AT318453B - Flooring - Google Patents

Description

  

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   The invention relates to a floor covering, e.g. B. for sports fields, industrial floors, classrooms, with granules of elastic material connected by a binding agent.



   In a known floor covering, solid rubber granulate is bound by a binding agent. One of those
Although flooring has a high slip resistance, it is not very suitable for many purposes due to its low vibration-damping properties. This applies e.g. B. for an industrial floor covering, where an optimal damping behavior for mechanical vibrations is required. A topping off
Solid rubber granulate is stimulated to natural vibrations by mechanical impacts and in this way conducts the
Vibrations to the environment. For the same reason, such a covering offers only a low level of sound insulation.



   The production of composite bodies from small plastic foam particles is also known
Polyurethane base. It is a soft foam composite that is used as a padding material. The use of such composite bodies for floor coverings is not possible because of their low hardness.



   The aim of the invention is a floor covering which has excellent internal vibration damping properties so that it is able to absorb mechanical vibrations to a high degree.



   The inventive floor covering is essentially characterized in that by a
Binder-bound granules containing semi-rigid pieces of polyurethane foam. As semi-hard
Polyurethane foam pieces are foam pieces with a density of 0.1 to within the scope of the invention
0.7 g / cm3 and a hardness of 50 to 700 Shore A. Semi-rigid polyurethane foam has excellent internal vibration damping properties; H. to a large extent it has the ability to convert mechanical energy into caloric energy.

   The floor covering according to the invention is therefore an ideal covering for industrial floors, it is not only able to absorb impacts from machines or machine parts and thereby largely prevent vibrations of the floor, but it also absorbs sound waves, so that it can particularly serve to design machine halls with as little noise as possible .



   This is of particular importance today, since it not only protects the health of those working in the vicinity of such a source of vibration and noise, but also the workforce can be maintained or promoted in a particularly simple but effective manner. A particularly important area of application of the floor covering according to the invention is its use as a covering for classrooms
Schools, as it largely prevents the spread of impact sound as well as room sound. Since the
The ability of the students to concentrate decreases more and more due to the numerous stimuli from the environment, special attention must be paid to noise insulation when designing the classroom.



  Semi-hard polyurethane foam granulate has optimal properties for this.



   A particularly homogeneous structure of the floor covering and thus particularly advantageous walking comfort can be achieved if the granulate consists of particles with approximately the same volume.



   If the floor covering is to take over the function of noise insulation to a large extent, it is particularly advantageous if the semi-hard polyurethane foam pieces are made of open-cell polyurethane foam. In this case, optimal noise insulation is achieved.



   In order to obtain a softer floor covering, the granulate can also contain pieces of soft polyurethane foam in addition to the semi-hard polyurethane foam pieces. Such a combination of properties is particularly advantageous for gymnastic mats which on the one hand should be so soft that they catch the falling body without the risk of injury and on the other hand should provide a safe, vibration-free base.



   If the granulate contains solid rubber grains in addition to semi-hard pieces of polyurethane foam, the result is a floor covering which, in addition to excellent vibration-damping properties, also has particularly high slip resistance. Such a floor covering is particularly suitable for sports fields. The vibration-damping properties of the semi-rigid polyurethane foam granulate are of particular importance here, as they effectively protect the foot from fatigue and injury on the one hand and support the athlete's performance on the other. The cause of these advantageous properties of such a floor covering is that bouncing of the impacting foot of an athlete is prevented by the vibration-damping properties of the semi-rigid polyurethane foam.

   A hitting foot causes the floor covering to vibrate at this point. These cause the foot to tire prematurely, which increases the risk of injury and, on the other hand, reduces the athlete's performance because force has to be used to absorb the vibrations of the floor covering.



   These disadvantageous properties are avoided in the case of a floor covering that contains semi-rigid polyurethane foam pieces and solid rubber grains.



   If the granulate is connected while maintaining continuous cavities, then such a floor covering is water-permeable and therefore particularly suitable as an outdoor floor covering.



   A major advantage of the semi-rigid polyurethane foam granulate is its low weight compared to other materials used for the same purpose. This benefit is especially effective when the

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 Granulate is connected to ready-to-install mats. This reduces transport costs and fewer workers are required to lay the flooring. If the ready-to-install mats are perforated, they are particularly suitable for purposes where particularly good and rapid water permeability is required. For example, such a floor covering is also suitable for shower rooms or the like.



   In the following the invention is explained in more detail with reference to the drawings, for example. 1, 2 and 3 each show a detail of a floor covering in cross section and FIG. 4 shows a plan view of a detail of a floor covering.



   The floor covering shown in Fig. 1 has polyurethane foam pieces --1-- which are connected by a binding agent --2--. The surfaces 3 and 4 can be flat, but can also have any profile. 2 shows a section of a floor covering which, in addition to semi-hard polyurethane foam pieces - 1 - has soft polyurethane foam pieces - 5 - which are connected by a binder-2-. Fig. 3 shows a floor covering, which consists of a granulate consisting of a mixture of semi-rigid polyurethane foam pieces with solid rubber grains, which are connected while maintaining continuous cavities --7--. The semi-hard polyurethane foam pieces - l - and the solid rubber grains --6 - are approximately equal in volume.

   The production of approximately equal volume pieces by comminution is known, e.g. B. from the production of rubber granulate for regeneration and follows from the use of an efficient crushing technique. If you now combine granules from a
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 continuous cavities remain free. Liquid hitting the floor covering can seep through these cavities. In order to increase the rate of seepage, the floor covering can, as shown in Fig. 4, have perforations --8--. These perforations --8 - can, as shown in FIG. 4, be cylindrical, but can also have any other shape.



   PATENT CLAIMS:
1. Floor covering, e.g. B. for sports fields, industrial floors, classrooms, with a binder
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