. However, you can choose from everyone else suitable materials are manufactured.

The concrete blocks according to Figures 1 to 5 can also be equipped as palisades with an internal cavity, to save weight, especially with high palisades. Of the inner cavity of the concrete blocks can also be used for inclusion a reinforcement serve to solidify the system receive.

The embodiments according to FIGS. 1 to 7 relate to Exception of the possibly existing corner palisade basic geometric shape of the shaped body in which in essentially two roughly the same in area Trapezoidal cross sections 23, 23 'with their base sides 45, 45' are joined together, with the manufacture of the nose-shaped Surface sections 18 a lateral asymmetrical offset of the Base pages 45, 45 'by the dimension "e" was made (see Fig. 2, 3). This basic geometric concept was also used in the Maintain trough according to FIG. 6. In a variation of this Basic idea as shown in Figures 8 to 13 the area of these contiguous trapezoids designed very differently. To do this, first click on the Fig. 10a referenced.

For example, four individual palisades 1 are shown in FIG. 10a according to the embodiment of FIGS. 1 to 3 in one 90 ° arrangement shown in top view. Because of the V-shaped Cutouts 38, 39 (see FIG. 2) can the palisades can be easily installed in a curve, so that the side pads 13, 14 lie against each other.

Such palisades can, as shown in FIG. 10 a, be supplemented by a modified trough stone 47 or a U-stone 48, which basically have the same geometric shape as the palisades 1. Thus, the trough stone 47 consists of an upper, trapezoidal surface section 23 with the imaginary base side 45 and the trapezoidal height h ₁ . This surface 23, which is trapezoidal in plan view, is in turn assigned a second trapezoidal surface 23 ', with the imaginary base side 45' and the trapezoidal height h ₂ . The trapezoid base sides 45, 45 'are laterally offset from one another. The dimension of this offset is represented by "e '", ie the transverse symmetry lines 11, 11' of the two trapezoidal cross sections 23, 23 'are laterally displaced by the dimension "e'" to form the nose-shaped surface sections 18, 18 '.

Contrary to the embodiment according to FIG. 6 with a trough 40, the center line of symmetry 10 of which lies approximately in the middle of the stone in the plan view of the stone, this dividing line 10 'lies between the trapezoidal surface sections 23, 23' at the trough stone 47 in the edge region of the stone. The height h _{1 of} the trapezoidal surface 23 is therefore significantly smaller than the trapezoidal height h _{2 of} the surface section 23 ', the ratio h ₁ : h ₂ ≈ 1: 5.

The height h _{1 of} the surface section 23 of the trough stone 47 corresponds approximately to the height h ₁ = h _{2 of} the palisade 1 as shown in FIG interact in the same way as has already been described for FIGS. 1 to 3. Due to the very different sizes of the palisade 1 and the trough stone 47, however, the eccentricity "e '" is approximately twice as large as the eccentricity "e" in the exemplary embodiment according to FIGS. 1 to 3.

In Fig. 10a is the trough-shaped recess or Cavity 22 of the trough stone 47 shown in plan view. This cavity 42 is completely in the lower trapezoidal surface section 23 '.

The trough stone 47 also contains analogous to the embodiment the palisade 1 on the front 6 'or on the back 7' trapezoidal indentations 35, 35 'to produce a uniform appearance.

The U-stone 48 additionally shown in FIG. 10a differs from the trough stone 47 only in that the lower wall section 49 shown in FIG. 10a Back 7 'along the dashed line 50 omitted is. This results in an open back Formation of the U-stone 48. This inner cavity is with 42 '.

FIGS. 8a, 8b show the trough stone 47 from FIG. 10a in a perspective view. The trapezoidal indentations 35 on the front side 6 'are designed deeper than the indentations 35' on the rear side 7 '. The height h _{3 of} the trapezoidal indentation 35 is approximately 1/2 h ₁ , ie half the height of the trapezoid 23 of the trough stone 47.

The U-stone 48 according to FIG. 10a is shown in FIGS. 9a, 9b perspective view from two views reproduced. Like FIG. 8a, FIG. 9a shows the Back 7 'and FIGS. 8b and 9b the front 6' of respective stone.

