BE1030519B1 - JUICE IN ARTIFICIAL GRASS STRIP - Google Patents

Abstract

The present invention relates to an artificial grass strip comprising: a primary ground cloth, having an upper surface and a lower surface; a plurality of tufts extending above the top surface and attached to the primary ground cloth; and a primary coating applied to the bottom surface of the primary ground cloth, suitable for fixing the tufts, wherein the artificial grass strip comprises a layer of 1-1000 g/m2 super absorbent polymer, whereby the super absorbent polymer is present as a particle with a d50 smaller than 1mm. The invention also relates to a method for manufacturing an artificial grass strip and an artificial grass strip.

Description

1 BE2022/5362

JUICE IN ARTIFICIAL GRASS STRIP

TECHNICAL DOMAIN

In a first aspect, the invention relates to an artificial grass strip.

In a second aspect, the invention also relates to a method for manufacturing an artificial grass strip.

In a third aspect, the invention has obtained an artificial grass strip according to the method according to the second aspect.

STATE OF THE TECHNOLOGY

Superabsorbent polymers (SAP) are hydrophilic networks that can absorb and retain enormous amounts of water or aqueous solutions. They can absorb up to 100,000% water. Common SAPs are generally white sugary hygroscopic materials, mainly used in disposable diapers and other applications, including agricultural uses. Many things are possible due to variability of the possible monomers and macromolecular structure

SAP types are created. GSPs were originally divided into two main classes; i.e. synthetic (based on petrochemicals) and natural (e.g. based on polysaccharide and polypeptide). However, most of the current superabsorbents are often produced from acrylic acid (AA), its salts, esters and acrylamide (AM) via solution or inverse suspension polymerization techniques.

Such a device is known, inter alia, from US20120258811 (US '811). US '811 describes an artificial grass with super-absorbent materials to keep the artificial grass cooler than conventional artificial grass. The present invention also provides cooling particles for infilling artificial grass that include a layer of water-absorbent material covering a foundation that includes a core substrate. In one embodiment, the cooling particle consists of a core particle or substrate coated with a water-absorbent material. In one embodiment, the water-absorbent material is a super-absorbent polymer.

Also known is an artificial grass structure from KR102037512 (KR '512). KR '512 refers to a filler with temperature-reducing properties

2 BE2022/5362 shock-absorbing functions using a super-absorbent polymer and a method for manufacturing it. The artificial grass structure includes a filler: a foam layer formed from polypropylene; a sod layer shaped like a grass mat is planted in the foam layer by means of a tufting method; and a filler layer with a super-absorbent filler layer and a normal filler layer. The super-absorbent filling layer includes: a silica layer filled between the grass mats; and the filler including the superabsorbent polymer stacked on the silica layer. The normal padding layer is composed of a natural rubber material and a thermoplastic resin stacked on top of the super-absorbent padding layer. The artificial grass structure can supply moisture due to the highly absorbent polymer by retaining the moisture inside and releasing moisture again in a hot or dry environment.

Notwithstanding the above-mentioned advances in artificial turf fields, there remains a need for a sports and recreational surface and surface that is stable, manages available moisture without degradation by water, is easy to drain, is easy and inexpensive to manufacture, and is hard enough to resist resistance. offer, but is still resilient enough. Some devices cause irregularities in the artificial grass surface due to the large particles coated with super-absorbent polymers. The present invention aims to find at least a solution for some of the above-mentioned problems or disadvantages.

SUMMARY OF THE INVENTION

In a first aspect, the present invention concerns a device according to claim 1.

The amount of SAP per m2 is important for an optimal balance between retaining sufficient moisture and still providing sufficient grip. Because the SAP can absorb and retain up to 100,000 times its own volume in water, much less water will be needed in the field. This makes this a water-saving artificial grass solution, for example for hockey fields. However, this can also be applied to other artificial grass products to generate a cooling effect. Due to the high amount of water that the SAP can retain, the amount of SAP required is low.

Because the SAP is present as a particle with a d50 smaller than 1 mm, the surface area/weight ratio is high and all the SAP quickly comes into contact with water.

