ELASTIC LAYERS WITH FIBERS

Abstract

The invention relates to an elastic layer (202) for use as a support layer of sports floor (302), the elastic layer being made of a mixture of fibers (206), elastic granules (208), and a binder (204).

Claims

1. An elastic layer for use as a support layer of a sports floor, the elastic layer being made of a mixture of fibers, elastic granules, and a binder.

2. The elastic layer of claim 1, wherein the elastic granules are rubber granules, in particular SBR rubber granules and/or EPDM rubber granules.

3. The elastic layer of claim 1, wherein the fibers are non-stretchable.

4. The elastic layer of claim 1, wherein the fibers have a random orientation within the binder.

5. The elastic layer of claim 1, wherein the fibers have a length of at least 1 cm, preferably of at least 2 cm.

6. The elastic layer of claim 1, wherein more than 60% of the fibers have a length of 1-5 cm, preferably 3-4 cm.

7. The elastic layer of claim 1, wherein the fibers have different lengths and wherein preferably the length difference between the length of the shortest 10% of the fibers and the length of the longest 10% of the fibers is at least 3 cm, preferably at least 4 cm.

8. The elastic layer of claim 1, wherein the fibers are plant fibers, in particular jute fibers, hemp fibers, corn silk fibers, flax fibers, bamboo fibers, kapok fibers, sisal fibers, coconut fibers, cotton fibers, cellulose fibers, or mixtures thereof.

9. The elastic layer of claim 1, wherein the fibers are synthetic fibers, in particular polyethylene fibers, polyamide fibers, polypropylene fibers, nylon fibers, polyester fibers, glass fibers, fibers made of rubber, or mixtures thereof.

10. The elastic layer of claim 9, wherein the synthetic fibers comprise unaged or aged artificial turf fibers or artificial turf fiber fragments.

11. The elastic layer of claim 1, wherein the fibers are a mixture of plant fibers and synthetic fibers.

12. The elastic layer claim 1, wherein the sports floor is artificial turf or a playground floor or a floor of a recreational facility.

13. The artificial turf system of claim 1, the fibers comprising synthetic fibers comprising a nucleating agent.

14. The artificial turf system of claim 13, the nucleating agent being be an inorganic substance selected from the group consisting of talcum, kaolin, calcium carbonate, magnesium carbonate, silicate, silicic acid, silicic acid ester, aluminum trihydrate, magnesium hydroxide, meta- and/or polyphosphates, and coal fly ash.

15. The artificial turf system of claim 13, the nucleating agent being an organic substance selected from the group consisting of 1,2-cyclohexane dicarbonic acid salt, benzoic acid, benzoic acid salt, sorbic acid, and sorbic acid salt

16. A floor structure comprising the elastic layer of claim 1 and comprising the sports floor, wherein the sports floor is placed on top of the elastic layer.

17. A method of manufacturing an elastic layer for use as a support layer of sports floor, method comprising: providing a liquid mixture, the mixture comprising fibers, elastic granules, and a liquid binder; applying the liquid mixture onto a base layer and allowing the binder to bind for the mixture to solidify; or filling the liquid mixture into one or more molds, allowing the binder to bind for the mixture to solidify in the one or more molds into respective tiles, and laying the tiles on a base layer.

18. A method of installing a sports floor, the method comprising: manufacturing the elastic layer in accordance with claim 17; and placing a sports floor layer on top of the elastic layer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0063] The following embodiments of the invention are explained in greater detail, by way of example only, making reference to the drawings:

[0064] FIG. 1 is a flow chart of a method of manufacturing an e-layer;

[0065] FIG. 2 is a schematic, a cross-sectional view of an e-layer;

[0066] FIG. 3 is a schematic, a cross-sectional view of a pavement structure comprising an e-layer and an artificial turf layer used as the sports floor;

[0067] FIG. 4 is a schematic, cross-sectional view of a pavement structure comprising an e-layer and an artificial turf layer comprising a filler; and

[0068] FIG. 5 illustrates the installation of multiple e-layer tiles providing a support layer for artificial turf.

DETAILED DESCRIPTION

[0069] Like-numbered elements in these figures either are equivalent elements or perform the same function. Elements that have been discussed previously will not necessarily be discussed in later figures if the function is equivalent.

[0070] FIG. 1 is a flow chart of a method of manufacturing an e-layer (202). The e-layer is designed and adapted for use as a support layer of a sports floor, e.g. of an artificial turf (302). The method comprises a step 102 of providing a liquid mixture. The mixture comprises fibers 206, elastic granules 208 and a liquid binder 204. For example, the mixture can be created manually or automatically (e.g., by a stirring device). The mixture is mixed until the granules, the fibers, and the binder are homogeneously mixed. Depending on the particular composition of the mixture, this may take 2-20 minutes. The greater the amount of elastic granules, the higher the elasticity of the e-layer. The greater the amount of fibers, the higher the tensile strength of the e-layer.

[0071] Typically, the liquid mixture is a highly viscous mixture.

[0072] According to embodiments, 0.5% to 40%, more preferentially 5% to 20%, in particular 5% to 10% by weight of the mixture consist of the fibers.

[0073] According to embodiments, the weight ration of the binder to the total weight of the elastic granules and the fibers combined is in the range of 5:100 to 15:100, more preferably 8:100 to 10:100. For instance, 8 kg of the binder can be mixed with 100 kg of a fiber-granule mixture. In one example, about 25% of the fiber-granule mixture consist of the fibers and about 75% of the fiber-granule mixture consist of the elastic granules.

