NL1028501C2 - Laying artificial grass pitch, by laying artificial turf on top of watertight hardening layer and porous concrete layer - Google Patents

Abstract

A watertight hardening layer (4) is laid on top of the levelled ground and a porous concrete layer (5) is formed on top of the hardening layer before laying the artificial turf (7) on top of the concrete layer. The hardening layer comprises a dense concrete layer, preferably asphalt concrete. The porous concrete layer comprises very open asphalt concrete.

Description

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METHOD FOR MANUFACTURING AN ARTIFICIAL GRASS FIELD AND MANUFACTURED ARTIFICIAL GRASS FIELD

The invention relates to a method for manufacturing an artificial grass field, as known from European patent application 0 140 868. Hereby use is made of a porous concrete layer for receiving and discharging rainwater.

In a known method of this kind, a site is prepared for applying an artificial grass field by excavating a cunet approximately 40 to 70 centimeters deep. Subsequently, water discharge pipes are installed in the soil, on which a drainage bed of drainage sand is laid. This bed has a thickness of approximately 40 to 70 centimeters.

An approximately 10 centimeters thick sports-technical layer of, for example, a mixture of lava rock and possibly a rubber material tailored to the lava rock is placed on the drainage bed. A geotextile is applied over this layer, on which the plastic grass mat is rolled out.

A layer of filler material is included in the artificial grass mat, which can for instance consist of sand or a sand and rubber granule mixture.

This known method has the drawback that much soil must be removed and many raw materials must be supplied. Moreover, bringing the various layers to the desired flatness is difficult and time-consuming.

Due to the rapid drainage of the rainwater from the upper surface, the field can be played quickly.

The object of the invention is to further improve the known method, so that the artificial grass field to be manufactured with the method is as unplayable as possible as a result of rainfall.

This object is achieved with the method according to claim 1.

It has been found that a layer of porous concrete of limited thickness can store a large amount of water, which water can be gradually discharged laterally. Due to the watertight paving layer, the rainwater does not penetrate into the subsoil, so that the bearing capacity of this subsoil remains unaffected and even after prolonged rainfall the artificial grass field can continue to be used, without the risk of subsidence and the like.

The layer of porous concrete is preferably very open asphalt concrete. This can be applied with known techniques for road construction and the like, which can be ensured in efficient and fast design with a high quality as regards, among other things, flatness.

The percentage of open cavities of the very open asphalt concrete is preferably between 20 and 45. As a result, a sufficient bearing capacity and a very good water drainage property are achieved.

The hardening layer can be an open bonded layer, for example if the substrate is a dense clay layer. An open layer can also be used if a dense foil is used underneath. However, according to a preferred embodiment of the method according to the invention, the hardening layer is formed by a dense concrete layer. This dense concrete layer is preferably made from an asphalt concrete. This asphalt concrete can also be applied in a suitable manner using techniques known per se.

Leveling the terrain comprises at least excavating a cunet which, according to a preferred embodiment of the method, has a depth of less than 30 centimeters.

Preferably, a foundation layer is applied for applying the paving layer. A first equalization can hereby be achieved. The paving layer, which is therefore preferably made of asphalt concrete, provides a further leveling, that is to say, can satisfy a higher flatness requirement. The layer of porous concrete to be applied thereto can be applied to it with a very high flatness requirement.

The foundation layer can suitably be made from a rolled mixed granulate. The foundation layer thus serves as first leveling for the field and for sufficient load-bearing capacity from the superstructure to the natural subsurface.

For a suitable support of the artificial grass mat, which can be any artificial grass mat known per se and available in the market, a layer of geotextile is preferably first laid on the layer of porous concrete. This is permeable to water and ensures a filter effect and prevents the infill to be discussed from sinking out of the turf. The geotextile layer can form a whole with the artificial turf.

In another method, it is also possible to apply a layer of somewhat resilient and shock-absorbing material on the porous concrete layer prior to the application of the artificial grass mat or the geotextile, which is water-permeable. This means that high requirements with regard to flexibility and shock absorption can be met.

In a preferred embodiment of the method according to the invention, the hardening layer is applied in a thickness of the order of 4 to 8 centimeters. This thickness is sufficient to achieve the desired structural strength and is sufficient to achieve the equalization to be achieved with this layer. Because of this layer thickness a relatively small amount of material is required, which is of course favorable.

The porous concrete layer is preferably applied in a thickness of at most 8 centimeters. The thickness can advantageously be only 3 to 4 centimeters. As a result, the flatness to be achieved with this layer can be realized in a suitable manner and the thickness is large enough for draining rainwater.

According to a further development of the method according to the invention, a granular filling material is applied to the artificial grass mat. This granular filler material preferably comprises at least rubber material.

This gives the artificial turf a desired sport-technical quality with regard to resilience and shock-absorbing. As noted earlier, an extra layer can be applied if a particularly high resilience and shock-absorbing capacity is desired.

For a well-controlled water drainage, according to a further development of the invention, water drainage is connected along at least one edge of the site with a layer of porous concrete. Even with large amounts of rain, the artificial grass field and its surroundings will remain sufficiently dry to keep the artificial grass field, which will in particular be intended for sports practice, usable.

In order to ensure water drainage with normative showers, also with large surfaces of the artificial grass field, narrow grooves can be milled or sawn in the hardening layer and / or in the layer of porous concrete, which can drain extra water to the edge of the terrain. The width of the grooves is no more than 1 to 1.5 centimeters, so that the material of the porous concrete layer resp. the artificial turf does not noticeably sink into the grooves.