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As a result, the properties of the playing field change quickly after wetting the surface. Moreover, the SAP can retain the water for a long time.

Preferred forms of the device are shown in claims 2 to 9.

In a second aspect, the present invention concerns a method for manufacturing an artificial grass strip according to claim 10. Because the SAP is present as a particle with a d50 smaller than 1 mm, it is possible to apply the SAP homogeneously in a layer with 1 -1000gsm. Larger particles could prevent the homogeneous distribution of the SAP in the artificial grass strip.

Preferred forms of the method are described in subclaims 11 to 14.

In a third aspect, the present invention concerns an artificial grass strip according to claim 15. This artificial grass strip comprising SAP has optimal playing properties in terms of vertical deformation, water absorption friction and water retention.

DETAILED DESCRIPTION

Unless otherwise defined, all terms used in the description of the invention, including technical and scientific terms, have the meanings commonly understood by those skilled in the art of the invention. For a better appreciation of the description of the invention, the following terms are explicitly explained. “A”, “the” and “it” in this document refer to both the singular and the plural unless the context clearly suggests otherwise. For example, “a segment” means one or more than one segment.

Quoting numerical intervals through the endpoints includes all integers, fractions, and/or real numbers between the endpoints, including these endpoints.

In a first aspect, the invention concerns an artificial grass strip.

4 BE2022/5362

According to an embodiment, the artificial grass strip comprises: a primary ground cloth, with an upper surface and a lower surface; a plurality of tufts extending above the top surface and attached to the primary ground cloth; and a primary coating applied to the bottom surface of the primary ground cloth, suitable for fixing the tufts. Such an artificial grass strip can be used on various indoor furnishings and leisure facilities or sports fields such as football fields, indoor sports fields and the like.

According to an embodiment, the artificial grass strip comprises a layer with 1-1000 g/m? super absorbent polymer (SAP). The weight of the juice is weighed dry.

This amount per m2 is important for an optimal balance between retaining sufficient moisture and still providing sufficient grip. If more than 1000 g/m? SAP is applied, there is a risk of slipping. If an artificial grass strip is moistened with more than 1000 g/m2 of SAP, it will retain too much water.

There may then be too little grip for the users of the artificial grass strip. Because the SAP can absorb and retain up to 100,000 times its own volume in water, much less water will be needed on the field with SAP compared to a field without SAP. In this way, this invention is a water-saving artificial grass solution, for example for hockey fields. This solves an important disadvantage of artificial grass systems. Since most artificial grass systems consist mainly of plastics, such as polyolefin, they absorb, retain and radiate heat that can push the temperature on a field to high levels. Doctors have found that artificial grass contributes to increasing a person's body temperature, leading to heat-related injuries such as heat cramps, heat exhaustion and heat stroke. The water retained by the SAP can slowly evaporate, removing heat from the environment. This invention can be applied to generate a cooling effect, also with other artificial grass products.

According to one embodiment, the super absorbent polymer is present as a particle with a d50 smaller than 1 mm. Because the SAP is present as a particle with a d50 smaller than 1 mm, the surface area/weight ratio is high and all the SAP quickly comes into contact with water. As a result, the properties of the playing field change quickly after wetting the surface. Moreover, the SAP can retain the water for a long time. Because the SAP is spread as small particles over the surface of the artificial grass strip, the SAP can be distributed homogeneously over the surface. It is important to provide sufficient water over the entire surface. Because the SAP is present as a particle with a d50 smaller than 1 mm, no bumps or irregularities occur on the surface of the artificial grass strip after wetting the SAP. Due to the high amount of water that the SAP can retain, the amount of SAP required is low. Because the SAP is spread as small particles over the surface of the artificial grass strip, it cannot be broken by users of the artificial grass strip, such as small coated particles. They are therefore more resistant to external forces. According to one embodiment, the super absorbent polymer is present as a particle with a d50 of 0.01 um-1000 um. According to an embodiment, the super-absorbent polymer is present as a particle with a d50 of 0.01 µm-60 µm, or 0.1-50 µm or 1-50 µm. According to one embodiment, the super absorbent polymer is present as a particle with a d10 of 0.01 um-250 um. According to one embodiment, the super absorbent polymer is present as a particle with a d10 of 0.01 um-50 um. According to one embodiment, the super absorbent polymer is present as a particle with a d90 of 0.1 um-1000 um. According to one embodiment, the super absorbent polymer is present as a particle with a d90 of 0.1 um-100 um. According to one embodiment, the super absorbent polymer is present as a particle with a d90 of 0.1 um-60 um.

