NL1038031C2 - ARTIFICIAL GRASS SPORT FIELD. - Google Patents

Description

Artificial grass sports field

BACKGROUND OF THE INVENTION

5

The invention relates inter alia to a method for installing an artificial grass sports field. The invention furthermore relates to a (artificial) grass sports field.

Synthetic turf sports pitches have been around for several decades. Usually they are laid out on a site that previously formed a natural sports field. During the construction, the existing grass layer is first removed and a cunet is dug out, whereby the released soil is removed. A drainage system is laid on or in the bottom of the cunet, after which the cunet is filled with a layer of sand (for example 40 cm) that forms the foundation of the sport-technical layer that is laid on top of it, with a slope. The design of the sport-technical layer depends on the sport concerned. This layer often comprises a layer of lava (for example 10 cm) and a damping layer on top of it (shock pad, for example lava mixed with rubber foam granules). An artificial grass mat is then laid on top of it, after which it is sprinkled with, for example, sand or rubber granules, to increase the stability of the grass fibers.

The drainage system serves to drain rainwater forced into the sand body and possibly ground water coming out of the soil in order to prevent undesired deformation of the sand body as a result of freezing.

The well-known method of installing an artificial grass sports field requires a lot of time, effort, material and material.

SUMMARY OF THE INVENTION

30

It is an object of the invention to provide a method for installing an artificial grass sports field that is efficient.

It is an object of the invention to provide a method for installing 1038031 2 of an artificial grass sports field that can be carried out within a limited time.

An object of the invention is to provide a method for installing an artificial grass sports field that is economical.

An object of the invention is to provide a method for installing an artificial grass sports field that is less environmentally harmful.

It is an object of the invention to provide a method for installing an artificial grass sports field, which sports field is favorable from an environmental point of view.

To achieve at least one of these objects, the invention provides a method for laying an artificial grass sports field on a ground, wherein a sports-technical layer comprising an artificial grass mat is applied to a foundation, with prior to, in, on or above the foundation a layer which is water-retaining in the vertical direction and drains in the horizontal direction is realized.

As a result, the penetration of rainwater into the foundation, such as a sand body, is largely prevented, so that under certain circumstances the construction of the aforementioned drainage system can be dispensed with.

In one embodiment the water-retaining layer is realized by laying a drainage layer of web-like material on the foundation with an upper wall which is permeable to water in the vertical direction and with a lower wall which is substantially impermeable to water in the vertical direction, the drainage layer being there are passages for draining water in the horizontal direction between the top wall and the bottom wall. As a result, the rainwater is absorbed from the artificial turf above and effectively discharged within the drainage layer. The drainage capacity of the foundation is therefore of little or no importance: deterioration of that drainage capacity then plays no role, with the result that the replacement of the foundation is discussed less quickly.

In an advantageous embodiment, the drainage layer between the upper layer and the lower layer is provided with spacers, which are resilient. The drainage layer thus also forms a damping layer, so that further construction costs can be saved.

In one embodiment the spacers are formed by so-called studs of a bubble wrap, which studs define passages between themselves.

In an alternative embodiment, the spacers are formed by tangled, interconnected wires which define passages between themselves. This may, for example, be the material used for Enkamat® or Secumat® (three-dimensional structure mat of tortuous polymer (such as polyamide, polypropylene) threads that are fused together at intersections.

In one embodiment, the artificial grass mat is laid directly on the drainage layer.

The drainage layer is preferably designed as a mat.

The drainage layer or mat can be brought into water-discharging connection 10 with a water collection, in particular a water reservoir, for reuse as, for example, spray water.

When the aforementioned known drainage system can be omitted, the need to dig a cunet is reduced. A further, considerable simplification can then be obtained if, according to a further aspect according to the invention, the ground material of an existing top layer of the site is treated for stabilization of the foundation. This layer can then form the aforementioned foundation layer. The soil material already present does not have to be removed and discharged, sand does not or hardly need to be supplied and dumped / dispersed. The construction can therefore be essentially "no-dig".

In one embodiment, the method is applied to a site that is initially provided with a natural grass cover. The root layer can also be included in the stabilization process, after mixing with the underlying soil material.

The thickness of the top layer can be kept limited, for example 20 cm.

The top layer can be stabilized by mixing a binder with the base material of the top layer. The binder can be cement. Conch shell is also a possibility that has been found to be effective for a long time. Conch shell is tough and dense and can provide tear resistance. Conch shell increases frost resistance.