10b shows four in plan view Trough stones 47 that are in a curve to a right Angles are formed and which turn laterally Palisades 1 to continue masonry or one Slope arrangement can connect. Due to the geometric formation of the staggered trapezoidal surface sections can also be the trough stones be laid in an angular arrangement, whereby again the side pads 13, 14 of adjacent elements can touch.

The lower wall section 49 is in the embodiment 10b designed variable, d. H. he can at the Separation line 50 can be removed to possibly from the trough stone 47 to produce a U-stone 48. This is in Fig. 10b shown accordingly.

Examples of installation are shown in FIGS. 11 to 13 reproduced. 11a, 11b shows a front view (Fig. 11a) and in rear view (Fig. 11b) a straight line or linear arrangement of palisades 1 and trough stones 47 or U stones 48. According to the rear view according to FIG. 11b, there are three adjacent trough stones 47 arranged on which two U-stones 48 are placed on each. The cavity 42 of the lower trough stones 47 can be used for planting will.

On the side, the slope arrangement consists of Trogstein 47 and U-Stein 48 by two palisades 1 each limited, d. H. the palisades tower three trough stones or U-stones 47, 48 arranged one above the other.

The representation of the arrangement according to FIGS. 12a, 12b shows a Angle arrangement in front view (Fig. 12a) and in Rear view (Fig. 12b). An arrangement of four palisades 1 at an angle of 90 ° closes left and right one slope arrangement each from a lower trough stone 47 with two U-stones 48 arranged above it. The continued slope arrangement is by two shown palisades 1 causes.

In the exemplary embodiment according to FIGS. 13a to 13d different views the curve shape in turn by a Row of four lower, side by side Trough stones 47 cause two U-stones 48 each are put on. This in turn results in a 90 ° arrangement, formed from trough stones or U stones. The straight-line continuation is then again by side by side arranged palisades 1 causes. Here are on each side two palisades 1 shown in Figures 13a to 13d.

Of course, any other can also be used Create a combination of the elements. The decisive factor is in each case the adaptation of the connecting elements to each other, the nose-shaped surface sections any straight line or allow angular arrangement.

The geometric formation of the trough stone 47 in Fig. 10a with the upper trapezoidal surface section 23 and the lower trapezoidal surface section 23 'whose base sides offset from one another, form analogous to the 2 shows an angular arrangement α 1 ≈ α 2 ≈ 100 ° - 110 ° and especially 105 °. The corresponding angle α 3, α 4 of trapezoidal section 23 'is α 3 α 4 ≈ 110 ° - 120 ° and especially 115 °.

The angle formed by the V-shaped cutouts 38, 39 is chosen such that a series of about four adjacent components an angle of 90 ° can be formed, as shown in Fig. 10a for the palisades 1 and 10b for the troughs 47.

The invention is not based on that described and illustrated Embodiment limited. Rather, it includes everyone professional training within the scope of Property rights claims. For example, others can Moldings produced as described with this system will.

Claims (19)