The invention also relates to and provides an artificial grass field manufactured with the method as described above.

The artificial grass field according to the invention, compared to the known state of the art, is considerably more resistant to deformation in the vertical sense. The paving layer and the porous concrete layer have a large bearing capacity and will not deform even with intensive use. When replacing the turf at the end of its life, a rapid replacement is possible. The underlying layer of porous concrete requires little or no maintenance and the new artificial grass mat can be applied immediately.

When the artificial grass field according to the invention is completely demolished, the materials released can be removed separately and, in particular when the paving layer and the porous concrete layer are made of asphalt, these materials released can be reused. The environmental impact of the artificial grass field according to the present invention is therefore low.

The invention will be further elucidated with reference to the accompanying figure, which shows a schematic section of an artificial grass field manufactured with the method according to the invention.

The artificial grass field shown in the figure is manufactured by excavating a cunet 2 which can have a depth of only 20 to 25 centimeters.

A foundation layer of mixed granulate or an equivalent material is provided in the cunet 2. This mixing granulate is compacted and leveled by rolling into a solid layer.

10285 01-6

A layer of gravel asphalt concrete 4 is applied to the foundation layer 3. This gravel asphalt concrete is applied with a conventional asphalt spreader and the surface thereof can thus already have a high flatness.

5 A layer of very open asphalt concrete 5 is applied to the layer of gravel asphalt concrete 4. The gravel asphalt concrete layer 4 can have a thickness of approximately 5 centimeters, while the very open asphalt concrete layer 5 can have a thickness of approximately 3 to 4 centimeters.

A layer of geotextile 6 is provided on the layer of very open asphalt concrete 5 in this embodiment. This textile is permeable to water and can have a filtering effect.

Finally, the artificial grass mat is applied to the layer of geotextile 6. This artificial turf can be a synthetic turf known per se. No special requirements need to be set.

The artificial grass mat and optionally the layer of geotextile can be laid loosely on the layer of very open asphalt concrete, but can also be joined together by local glue connections or glue connections over the entire surface.

There is a so-called "infill" in the artificial turf. This consists of a granular filling material 8, which can for instance contain a bottom layer of 1 to 2 cm of sand, with a layer of a suitable rubber mixture on top. Only rubber or a similar material can also be used. The use of the "infill" layer or layers is made in those cases when certain requirements are set for the artificial grass field with regard to the resilience and the shock-absorbing capacity, such as these apply on site and, for example, by a sports association such as the KNVB or an inspection institute such as the ISA of the NOC-NSF are prescribed. Depending on the requirements, a suitable composition of the "infill" is selected. Variations can lie in the material properties (such as the grain size, the grain size distribution and the like), the layer thickness and type of "infill".

As previously noted, the rainwater, here indicated with reference numeral 12, is drained by the layer of very open asphalt concrete 5. The artificial grass mat 7 and the layer of geotextile 6 are both permeable to water, so that the water falling on the lawn sinks therethrough and very low in the layer. open asphalt concrete 5 is collected, which is indicated by the water level 11.

A water drain 10 is provided along at least one edge of the site with which the water 11 absorbed by the very open asphalt concrete 5 can be discharged.

In the embodiment shown here, the water drainage is formed by a drainage pipe 13 which is received in a drainage bed 14 that connects to the layer of very open asphalt concrete 5. The water 11 from the layer of very open asphalt concrete flows into the drainage bed 14 and from there into the drainage pipe 13. The water drainage system can preferably be arranged around the entire field and be provided with suitable inspection wells at suitable locations, so that the water drainage can always take place in a controlled manner.

102Ö5014

Claims (16)

1. Method for manufacturing an artificial grass field comprising at least the leveling of a ground, the application of a watertight pavement layer to the leveled ground, the application of a layer of porous concrete above the pavement layer, and the application of porous concrete above the layer of porous concrete an artificial turf. Method according to claim 1, wherein the layer of porous concrete is very open asphalt concrete. Method according to claim 2, wherein the percentage of open cavities of the very open asphalt concrete is between 20 and 45. Method according to one of the preceding claims, wherein the paving layer is a dense concrete layer. The method of claim 5, wherein the concrete is an asphalt concrete. The method of any one of the preceding claims, wherein the leveling comprises excavating a cunet. The method of claim 6, wherein the cunet has a depth of less than 30 centimeters. Method according to one of the preceding claims, wherein a foundation layer is applied for applying the paving layer. The method of claim 8, wherein the foundation layer is made from rolled mixed granulate. Method according to one of the preceding claims, wherein a layer of geotextile is applied to the porous concrete layer and the artificial grass mat is laid on this layer of geotextile. I 028501- • » A method according to any one of the preceding claims, wherein the hardening layer is applied in a thickness of the order of 5 centimeters. 12. Method as claimed in any of the foregoing claims, wherein the layer of porous concrete is applied in a thickness of at most 5 centimeters. A method according to any one of the preceding claims, wherein a granular filler material is provided in the artificial grass mat. The method of claim 13, wherein the granular filler material comprises rubber material. 15. Method as claimed in any of the foregoing claims, wherein a water drain communicating with the layer of porous concrete is arranged along at least one edge of the site. An artificial grass field manufactured with the method according to one of the preceding claims. ί02θ5 01 -