If necessary, reinforcement fibers may be admixed to promote the strength of the upper layer, in particular fibers (in particular polypropylene and polyethylene fibers) originating from old artificial grass mats.

For soil stabilization, the soil material can be mixed in a manner known per se with a clay crystallizing agent, such as 4

Geosta ®, depending on the composition of the existing top layer. This prevents cracking.

It is thereby possible to treat the top layer such that it also becomes substantially watertight. In itself, such a watertight upper layer, under suitable slope, could already form a water-retaining and horizontal water-draining layer. The top layer is also protected against capillary groundwater.

In one embodiment, the artificial grass mat is sprinkled with granular grain-containing material. The olivine can bind CO2 in air and water. The olivine also furthermore has a favorable influence on the environment, because heavy metals such as zinc, lead, etc. are better bound by an increase in the pH value. This is favorable for the collected and discharged rainwater, which therefore forms a lesser burden for purification installations or soil, and may soon be suitable for discharge or for reuse as a spraying agent. Furthermore, it is possible that the olivine aids in NOx reduction, phosphate binding and particulate matter reduction. The water can dissolve and remove substances resulting from the conversion of CO2. The olivine also prevents silting up due to biofilm formation in draining layers. The granular material containing olivine replaces fine quartz sand, which may have the disadvantage of being harmful to the health of users of the sports field.

The granular material is preferably obtained from a solidifying rock. That -olivine-containing rock may be basalt, a basic volcanic rock, but preferably, because of high levels of olivine, an ultra-basic rock, in particular peridotite, in particular dunite.

For the effectiveness of the olivine, it is preferred that it has a Mg content of more than 50% by weight, more preferably of more than 70% by weight. The aforementioned depth rock may in particular be forsterite.

The grain material can be smaller than about 1 mm.

From a further aspect, the invention provides a method for laying an artificial grass sports field on a site, comprising treating the ground material of an existing top layer of the site for stabilization thereof, profiling the top surface of the top layer, and placing an artificial turf. This achieves the aforementioned advantages, in particular the construction of an artificial grass sports field with a necessary process.

Further elaborations of this method have already been mentioned above and are described in, inter alia, claims 24-30.

The grass from the existing grass cover can be mowed and removed, after which the root layer with associated soil material is mixed with soil material located below.

From a further aspect, the invention provides a method for laying an artificial grass sports field on a site, wherein an artificial grass mat is applied above a layer of ground material mixed with shell lime. The ground material can in particular be ground material present in situ.

From a further aspect, the invention provides a method for laying an artificial grass sports field on a site, wherein an artificial grass mat is sprinkled with olivine-containing granular material. This step can also be applied to existing artificial grass sports fields, instead of the usual sand. The advantages of olivine and further embodiments have already been described above.

From a further aspect the invention provides an artificial grass sports field obtained with a method according to the invention. In particular, the invention provides an artificial grass sports field comprising an artificial grass mat and an upper layer of stabilized ground material located below. The invention further provides an artificial grass sports field comprising an artificial grass mat which is laid on a drainage mat with a water-retaining substrate and horizontal water-draining capacity, in particular a drainage mat resilient in the vertical direction. The invention furthermore provides an artificial grass sports field comprising an artificial grass mat sprinkled with olivine-containing granular material.

The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can, where possible, also be applied separately from each other. Those individual aspects can be the subject of targeted split-off patent applications. This applies in particular to the measures and aspects that are described per se in the subclaims.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be elucidated on the basis of an exemplary embodiment shown in the accompanying drawings. Shown is:

Figures 1-9 show a number of consecutive steps in an example 6 of a method according to the invention.

DETAILED DESCRIPTION OF THE DRAWINGS

Figure 1 shows an existing site 1 with a natural grass mat with root zone 2 and grass 3, which lies on a layer of soil material 4 of, for example, sand with clay and / or clay particles and organic matter.

For the construction of an artificial grass sports field, see figure 2, the grass 3 is shaved and removed. The upper surface 6 is then provided with, at most, stubble of grass.

Next, figure 3, with the up and down hooks 11 of a so-called hook cutter 10, moving over the terrain 1 in the direction A, the material of the layer 2 is mixed with an upper part of the layer 4, for example up to a depth D of 15-20 cm. The mixed material is indicated by 5a. The boundary between mixed material 5a and original raw material 4 is indicated by d.

Then, figure 4, cement 12 and Geosta ® 13 are supplied and, figure 5, with the help of the milling cutter 10 intimately mixed with the material 5a, with the addition of water 14. The Geosta ® converts the clay particles into crystals that can be bonded with the cement 12. The result is a stabilized upper layer 100 (material 5b in figures 5-9, not in figure 4) over the depth D, which is additionally compacted (roller 15, figure 6) and is leveled and below the correct grade. The top layer can also be made watertight with suitable mixing with the cement and Geosta.