In one embodiment, the super absorbent polymer comprises a sodium polyacrylate, polyacrylamide copolymer, ethylene maleic anhydride copolymer, carboxymethyl cellulose, polyvinyl alcohol copolymer, polyethylene oxide, starch grafted copolymer of polyacrylonitrile, potassium polyacrylate a polysaccharide, poly(alkyl(meth)acrylate), poly(hydroxy) - alkyl (meth)acrylate), such as (2-hydroxyethyl acrylate), poly(meth)acrylamide), poly(vinylpyrrolidine), poly(vinyl acetate), copolymers of (meth)acrylamide with maleic anhydride, vinyl acetate, ethylene oxide, ethylene glycol or acrylonitrile, or a combination of the previous. A combination of different polymers can be used.

According to an embodiment, the super absorbent polymer (SAP) is formed by a polymerization of an organic acid, preferably acrylic acid, more preferably (meth)acrylic acid, a-chloroacrylic acid, b-cyanoacrylic acid, b-methylacrylic acid, a-phenylacrylic acid, b -acryloyloxypropionic acid, acrylamido-2-methylpropane sulfonic acid or combinations thereof.

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According to one embodiment, the SAP comprises a sodium polyacrylate, polyacrylamide copolymer, potassium polyacrylate or a combination of the foregoing.

According to one embodiment, the super absorbent polymer comprises a polyacrylate. Because the super absorbent polymer contains a polyacrylate, the SAP is suitable for absorbing at least 0.5 grams of water per gram. According to a

In one embodiment, the SAP is suitable for absorbing 1-1000 g of water per gram, preferably 25-100 g of water.

According to one embodiment, the artificial grass strip comprises tufts made of synthetic materials, preferably polyethylene, polypropylene, nylon or polyester.

These materials can be used all year round, regardless of weather conditions. It is relatively easy to manage once installed. Such an artificial grass strip can be used on various indoor furnishings and leisure facilities or sports fields such as football or hockey fields, indoor sports fields and the like. According to one embodiment, the artificial grass strip consists of at least 80% by weight polyethylene and/or polypropylene, preferably 90-99% by weight.

According to an embodiment, the super absorbent polymer is present as a particle with a d50 of 0.01 um-250 um, preferably 0.1 um-100 um. According to an embodiment, the super absorbent polymer is present as a particle with a d10 of 0.01 um-150 um, preferably 0.01 um-100 um. According to an embodiment, the super absorbent polymer is present as a particle with a d90 of 1 um-250 um, preferably 50 um-150 um. D10 indicates a diameter for which the proportion of particles with a diameter smaller than this value is 10%.

D50: the proportion of particles with a diameter smaller and larger than this value is 50%, also known as the median diameter. D90: the proportion of particles with a diameter below this value is 90%. This distribution of the size of the SAP particles was optimal for good water-retaining properties of the artificial grass strip.

According to one embodiment, the primary coating comprises a layer of latex or PU or polyolefin coating. Because the primary coating includes a layer of latex or PU or polyolefin coating, this layer prevents the SAP polymer from leaching. Because the SAP is present as particles with a d50 smaller than 1 mm, the SAP is capable of partly

7 BE2022/5362 to migrate through the primary ground cloth. The primary coating is suitable for keeping the SAP in the artificial grass strip, even after migration of the SAP. In addition, the primary coating is suitable for fixing the multiple tufts to the primary ground cloth. Latex or PU or polyolefin are therefore very suitable for this type of coating.

According to one embodiment, the artificial grass strip comprises a secondary coating on the top of the primary ground cloth. According to a further embodiment, this secondary coating is a water-permeable coating.