[0074] According to some embodiments, the artificial turf fibers are made of polyethylene that has been obtained from an old, worn-out artificial turf. The binder can be a polyurethane binder. The elastic granules can be SBR or EPDM rubber granules or other types of granular, elastic material. The SBR rubber granules can be obtained, for example, from shredded used tires which may optionally be PU coated.

[0075] Next, in step 104, the liquid mixture is applied onto a base layer 210 (e.g., a concrete layer at the use site where the sports floor is to be installed). The liquid mixture is applied until the desired height is obtained. The height of the e-layer depends on the intended use. Typically, the height of the e-layer is in the range of 8 mm-40 mm. Next, in step 106, the liquid mixture is allowed to solidify. For example, the PU binder can be a liquid one-component (1C) or two-component (2C) PU reaction mixture that solidifies by reacting the PU reaction mixture into a solid PU mass that constitutes the e-layer.

[0076] Alternatively, the liquid mixture is generated at a manufacturing plant and is poured in step 108 into one or more molds. The mold can have the shape of a single, long tile or “lane” for generating a molded article that can be rolled up after solidification. Alternatively, one or more molds can have a tile shape that is similar to a square or to a rectangle with sides of more similar length. The molds are adapted for fabricating e-layer tiles. For example, a square-shaped mold can have the dimensions of 100 cm×100 cm×3 cm. Alternatively, the tiles could have the shape of a rectangle wherein one side is 1.1 to 10 times longer than the other side.

[0077] In step 110, the liquid mixture is allowed to solidify within the molds into tiles 502.

[0078] Finally, the solidified e-layer tiles are removed from the molds, transported to the use site, and laid in step 112 on a base layer 210. In a further step 114, a sports floor, here the artificial turf layer 302, is applied on top of the e-layer. The sports floor can simply be put on top of the e-layer or can be firmly attached to the e-layer by applying an adhesive layer on top of the e-layer and then applying the sports floor onto the adhesive layer. In some embodiments, the e-layer is punched before or after the sports floor layer is applied in order to generate drainage holes for preventing the formation of puddles.

[0079] FIG. 2 is a schematic, cross-sectional view of an e-layer 202 that was applied on top of a base layer 210. The e-layer comprises fibers 206 of varying lengths and elastic granules 208. The granules and the fibers are embedded in a binder 204. The diameter of the granules can be, for example, in the range of 1 mm-5 mm. FIG. 2 is for illustration only, and the share of the granules 208 and the fibers 206 in the total volume of the e-layer may not reflect exactly the real situation.

[0080] FIG. 3 is a schematic, cross-sectional view of a pavement structure 300 comprising an e-layer 202 as described in greater detail for example with reference to FIG. 2, and a sports floor layer 302.

[0081] FIG. 4 is a schematic, cross-sectional view of a pavement structure comprising an e-layer 202 and a sports floor layer 302 in the form of an artificial turf layer. The artificial turf layer 302 comprises a plurality of artificial turf fibers 402 which have been incorporated into a carrier layer 404. For example, the fibers 402 can be polymer fibers, whereby the polymer is polyethylene, polyamide, nylon, polypropylene, or a mixture thereof. The fibers can be incorporated into the carrier (e.g., by tufting, knitting, or weaving). The carrier can be a synthetic fiber mesh or a plant fiber mesh or any other sheet-like structure allowing an incorporation of the artificial turf fibers. Optionally, the artificial turf 302 can comprise a backing 406—e.g., a PU backing layer or a latex layer that incorporates short, U-shaped fiber portions and thereby firmly fixes the fibers in the carrier. In addition, the artificial turf may optionally further comprise an infill layer 408. The infill material can consist of sand and/or elastic granules (e.g., rubber granules or cork granules). The infill granules can be coated. Using an e-layer below the artificial turf may be beneficial as this may allow achieving a desired degree of elasticity without the need to add elastic infill. Alternatively, a comparatively thin infill layer 408 having a height of less than 2 cm, preferably less than 1 cm, may be sufficient to provide a highly elastic artificial turf ground, because the elasticity is already provided by the e-layer. According to some embodiments, the artificial turf 302 does not have a backing or has only a very thin backing having a thickness of less than 2 mm. The backing is commonly applied on the back side of the carrier for fixing the fibers in the carrier and for increasing the elasticity of the artificial turf. According to embodiments of the invention, a sufficient degree of elasticity is already provided by the e-layer, so the thickness of the backing may be reduced or the backing may even be absent. This may reduce the costs of manufacturing the artificial turf layer.

[0082] FIG. 5 illustrates the installation of multiple e-layer tiles 502 on a base layer at a use site, thereby providing an elastic support layer 202 for artificial turf. After the installation of the e-layer is completed, the artificial turf is installed on top of the e-layer.

LIST OF REFERENCE NUMERALS

[0083] 100-114 steps

[0084] 202 elastic layer

[0085] 204 binder

[0086] 206 fiber

[0087] 208 elastic granule

[0088] 210 base layer

[0089] 300 pavement structure

[0090] 302 sports floor (artificial turf)

[0091] 402 artificial turf fibers

[0092] 404 carrier

[0093] 406 backing

[0094] 408 infill layer

[0095] 502 e-layer tile