A frost beach can be made along the edges of the intended field, for example by mixing the soil material there with shell lime.

Next, figure 7, a drainage mat 20 is placed on the upper surface 6 below desired slope. This mat comprises a bottom layer 21 of water-impermeable material, such as a plastic film, an upper layer 22 of good water-permeable material, such as a non-woven material, which layers are both attached to and are kept at a mutual distance (e.g. 0.5 cm) by an open network of randomly oriented, 35-winding polymer wires, such as the aforementioned Enkamat ®. It will be understood that the choice of material will be tailored to the possibility of mutual attachment of the layers and the wires. Seams 7 between adjacent sheets of the mat are taped with suitable tape. It is also possible, for example, to use an existing mat made up of the aforementioned network with a non-woven fleece both on the underside and on the upper side (such as Enkadrain® or Secudrain®), and to place the non-woven backing thereof on, at preferably to be pre-mounted on a water-impermeable film.

An artificial grass mat 30 is then laid on the drainage mat 20, see figure 8. The artificial grass mat 30 comprises a water-permeable carrier layer 31 to which plastic grass fibers 32 are attached, as is customary. This is followed by sprinkling from a stock 16 the spaces between the grass fibers, at least a lower area thereof, with oil-containing grain material 40, polished, non-angular round grains of 0.5-1 mm

Water falling on the artificial grass field seeps downwards through the spaces between the granules 40, through the carrier layer 31, the upper layer 22 and then flows, guided by the lower layer 21, to the edges of the drainage mat 20. The drainage mat 20 drains off the edges thereof, in particular in gutters, which lead to a storage.

This has created an artificial grass pitch without significant excavation and soil displacement. The depth to which the soil material 4 is stirred is smaller than the depth to which a cunet is usually dug out (1-20 cm against 30-40 cm). The upper layer 100 is substantially frost-resistant and retains its stability for a long time to serve as a foundation, so that the artificial turf can retain its flatness.

In use, as the water seeps along the grains 40, the water comes into contact with the olivine and can therefore react chemically with it. With regard to the binding of CO2, the following reaction is thereby possible: 30 Mg 2 SiO 2 + 4 CO 2 + 2 H 2 O - 2 2 Mg + + 4 HCO 3 + SiO 2

The magnesium ions and the bicarbonate ions dissolve in the water and are therefore taken away. In this comparison, the Fe component in olivine (Mg, Fe) 2 SiO 4 is omitted. Mg ions will occur more often and are effective in capturing CO2. Forsterite has the highest Mg content.

Instead of cement 12, or instead of a portion thereof, 8 one can also add shell lime in the step of Figure 4.

The above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be apparent to those skilled in the art that fall within the spirit and scope of the present invention.

1038031

Claims (52)