1. Moulded article, in particular of concrete for landscape architecture and garden design, designed, in particular, as a palisade, trough, retaining block or the like, with a front (6) and an opposing back (7) and with two lateral faces (13, 14) which connect the front and back, are designed as lateral connecting faces (13, 14) for two adjacent moulded articles (1, 2, 40, 47, 48) and have a common contact face (19, 19') which is substantially aligned (arrow 12) with the moulded article, the moulded article consisting of face portions (23, 23' or 23, 23") which are trapezoidal in a plan view or in cross section and are orientated with their broader bases toward one another, characterized in that, for forming alternate connecting faces (13, 14) on either side, the imaginary bases (45, 45') of abutting trapezoidal cross sections (23, 23', 23") are asymmetrically offset laterally from one another.
2. Moulded article according to claim 1, characterized in that the connecting faces (13, 14) form nose-shaped face portions (18, 18') which rest against one another alternately.
3. Moulded article according to claim 1 or 2, characterized in that the trapezoidal faces (23, 23', 23") abutting with their bases (45, 45') have identical or different cross sections or areas (F₁, F₂).
4. Moulded article according to claim 1, characterized in that the two face portions (23, 23') which are trapezoidal in cross section and are joined together at their broader bases are each offset from one another by a distance "e" and are provided with nose-shaped face portions (18, 18') which are arranged on both sides and form common contact faces (19, 19').
5. Moulded article according to one of the preceding claims, characterized in that the trapezoidal cross sections (23, 23') abutting with their bases have an identical or different trapezoidal height (h₁, h₂).
6. Moulded article according to claim 5, characterized in that the mutually associated trapezoidal cross sections (23, 23") have different trapezoidal heights (h₁, h₂), a projection (f) being attainable for the front (6) and/or the back (7) when the moulded articles are arranged alternately.
7. Moulded articles according to one of the preceding claims, characterized in that, when laid in a straight line, they can be laid with a length dimension (a) and a width dimension (b) and/or a length dimension (a) and a width dimension (c), the dimension (a) being located on the central point of contact (25) between the mutually contacting face portion (19, 19') of the nose-shaped face portions (18, 18').
8. Moulded article according to one of the preceding claims, characterized in that, in the laid state, it has a vertical longitudinal sectional plane (10) and a transverse plane (11) arranged transversely thereto, which are arranged in the dimension "a", the point of intersection (24) of the longitudinal sectional plane (10) and the transverse plane (11) preferably serving as a vertical axis of rotation (24) for the moulded article arrangement.
9. Moulded article according to one of the preceding claims, characterized in that the abutting lateral connecting faces (13, 14) of two adjacent moulded articles (1, 2, 40, 47, 48) form, in a plan view, two substantially V-shaped recesses (38, 39) which are laterally offset from one another.
10. Moulded article according to one of the preceding claims, characterized in that the lateral connecting faces (13, 14) have a nose-shaped course (18, 18') with an oblique face (22) substantially to the vertical longitudinal sectional plane (10) which is connected to a contact face (19, 19') which is substantially parallel to the vertical longitudinal sectional plane (10) or is aligned therewith and extends over a distance (e) and in that the course of the lateral connecting face (13, 14) proceeds so as to form a bevel (17) which is continued in the direction of the centre of the moulded article.
11. Moulded article according to one of the preceding claims, characterized in that the contact face (19, 19' or 20) arranged substantially parallel to the front face (6) or rear face (7) is plane or bent or curved between two adjacent moulded articles and is arranged centrally or eccentrically with respect to the longitudinal sectional plane (10).
12. Moulded article, in particular of concrete for landscape architecture and garden design, designed, in particular, as a palisade, trough, retaining block or the like, characterized in that it is designed as a corner moulded article (3) and has two nose-shaped face portions (18, 18') mutually offset by 90°, the second nose-shaped face portion (18') being produced in its spatial arrangement by a rotation of the first nose-shaped face portion (18) round a rotational angle of 90 or 270° round a longitudinal axis of symmetry (24') and the moulded article (3) having two external faces (32, 33) which are at right angles to one another and are located opposite the respective moulded article connecting face (13', 14') formed by the nose-shaped face portions (18, 18').
13. Moulded article according to one of the preceding claims, characterized in that it is designed as a palisade (1, 2) or as a trough (40, 47) and/or as a retaining element (40, 47, 48) and/or as a U-shaped block (48).
14. Moulded article according to claim 13, characterized in that it has an internal cavity (42) for receiving plants or a reinforcement.
15. Moulded article according to claim 13 or 14, characterized in that it has, in its base region, a base element (43) formed in one or several parts with the moulded article.
16. Moulded article according to claim 14, characterized in that the internal wall of the cavity (42) extends conically.
17. Moulded article according to claim 7, characterized in that the dimension "a" is substantially a ≈ 1/3 m and the dimension "b" is substantially b ≈ 200 mm.
18. Moulded article according to claim 13, characterized in that a trough block (47, 48) which is trough-shaped and/or is U-shaped in cross section consists of two trapezoidal cross sections (23, 23') arranged with their broad bases (45, 45') asymmetrically mutually offset, the cavity (42, 42') in the trough block (47) or in the U-block (48) being located completely in a trapezoidal cross section (23, 23').
19. Moulded article according to claim 18, characterized in that the height ratio h₁ : h₂ of the trapezoidal portions (23, 23') is substantially h₁ : h₂ ≈ 1 : 5.

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