CZ15845U1 - Accumulating filling - Google Patents

Description

Accumulation filler

Technical field

The technical solution concerns the accumulation filler, especially for retention, infiltration, drainage and similar bodies for drainage of rainwater from built-up areas.

BACKGROUND OF THE INVENTION

At present, rainwater is drained in two ways, the classical way in which rainwater is drained to a recipient of a watercourse, pond or the like by a single or separate rainwater drainage soon after a rainfall. In the second method, the rainwater, after the inlet into the retention or infiltration device at the point of precipitation of the rainwater, is also discharged therefrom via a single or separate rainwater drain to the recipient. In contrast to the conventional method, however, this method reduces the total drainage of rainwater into the sewer, because by delaying its outflow it increases its evaporation into the air and infiltration into the underground or is economically used in real estate.

Retention in the retention bodies also delays and evenly outflows into the sewer, leading to a significant reduction in pipe dimensions, since otherwise the sewer profiles are designed for a storm water flow.

The drainage of built-up areas according to the second method has started to be applied more significantly in the last twenty years, because the drainage of the area is close to natural conditions, unlike the first method, in which rainwater is immediately drained into sewers.

At present, gravel or plastic structures are used as a filler of retention bodies. Gravel is a natural material with a gap of about 30%, has a high load-bearing capacity. Its disadvantage is its low voidiness and hence its low storage capacity.

The plastic elements used for this purpose are subtle perforated or gap-shaped constructions in the form of solid blocks of solid shape, for example 600 χ 400 χ 1200 mm, which can be folded side by side and stacked to form a rigid structure that is multiple of the block size. Dimensions differ only according to the manufacturer, ie. whatever the manufacturer, the type of a block of a given size and composition system or plastic mats of different thickness, eg 50 mm, are used, which are stacked on each other and thus create a hollow volume. The height of the body is a multiple of the thickness of the mat. You can give the body a general shape by cutting the edges of the mats.

The accumulation volume of plastic elements is about 95 to 97% of the external volume, but the disadvantage is that plastic blocks have a predetermined shape, which must be subordinated to the dimensions and shape of the underground body. also laborious. Plastic mats are more variable in terms of ground plan shape than blocks, but the same problem of gap between the mat construction and the rough terrain, which is poorly filled and compacted, is not eliminated.

The essence of the technical solution

The aim of the technical solution is to eliminate as far as possible the shortcomings of current accumulation fillings, in particular to enable filling of any general shape of retention, soaking or drainage body while maintaining large voids and high water storage capacity. drainage piping to any place and installation of manholes on the drainage pipeline directly into the body of the accumulation filler and thus reducing the enclosed volume of the whole object.

This is achieved by the accumulation filler according to the present invention, which consists in that it consists of hollow spheres with openings in the shell.

Preferably, the hollow spheres have a diameter of up to 10 cm.

-1 CZ 15845 Ul

With respect to the load-bearing capacity, it is preferred that the hollow balls have a shell thickness of 2 to 10% of their diameter.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS The technical solution will be explained in more detail using the drawing, in which schematically a cross-section of the retention, infiltration, drainage body and FIG.

Description of an exemplary embodiment

The retention, infiltration, drainage body 1 can be of any shape and is provided on the bottom 2 with a drainage pipe 3 for collecting the collected water. The wall 4 and the bottom 2 are covered with a geotextile 5, which surrounds from all sides an accumulation filler 6 formed by hollow spheres 7 with holes 8 in the housing 9.

The upper part of the retention or infiltration body 1 is covered with permeable soil 10 in the terrain deepening and above the geotextile 5. The hollow balls 7 according to FIG. The thickness of the sheath 9 should not be more than 10% of their diameter and less than 2% of their diameter.

The retention, infiltration, drainage body I may be of various designs, such as ditches or trenches.

The hollow spheres 7 can also be used as a drainage backfill of buildings, where thin-walled hollow spheres 7 can be provided in case of low load-bearing capacity. The space filled with hollow spheres 7 has the ability to retain large volumes of water.

Industrial applicability

The technical solution of the accumulation filler is designed for underground bodies intended for the accumulation, retention and drainage of water, ie wherever there are now used natural materials with the greatest gap and plastic structures of solid shapes - mats and blocks. The storage filler can also be used to form a well permeable spacer interlayer and to fill with special demand for its low bulk density.

Claims (3)

25 PROTECTION REQUIREMENTS Accumulator filler, in particular for retention, infiltration, drainage and the like bodies for draining rainwater from built-up areas, characterized in that they consist of hollow spheres (7) with openings (8) in the housing (9). Storage accumulator according to claim 1, characterized in that the hollow spheres (7) are 30 in diameter up to 10 cm. Storage accumulator according to claim 1 or 2, characterized in that the hollow spheres (7) have a thickness of the shell (9) in the range of 2 to 10% of their diameter.