DE102004020217B4 - Grass paver - Google Patents

Abstract

An open profile concrete block for green support surfaces especially for supporting vehicles on a grassed area, has a two layer construction. The upper layer is made of porous concrete extending to two thirds or three quarters of the thickness of the block and with a finer pored stronger concrete as the bottom support layer. The open profiles have a tapering cross section wider at the top, with the grasses area about 60 percent of the area of each block. The porous upper layer holds moisture and provides a grip for grass roots.

Description

The The invention relates to a grate made of hauwerkporigem concrete for green areas in the Gardening and landscaping.

such Lattice stones are used in particular, where a surface greened and at the same time should be well accessible or passable in any weather. With respect to their The basic form consists of intersecting webs with trapped, with Soil fillable Built up chambers. From the chamber / bridge ratio results, which relative Proportions of the total surface of the lattice the webs on the one hand and the chambers on the other get. For a good reasonableness of such Stones are preferably a big one Chamber / bridge ratio selected. A good reasonability is also due to the use of concrete materials with large pore volume guaranteed whereby, on the one hand, plant-damaging heating of the lattice stones is prevented in intense sunlight and the other size Water quantities can be stored. Another advantage a big one Pore volume is that the root ends of the plants in these stones can grow into and thus anchored in the surrounding porous concrete. moreover offers a big one Pore volume the advantage of an improved air and water balance and an effective surface drainage. After all lowers a big one Pore content the weight of each lattice, making this easier to relocate.

One decisive disadvantage of a laid grid of highly porous concrete is its low pressure load when driving, even breaking lead the grid can.

In order to improve the breaking strength of a lattice, is in a in the DE 94 21 282 U1 described lattice stone for gardening and landscaping provided that the webs widen continuously from the top of the stone towards the bottom, so that the chambers of the lattice correspondingly widen to the top of the stone conical. On the one hand, this achieves a chamber / web ratio which is sufficient for a good plantability on the upper side of the lattice; on the other hand, the lattice has an improved tensile strength in the lower region which is stressed when the stone is driven through the webs widening toward the underside. However, if such gratings are made of a concrete with a particularly high pore volume, the associated lower tensile load capacity would have to be compensated by a particularly pronounced conicity of the chambers, ie by more concrete volume, in order to achieve a sufficient tensile strength of the stone. However, this leads to a greatly reduced chamber volume, which ultimately stands in the way of a good reasonability.

For the production of green areas, molded blocks are known, ( DE 197 42 899 A1 ), which consist of a concrete body and a facing layer of porous concrete. The pores of the facing layer allow plants to root in the pores with their roots. In addition, the pores of the facing layer have a storage function for precipitation water.

In another known two-layer concrete paver ( DE 25 33 800 A1 ), the upper layer of porous material and the lower layer of solid material, wherein the upper porous layer has a much smaller height than the lower layer of solid concrete. The porous layer serves to absorb surface water and drain it over the joints between the stones. In addition, fully porous, two-layer paving stones are known ( DE 39 09 169 A1 ; DE 91 00 380 U1 ), in which the upper, comparatively thin layer has a fine porosity and the lower, much thicker layer has a higher porosity. In these concrete blocks, the finer porous layer serves either as a filter layer or as a decorative layer.

Of the The invention is therefore based on the object of providing a grid stone for plantable areas in the garden and landscaping, which is a good reasonability allows and at the same time excellent breaking load properties when driving.

The Task is according to the invention in a made of a porous aggregate concrete lattice thereby solved, that the lattice stone consists of two superimposed built haufwerkporigen concrete layers, the lower layer a lower porosity has as the upper layer, and the thickness of the lower layer one third to one quarter of the total height of the lattice.

By means of the layer structure provided according to the invention, it is achieved that the lattice stone has a porosity which is sufficient for a vigorous and long-lasting growth and at the same time excellent breaking load properties. The upper, only under pressure load layer has such a high porosity that they can store a large volume of water and absorb the root ends of the growing plants in the chambers, whereby this also longer dry On the other hand, the pore volume of the lower layer is chosen to be so small that this layer can easily absorb the tensile forces acting on the underside of the stone under load, but is still permeable to water. At the selected thickness ratio of the layers - for example, at a standard height of 10 cm, the lower layer is about 3 cm and the upper layer about 7 cm - is taken into account that the tensile stress particularly stressing the material only in a narrow area near the bottom of the Gridstone occur. Accordingly, the thickness of the highly porous layer with about three quarters of the total thickness of the lattice stone can be made large, whereby the total weight of the lattice stone decreases and an optimal water supply of the growing growth in the chambers is ensured.

Especially Cheap are the circumstances in terms of the weight, the reasonableness and the breaking strength in a lattice stone, wherein the grain diameter in the grading curve for the upper layer to a maximum of 5 mm and for the lower layer to a maximum 8 mm is limited. So can the porous concrete of the lower Layer have the following composition: sand 0/2 mm, chippings 2/5 mm and cement and that of the upper layer has the following composition: Sand 0/2 mm, chippings 5/8 mm and cement. In such Haufwerkporigen Although the lower layer has a larger pore volume, it is the number of "glue joints" between the individual grains much larger than at the upper layer, so that the bending tensile strength of the lower layer is higher.

To a further advantageous embodiment of the invention, the green component in the surface of the lattice about 60%. This will be a visually appealing Begrünbarkeit with the grid of the invention paved area with excellent load characteristics of the individual lattice stones reached.

