BR102015013799A2 - COMPOSITION FOR ARTIFICIAL FILLING SQUARES - Google Patents

Description

“COMPOSITE FOR FILLING ARTIFICIAL FRAMES”. This patent application relates to an "ARTIFICIAL FILLING COMPOSITE" which has been developed for the purpose of providing an inexpensive, readily available filler with the ability to give artificial turf suitable characteristics. of elasticity and compaction through the use of silica sand, plant material such as ground rice husk and water to act as filler in an artificial lawn structure.

State of the Art 002 Between the 1960s and 1970s, many covered stadiums were built and, with. Because of this, the impossibility of receiving sunlight made natural lawn cultivation impracticable. Synthetic grass was then presented as a solution and its use extended even to outdoor stadiums. The first synthetic turf in history was set up in 1965 on the Astrodome stadium field in the US, which hosted football and baseball matches. However, the products used to make the grass resulted in a surface considered hard and uncomfortable for playing sports. Players subjected to synthetic turf disapproved of its use, which led to a ban by football regulators. Until, in the early 2000s, the development of technology made it possible to create a synthetic surface filled with sand and rubber to cushion falls and prevent skidding, favoring the practice of sports. Called the 'third generation artificial grass', it is considered as safe for athletes as natural grass. Thus, synthetic grass has become increasingly a viable alternative to natural grass because: • It has greater durability, and the space where it is installed for the Games can be used for other types of events, without loss of quality; • Allows more intense and frequent use of the field; • Has lower maintenance costs, without specific care such as irrigation, regular cutting and use of pesticide and fertilizer; / • It is quite weather resistant; • Its maintenance does not require sunlight and therefore adjusts to covered fields or places. 004 Textile materials have been widely used in sports infrastructure, especially in synthetic grass. Yarns supplied by the market today are polyethylene (PE) and polypropylene (PP). 005 Polypropylene (PP) is made of a plastic material whose fiber is drier / drier. It's a cheaper and reasonably priced type of fiber on football pitches. Already polyethylene (PE) contains a fiber considered more "noble", with advanced formulation, whose threads have softness and silkiness. It looks very much like natural grass, is less abrasive, offers better appearance over the years and guarantees athletes comfort and proper performance conditions. It is known that, in general terms, artificial grasses, especially those for sports fields, are composed of a mat formed by a substrate on which they extend vertically, filaments forming a verdant blanket; the filler materials are arranged between the filaments to form one or more filler layers; The most commonly used fillers are sand and relatively elastic polymeric materials (essentially natural or synthetic rubber, but also various types of thermoplastic materials), which are mixed together or layered according to various methods. U.S. Patent Nos. 4,735,825 and EP 174755 disclose an artificial grass structure including a cork granule filler material and peat-based filler material respectively. 008 PI 9810428-4 is a synthetic lawn for golf courses, tennis courts and other grass surface playing fields, which is formed of a synthetic grass carpet with a flexible base sheet (14). ) with closely spaced vertical lamina-shaped strands of plastic material (12) that form a dense grass-like surface, the carpet is supported on a lower damping liner (18), which is formed of a thick molded sheet of open cell expanded fillet polypropylene, the resiliently compressible polypropylene lower liner combined with the synthetic grass carpet very similarly simulates the feel of a natural grass covered gaming surface. PI 9810743-7 first comprises the provision of a fuzzy carpet covering having a base sheet (14) which leads to closely spaced, gram-like vertical plastic wires (12) forming the simulated grass blades; The cover is placed on a resilient damping liner (18) supported on a firm surface, and the specific sand-like material is blasted against the upper portions of the blades (12) at sufficient pressure and long enough to cut the upper end portions. of the blade into thin strips (23) which remain attached to their respective blades and which are intertwined with the adjacent strips to form a dense mat on the upper surface of the carpet during blasting, resilient damping (18) below the carpet sustains resiliently the vertical blades, preventing them from being crushed or permanently compressed by the force of the blasting . 010 MU 8203434-6 is of a type commonly used on sports courts or recreational areas and comprises a base (1) formed of a mesh or blanket (2) made of suitable material, such as, for example, polypropylene; base (1) receives insertion of a plurality of tufts (3) of filaments (4) made of a suitable material, such as, for example, polyethylene; tufts (3) pass through the structure of said base (1) and are retained therein by the application of a coating layer (5) which may employ, for example, latex or other suitable material, the improvement being now The proposed approach is essentially characterized by the fact that each tuft (3) that is inserted into the base (1) that forms the structure of the synthetic grass in question is formed by a filament cluster (4), where each filament 4 has an essentially monofilament structure. , whose longitudinal structure is completely intact and devoid of any kind of longitudinal sectioning pattern. 011 It is known that the known filler materials are not entirely satisfactory in many respects, for example in terms of performance, cost, drainage capacity, moisture maintenance, rubber odor that is normally recycled tires and temperature rise. in the field. It is an object of the present invention to provide a "ARTIFICIAL FILLING COMPOUND" comprised of an inexpensive, readily available filler with the ability to give the artificial lawn adequate elasticity and compaction characteristics, and to allow good drainage. while ensuring an adequate level of humidity, temperature reduction, odor elimination and low skin friction, developed especially for sports fields, in general terms, the invention relates to a compound whose composition holds 700 kg of silica sand, 300 kg of ground rice husk, 0.050 kg of iron oxide dye and 0.072 ml of water for 1 kg of finished product. In view of the above, it is clear that the “COMPOSITE FILLING COMPOSITE” has enormous advantages, as it is a sustainable product, has good performance, eliminates the bad odor existing in common products used in block filling, reduces the lawn temperature ensures greater softness at the same. 014 To obtain the product only a vertical or horizontal mixer is required to mix the components, where 1.8 Liters for each 25 Kg of mixing is used, allowing an installation of 25 kg / m2 in the synthetic court, whether sports or decorative. Being innovative and hitherto not understood in the prior art, it fits perfectly within the criteria that define the invention patent. Your claims are as follows.

CLAIM

Claims (1)

1- “ARTIFICIAL FILLING COMPOUND” characterized in that it consists of 700 kg of silica sand, 300 kg of ground rice husk, 0.050 kg of iron oxide dye and 0.072 ml of water for 1 kg of finished product.