According to one embodiment, the super-absorbent polymer in the artificial grass strip is suitable for absorbing 25-5000 g of water per m? artificial grass strip.

Because the super absorbent polymer in the artificial grass strip is suitable for absorbing 25-5000 g of water per m2 of artificial grass strip, the playing properties are optimal after wetting. Preferably, the super absorbent polymer in the artificial grass strip is suitable for absorbing 25-500 g of water per m2 of artificial grass strip, more preferably 25-100 g of water. According to one embodiment, 1 g of super absorbent polymer is suitable for absorbing 0.25-500 g of water, preferably 1-50 g. To have a good distribution of the SAP and create a homogeneous playing field, it is recommended to use a SAP with a water absorption of 1-5000 times its weight.

According to an embodiment, the artificial grass strip comprises a layer with 25-150 g/m? super absorbent polymer. The weight of the juice is weighed dry. This amount of 25-150 g per m2 is important for an optimal balance between retaining sufficient moisture and still providing sufficient grip.

According to one embodiment, the friction between the shoe and the artificial grass strip is between 25 and 45 Nm, measured according to EN 15301-1. The artificial grass strip is then ideal for playing hockey.

Because the friction between the shoe and the artificial grass strip is between 25 and 45 Nm, measured according to EN 15301-1, the artificial grass strip offers sufficient grip. This is ideal for users and prevents slipping and therefore injuries. To keep this property at a desired level throughout a complete match, it is necessary to choose a good distribution of the SAP, which is suitable to retain the water homogeneously and for a long time.

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According to another embodiment, the friction between the shoe and the artificial grass strip is between 20 and 70 Nm, preferably between 25 and 50 Nm, measured according to EN 15301-1. The artificial grass strip is then ideal for playing football.

According to one embodiment, the vertical deformation is 4-9 mm, measured according to EN 16717.

Because the vertical deformation is 4-9 mm, measured according to EN 16717, the artificial grass strip is hard enough to resist, but still resilient enough. This is ideal for users and prevents injuries. To keep this property at a desired level throughout a complete match, it is necessary to choose a good distribution of the SAP, which is suitable to retain the water homogeneously and for a long time.

According to an embodiment, the artificial grass strip does not comprise a filler on the top surface of the primary ground cloth.

According to an embodiment, the artificial grass strip comprises a filler on the upper surface of the primary ground cloth, the filler for a height of 10-50 mm, preferably 30-50 mm.

Because the artificial grass strip includes a filler on the top surface of the primary ground cloth, the filler for a height of 10-50 mm, the SAP is kept under the filler. Typical fillers for artificial grass installations are sand, rubber crumb from tires, and/or other particles, individually or in combination with each other. According to an embodiment, the artificial grass strip comprises sand and/or a biodegradable polymer as filler, preferably sand and a biodegradable polymer, more preferably in a sand: biodegradable polymer ratio of 1:3 to 1-8 or 8:1 to 3:1 or 3:1 to 1:3.

In a second aspect, the invention concerns an artificial grass field comprising several artificial grass strips attached to each other according to claims 1-9 and with a filler on the upper surface of the primary ground cloth, characterized in that the filler comprises sand and/or a filler for a height of 10-30mm.

In a subsequent aspect, the invention concerns a method for manufacturing an artificial grass strip, comprising: applying a plurality of tufts in a

9 BE2022/5362 primary ground cloth with an upper surface and a lower surface; obtaining tufts, which extend above the top surface and are attached to the primary ground cloth; applying a primary coating to the bottom surface of the primary ground cloth, suitable for fixing the tufts; where a layer with 1-1000 g/m? super absorbent polymer is applied to the top surface of the primary base cloth after the primary coating is applied, with the super absorbent polymer (SAP) present as a particle with a d50 less than 1 mm.

Because the method includes the step of applying a primary coating to the bottom surface of the primary ground cloth, the tufts are fixed, but the SAP particles are also prevented from completely leaching out of the artificial grass strip.

The tufts thus form a compact, continuous barrier.