By the layer structure of the grid according to the invention, the Be formed by the webs enclosed chambers cuboid, without that it is overloading and thus to a breakage of the lattice on its underside as a result of excessive tensile load comes. The load behavior of the lattice stones can be however, continue to positively influence when the chambers move up to the top the conglomerates expand conically.

To the laying of the grids, the thus paved area is usually by means of a vibrator It can (or "shake it off") at the marginal Lattices easily cause edge chipping on the surface in particular also come because of the here particularly porous concrete, which affects the visual appearance of the surface. This is after a advantageous embodiment of the invention provided that the surface of the Lattice stones in the edge area to the outer edge is lowered, so that this vulnerable edge area with the Rüttelfläche the Rüttlers not more comes into contact, which effectively prevents edge breakage becomes.

Around Lattices, the sides of the peripheral edge open half chambers have, after manufacture to a package with improved stability to summarize and in particular with the mechanical laying of the lattice stones move them together to avoid cross joints can, is provided according to an embodiment of the invention that a Part of the half chambers are closed at the bottom, so, that half open chambers and half closed at the bottom Chambers at the abutting edges adjacent lattice stones each lie opposite. In such trained It can not be used to interlock the web ends come at the encircling edge.

in the The following is the invention with reference to an embodiment drawing closer explained. Show it:

1 a lattice stone according to the invention in a perspective view,

2 the lattice of the 1 in plan view,

3 the lattice of the 1 in a side view and

4 two adjacent grids according to 1 in a side sectional view along the line IV-IV of 1 ,

The lattice brick according to the invention 1 exists according to 2 from twice four perpendicularly crossing webs of equal length 2 . 3 and thus has a square cross-section. The bridges 2 . 3 close a total of 9 chambers 4 also square in cross-section, which receive soil or substrate for greens. As in particular in 2 recognizable, becomes the edge of the lattice stone 1 through the ends 2a . 3a of the bridges 2 . 3 formed, which form short projections over the respective outer transverse web. As 2 shows further, the web ends of each adjacent bricks meet the front side against each other.

The grid stone 1 consists of a heap werksporigen concrete and is composed of two superposed concrete layers S1, S2 of different porosity, wherein the lower S2 has a lower porosity than the upper layer S1 (s. 4 ). This will ensure that the lattice stone 1 with the upper layer S1 has a sufficient for a vigorous and durable vegetation porosity and at the same time characterized by excellent breaking load properties due to the relatively low porosity of the lower layer S2. In the present case, the thickness d of the lower layer corresponds to approximately one quarter to one third of the total thickness D of the lattice 1 , Accordingly, the thickness of the upper layer S2 extends over approximately three quarters of the total thickness of the lattice. As a result, the total weight of the grid is reduced, and an optimal water supply of growing in the chambers vegetation is ensured.

As in particular in the side view of 3 recognizable, are the webs 2 . 3 from the top of the grid 1 widened towards its bottom, so that the chambers 4 from the bottom to the top of the lattice 1 expand accordingly. As a result, the tensile strength of the lower portion of the grid is additionally strengthened and thus the strength of the grid against breakage further improved.

As the 3 and 4 show are the surfaces of the web ends 2a . 3a which is the edge of the grid 1 form, lowered by a slight bevel to the outside. This is especially important when the bridge ends 2a . 3a the outer edge of one with a variety of grid stones 1 form paved area. In this case, the lowered surfaces of the web ends 2a . 3a Do not come in contact with a vibrator and be broken by this.

In the figures, a part of the otherwise open half chambers is closed at the peripheral edge of the lattice in the lower region, with concrete poured out, to the walls of the webs 2 is pulled up. The lowest height h of the closed area should be at least 20% of the total height of the stone, which need not be congruent with the thickness d of the lower layer S1. The distribution between completely open and half-closed half chambers is made so that arise at the peripheral edge chambers, one half of the chamber is half closed and the other half of the chamber is completely closed. This then results in a mutual continuous contact surface, which allows the laid lattice stones to move against each other without the ends of their webs 3a can get caught in each other.

Claims (7)

Lattice stone consisting of hard-grained concrete ( 1 ) for green areas in gardening and landscaping, characterized in that the lattice stone ( 1 ) is constructed of two superposed, porous concrete layers (S1, S2), the lower layer (S2) having a lower porosity than the upper layer (FIG. 1 ), and the thickness of the lower layer (S2) one third to one quarter of the total height (D) of the lattice ( 1 ) corresponds. Lattice stone according to claim 1, characterized that the maximum grain diameter of the porous lower layer is 5 mm and the upper porous one Layer is 8 mm. Lattice stone according to claim 2, characterized that the honeycomb porous concrete of the porous lower layer (S2) a Composition of sand 0/2 mm, chippings 2/5 mm and cement and the hovwerksporige Concrete of the upper layer (S1) a composition of sand 0/2 mm, Chippings 5/8 mm and cement has. Lattice stone according to one of claims 1 to 3, characterized in that the proportion of green in the surface of the lattice ( 1 ) Is 50-60%, in particular 60%. Lattice stone according to one of claims 1 to 4, characterized in that the of the webs ( 2 . 3 ) enclosed chambers ( 4 ) to the top of the grid ( 1 ) conically expand. Lattice stone according to one of claims 1 to 5, characterized in that the surface of the lattice ( 1 ) is lowered in the edge region to the outer edge. Lattice stone according to one of claims 1 to 6, characterized that at the peripheral edge laterally open, a half chambers Part of the half chambers are closed at the bottom, so, that half open and half closed in the lower area chambers at the abutting ones edges adjacent lattice stones in each case opposite.