Method for laying an artificial grass sports field on a ground, wherein a sports technical layer comprising an artificial grass mat is applied to a foundation, wherein prior to, in a layer on which water is drained in horizontal direction and drained in horizontal direction, on top of or above the foundation realised. Method according to claim 1, wherein the water-retaining layer is realized by laying a drainage layer of web-shaped material, preferably drainage mat, on the foundation, with an upper wall that is permeable to water in the vertical direction and with a lower wall that is vertical in direction is substantially impervious to water, the drainage layer between the top wall and the bottom wall being provided with passages for draining water in the horizontal direction. 3. Method as claimed in claim 2, wherein the drainage layer between the top layer and the bottom layer is provided with spacers, which are resilient 4. Method as claimed in claim 3, wherein the spacers are formed by so-called studs of a bubble wrap, which studs define passages between themselves. The method of claim 3, wherein the spacers are formed by tangled, interconnected wires defining passages between themselves. 6. Method as claimed in any of the claims 2-5, wherein the artificial grass mat is laid directly on the drainage layer. A method according to any one of the preceding claims, wherein to realize the foundation the ground material of an existing top layer of the terrain is treated for stabilization thereof. 8. Method as claimed in claim 7, applied to a site initially provided with a natural grass cover. A method according to claim 7 or 8, wherein the top layer is stabilized by mixing a binder with the base material of the top layer. 1038031 The method of claim 9, wherein the binder comprises shell lime. The method of claim 9 or 10, wherein the binder comprises cement. The method of claim 9, 10 or 11, wherein the soil material is mixed with a clay crystallizing agent, such as Geosta®. A method according to any one of the preceding claims, wherein the top layer is also treated to become substantially watertight. A method according to any one of claims 7-13, wherein reinforcing fibers are mixed into the base material, in particular fibers (in particular polypropylene and polyethylene fibers) from old artificial grass mats. 15. Method as claimed in any of the foregoing claims, wherein the artificial grass mat is sprinkled with olivine-containing granular material. The method of claim 15, wherein the granular material is obtained from a solidifying rock. The method of claim 16, wherein the solidifying rock is basalt. A method according to claim 16, wherein the solidifying rock is an ultra-basic depth rock, in particular of peridotite, in particular of dunite. The method of claim 18, wherein the olivine has an Mg content of more than 50 wt. % has, preferably a Mg content of, more than 25 wt. % has The method of claim 19, wherein said depth rock is forsterite. The method of any one of claims 15-20, wherein the grain material is less than about 1 mm. 3 0 A method according to any one of the preceding claims, wherein the draining layer, in particular drainage mat, is brought into water draining connection with a water collection, in particular a water reservoir. 23. Method for laying an artificial grass sports field on a ground, comprising treating the ground material of an existing upper layer of the ground for stabilization thereof, bringing the upper surface of the upper layer into profile, and placing an artificial grass mat. The method of claim 23 applied to a site initially provided with a natural turf. A method according to claim 23 or 24, wherein the top layer is stabilized by mixing a binder with the base material of the top layer. The method of claim 25, wherein the binder comprises shell lime. The method of claim 25 or 26, wherein the binder comprises cement. A method according to claim 25, 26 or 27, wherein the soil material is mixed with a clay crystallizing agent, such as Geosta®. A method according to any of claims 23-28, wherein the top layer is also treated to become substantially watertight. 30. Method as claimed in any of the claims 23-29, wherein reinforcing fibers are mixed into the base material, in particular fibers (in particular polypropylene and polyethylene fibers) originating from old artificial grass mats. 31. Method as claimed in any of the claims 23-30, when dependent on claim 24, wherein the grass is mowed and removed from the existing grass cover, after which the root layer with associated soil material is mixed with soil material located below. A method according to any one of claims 23-31, comprising one or more of the steps as described per se in claims 1-6. 33. Method for constructing an artificial grass sports field on a site, wherein an artificial grass mat is applied above a layer of ground material mixed with shell lime, wherein the ground material is preferably ground material present in situ. The method of claim 33, further comprising one or more of the features as per se described in claims 1-32. 3 0 35. Method for laying an artificial grass sports field on a site, wherein an artificial grass mat is sprinkled with olivine-containing granular material. The method of claim 35, wherein the granular material is obtained from a solidifying rock. The method of claim 36, wherein the solidifying rock is basalt. The method of claim 36, wherein the solidifying rock is an ultrabasic depth rock, in particular of peridotite, in particular of dunite. The method of claim 38, wherein the olivine has a Mg content of more than 50 wt. % has. The method of claim 39, wherein the olivine has a Mg content of more than 70 wt. % has The method of claim 40, wherein said depth rock is forsterite. The method of any one of claims 35 to 41, wherein the grain material is less than about 1 mm. 43. A synthetic turf sports field comprising an artificial turf, characterized by an upper layer of stabilized ground material located below it. 44. An artificial grass sports field according to claim 43 or according to the preamble of claim 43, wherein a water-retaining layer is situated between the layer of stabilized ground material and the artificial grass mat. An artificial grass sports field according to claim 44, wherein the water-retaining layer is drained horizontally. An artificial grass sports field according to claim 45, wherein the water-retaining layer forms part of a drainage layer of web-like material with an upper wall that is permeable to water in the vertical direction and with a lower wall that is substantially impermeable to water in the vertical direction, the drainage layer there are passages for draining water in the horizontal direction between the top wall and the bottom wall. An artificial grass sports field according to claim 46, wherein the drainage layer 25 between the top layer and the bottom layer is provided with spacers, which are resilient An artificial grass sports field according to claim 47, wherein the spacers are formed by so-called studs of a bubble wrap, which studs define passages between themselves. An artificial grass sports field according to claim 48, wherein the spacers are formed by tangled, interconnected wires defining passages between themselves. 50. An artificial grass sports field according to any one of claims 43-49 or according to the preamble of claim 43, comprising an artificial grass mat sprinkled with olivine-containing granular material. 51. Artificial grass sports field provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 52. Method provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 5 -o-o-o-o-o-o-o-o-1038031