Because a layer with 1-1000 g/m? super absorbent polymer is applied to the top surface of the primary ground cloth after the primary coating is applied, the SAP is prevented from falling through the bottom surface of the artificial grass strip. Because the SAP is present in a layer of 1-1000 g/m2, there is a homogeneous distribution of the SAP, which is important for good playing properties. The weight of the juice is weighed dry. This amount per m2 is important for an optimal balance between retaining sufficient moisture and still providing sufficient grip. If more than 1000 g/m? SAP is applied, there is a risk of slipping. Like an artificial grass strip with more than 1000 g/m? If juice is made moist, it will retain too much water. There may then be too little grip for the users of the artificial grass strip. Because the SAP can absorb and retain up to 100,000 times its own volume in water, much less water will be needed on the field with SAP compared to a field without

JUICE. In this way, this invention is a water-saving artificial grass solution, for example for hockey fields. This solves an important disadvantage of artificial grass systems. Since most artificial grass systems consist mainly of plastics, such as polyolefin, they absorb, retain and radiate heat that can push the temperature on a field to high levels. Doctors have found that artificial grass contributes to increasing a person's body temperature, leading to heat-related injuries such as heat cramps, heat exhaustion and heat stroke. The water retained by the SAP can slowly evaporate, creating heat

10 BE2022/5362 is withdrawn from the environment. This invention can be applied to generate a cooling effect, also with other artificial grass products.

According to one embodiment, the super absorbent polymer is present as a particle with a d50 smaller than 1 mm. Because the SAP is present as a particle with a d50 smaller than 1 mm, the surface area/weight ratio is high and all the SAP quickly comes into contact with water. As a result, the properties of the playing field change quickly after wetting the surface. Moreover, the SAP can retain the water for a long time. Because the SAP is spread as small particles over the surface of the artificial grass strip, the SAP can be distributed homogeneously over the surface. It is important to provide sufficient water over the entire surface. According to one embodiment, the super absorbent polymer is present as a particle with a d50 of 0.1 um-100 um. According to one embodiment, the super absorbent polymer is present as a particle with a d50 of 0.1 um - 60 um. Because the SAP is present as a particle with a d50 smaller than 1 mm, it is possible to apply the SAP homogeneously in a layer with 1-1000 g/m°.

Larger particles could prevent the homogeneous distribution of the SAP in the artificial grass strip.

According to one embodiment, the super absorbent polymer is formed by a polymerization of an organic acid, preferably acrylic acid.

Because the super absorbent polymer is formed by polymerization of an organic acid, preferably acrylic acid, it is suitable for production in small particles with a d50 smaller than 1 mm.

According to one embodiment, the coating is first at least partially dried before 1-1000 g dry super absorbent polymer /m2 is applied to the top surface of the primary base cloth.

Because the coating is first at least partially dried before 1-1000 g dry super absorbent polymer / m2 is applied to the upper surface of the primary ground cloth, the primary ground cloth is compact and the tufts are firmly attached to the lower surface of the primary ground cloth. Because the coating is first at least partially dried, the SAP cannot leach out of the artificial grass strip.

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According to one embodiment, different artificial grass strips are placed next to each other and preferably attached to each other. According to one embodiment, a filling material is applied to the artificial grass strips. This filler keeps the SAP particles better in a fixed place.

According to one embodiment, a filler is applied to the surface of the artificial grass strip, wherein the filler is applied to a level higher than 20% of an average height of the tufts to 85% of the average height of the tufts.

Because a filler is applied to the surface of the artificial grass strip, where the filler is applied to a level that is higher than 20% of an average height of the tufts to 85% of the average height of the tufts, there is sufficient filler present to fix the SAP particles, preferably in a homogeneous distribution over the surface of the artificial grass strip.

In a third aspect, the invention concerns an artificial grass strip obtained according to the method according to the second aspect. This artificial grass strip containing SAP has optimal playing properties in terms of vertical deformation, water absorption friction and water retention.

A skilled person trained in the technical field will recognize that an artificial grass strip according to the first aspect is preferably manufactured according to a method according to the second aspect and that a method according to the second aspect preferably produces an artificial grass strip according to the first aspect. Each feature described in this document, above as well as below, may therefore relate to any of the three aspects of the present invention.

In what follows, the invention is described by means of: non-limiting examples that illustrate the invention and are not intended or should be construed to limit the scope of the invention.

EXAMPLES

EXAMPLE 1

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Example 1 concerns the playing properties of an artificial grass strip according to the first aspect of the invention. The rebound of a hockey ball is between 100-400 mm, measured according to EN 12335. The deviation from this measurement result is a maximum of 10% compared to the average. The rolling of the ball, measured according to EN 12334, is at least 10.0 m. The deviation from this measurement result is a maximum of 10% compared to the average. The shock absorption is between 60% and measured according to EN 16717. The deviation of this measurement result is a maximum of 5% compared to the average. Vertical deformation (mm), measured according to EN 16717, is between 4 and 9 mm. The friction between a shoe and the surface, measured according to EN 15301-1, is 25-45 Nm. The deviation of this measurement result is a maximum of 5% compared to the average.

Claims (15)

13 BE2022/5362 CONCLUSIONS 1. An artificial grass strip comprising: a primary ground cloth, with an upper surface and a lower surface; a plurality of tufts extending above the top surface and attached to the primary ground cloth; and a primary coating applied to the bottom surface of the primary ground cloth, suitable for fixing the tufts, characterized in that the artificial grass strip has a layer of 1-1000 g/m? super absorbent polymer where the super absorbent polymer is present as a particle with a d50 smaller than 1 mm. 2. Artificial grass strip according to claim 1, characterized in that the super-absorbent polymer comprises a polyacrylate. 3. Artificial grass strip according to claim 1 or 2, characterized in that the super-absorbent polymer is present as a particle with a d50 of 0.01 um-250 um. 4. Artificial grass strip according to any of the preceding claims 1 to 3, characterized in that the primary coating comprises a layer of latex or PU or polyolefin coating. 5. Artificial grass strip according to any of the preceding claims 1 to 4, characterized in that the artificial grass strip comprises a secondary coating on the top of the primary ground cloth. 6. Artificial grass strip according to any of the preceding claims 1 to 5, characterized in that the super-absorbent polymer in the artificial grass strip is suitable for absorbing 25-5000 g of water per m2. artificial grass strip. 7. Artificial grass strip according to any one of the preceding claims 1 to 6, characterized in that the artificial grass strip has a layer of 25-150 g/m? super absorbent polymer. 8. Artificial grass strip according to any of the preceding claims 1 to 7, characterized in that the friction between the shoe and the artificial grass strip is between 25 and 45 Nm, measured according to EN 15301-1. 14 BE2022/5362 9. Artificial grass strip according to any of the preceding claims 1 to 8, characterized in that the vertical deformation is 4-9 mm, measured according to EN 16717. 10. Artificial grass strip according to any one of the preceding claims 1 to 9, characterized in that the artificial grass strip comprises a filler on the upper surface of the primary ground cloth, the filler for a height of 10-50 mm. 11. Method for manufacturing an artificial grass strip, comprising: arranging a plurality of tufts in a primary ground cloth with an upper surface and a lower surface; obtaining tufts, which extend above the top surface and are attached to the primary ground cloth; applying a primary coating to the bottom surface of the primary ground cloth, suitable for fixing the tufts; characterized in that the method further comprises a step of applying a layer with 1-1000 g/m? super absorbent polymer with a d50 less than 1 mm, on the top surface of the primary base cloth, following application of the primary coating. Method according to claim 11, characterized in that the super-absorbent polymer is formed by polymerization of an organic acid, preferably acrylic acid. 13. Method according to claim 11 or 12, characterized in that the coating is first at least partially dried before adding 1-1000 g dry super absorbent polymer /m? is applied to the top surface of the primary ground cloth. Method according to any one of claims 11 to 13, characterized in that a filler is applied to the surface of the artificial grass strip, wherein the filler is applied to a level that is higher than 20% of an average height of the tufts up to 85% of the average height of the tufts. 15. Artificial grass strip obtained according to the method according to any of the claims 10 to 13.