RU214689U1 - DRAIN PIPE - Google Patents

Abstract

The utility model is designed to receive surface sewage and atmospheric precipitation from streets and yards. The storm water inlet contains a body (1) and a cover (2) of a round shape, each made in the form of a single pressed structure from a polymer-sand composition. The body (1) is made with a reinforcing cage, which is a ring (4) coaxially located in parallel planes made of profiled metal, rigidly connected to each other by transverse elements. The cover (2) is made with a reinforcing cage in the form of a grid of longitudinal and transverse metal bars (5) connected to each other. The reinforcing frame of the lid (2) is framed with a profiled metal ring. The lower part of the lid (2) is covered with a layer (7) of an elastic polymer. Increasing the strength of the storm water inlet and increasing its service life is achieved due to the fact that the lower part of the storm water inlet cover is covered with a layer of elastic polymer, and the mass fraction of the metal reinforcing cage is 20-25% of the total mass of the storm water inlet. 2 w.p. f-ly, 2 ill.

Description

The utility model relates to the construction of sewer systems and sewage wells, namely, to the structures of storm water inlets for storm wells designed to receive surface sewage and precipitation from streets, yards and other territories.

A storm water inlet is known, described in the patent of the Russian Federation No. 119364 for the utility model "Reinforced polymer-sand storm water inlet" in class E03F 5/02, declared on 03/19/2012 and published on 08/20/2012.

Said storm water inlet contains a body and a cover with holes for the passage of wastewater, while both the body and the cover are each made in the form of a single pressed structure from a polymer-sand composition, consisting of 20-30% polymer and 70-80% sand, while both the body and the cover contain reinforcing cages, and the reinforcing cage of the body is made in the form of coaxially located in parallel planes and rigidly interconnected rings made of profiled metal, the reinforcing cage of the cover is made in the form of a grid of longitudinal and transverse bars of profiled metal interconnected, and the reinforcing frame of the lid is framed by a ring made of profiled metal, the mass fraction of the lid reinforcement is 3-10% of the total mass of the lid. The lid is made with two diametrically located lugs, and the body - with pockets for the lugs of the lid. Recycled polymers are used as a source of polymers, and the polymer-sand composition from which the storm water inlet is made can contain a dye by reducing the percentage of sand in it. The storm water inlet is made with a locking locking device.

The disadvantage of the storm water inlet described above is its insufficient reliability in operation, due to insufficient strength and durability of the hatch at an increased rated load, normalized by GOST 3634-2019.

The objective of the claimed utility model is to increase the reliability of the storm water inlet in operation.

The technical result, which allows to solve this problem, is to increase the strength of the storm water inlet and increase its service life.

This result is achieved by:

1. In the storm water inlet, containing a body and a cover with holes for the passage of water, each made in the form of a single extruded structure from a polymer-sand composition, consisting of 20-30% polymer and 70-80% sand and equipped with a metal reinforcing cage, according to utility model, the lower part of the storm water inlet cover is covered with a layer of elastic polymer, and the mass fraction of the metal reinforcement cage is 20-25% of the total mass of the storm water inlet.

2. In the storm water inlet according to claim 1, according to the utility model, the storm water inlet cover is made with two diametrically located lugs with elements of the metal reinforcing cage of the lid going into them, and the body is made with pockets for the lugs of the cover.

3. In the storm water inlet according to claim 1, according to the utility model, the lower part of the storm water inlet cover is covered with a 3 mm thick layer of acrylic.

Covering the lower part of the storm water inlet with a layer of elastic polymer and increasing the mass fraction of the metal reinforcing frame of the lid up to 20-25% of the total mass of the storm water inlet cover can increase the strength of the storm water inlet, increase its service life, and thereby increase the reliability of the storm water inlet in operation.

In this case, the cover of the storm water inlet can be made with two diametrically located ears with elements of the metal reinforcing cage of the cover entering into them, and the body is made with pockets for the ears of the cover.

In this case, the lower part of the storm water inlet cover can be covered with a layer of acrylic 3 mm thick.

The proposed set of essential features informs the claimed storm water inlet of the storm well with new properties that allow solving the problem.

The inventive storm water inlet has a novelty in comparison with the closest analogue, differing from it in that:

1. the lower part of the storm water inlet cover is covered with a layer of elastic polymer, and the mass fraction of the metal reinforcing cage is 20-25% of the total mass of the storm water inlet,

2. the cover of the storm water inlet is made with two diametrically located lugs with elements of the metal reinforcing cage of the lid going into them, and the body is made with pockets for the ears of the lid,

3. The lower part of the storm water inlet cover is covered with a layer of 3 mm thick acrylic.

The claimed utility model can be widely used in the construction of sewer systems and sewage wells, namely, in the construction of storm water inlets for storm wells designed to receive surface sewage and precipitation from streets, yards and other areas, therefore it meets the criterion of "industrial applicability".

The inventive storm water inlet is illustrated by drawings, which are presented on:

Fig. 1. View of the storm water inlet in section A-A.

Fig. 2. View of the storm water inlet from above.

The stormwater inlet shown in the drawings (see Fig. 1, 2), contains a body 1 and a cover 2 of round shape, each made in the form of a single extruded structure from a polymer-sand composition containing 20-30% polymer and 70-80% sand. Recycled polymers such as LDPE (high pressure polyethylene), HDPE (low pressure polyethylene), impact and frost resistant polypropylene and other materials can be used as a source of polymers. The second component of the composition is sand, which can be used as quartz sand, corundum and the like. The indicated percentage ratio of polymers and sand is determined empirically, with this ratio the storm water inlet material is resistant to aggressive media (acids, alkalis, oil products), to changes in ambient temperature, and has good crack resistance. The polymer-sand composition, from which the storm water inlet is made, contains a dye to obtain the desired color of the product by reducing the percentage of sand in it.

The body 1 of the storm water inlet has a hole, along the inner contour of which a support belt 3 is made. The body 1 is made with a reinforcing cage, which is three rings 4 coaxially located in parallel planes made of profiled metal, rigidly connected to each other by transverse elements.

The cover 2 of the storm water inlet is made with a reinforcing frame in the form of a grid of longitudinal and transverse metal bars 5 interconnected. The reinforcing frame of the cover 2 is framed by a ring of profiled metal. In this case, the longitudinal bars 5 can be located inside the framing ring, and the transverse bars 5 on top of the longitudinal bars 5 and the framing ring. The mass fraction of the reinforcing metal frame of the cover 2 is 20-25%, depending on the type of the storm water inlet, which provides the necessary strength of the cover 2, its resistance to shock loads and the necessary service life of the storm water inlet in accordance with the requirements of GOST 3634-2019.

The cover 2 of the storm water inlet is made with two diametrically located lugs 6 with bars 5 of the metal reinforcing frame of the lid 2 going into them, while the body 1 is made with pockets for the ears 6 of the lid 2. The lower part of the cover 2 of the storm water inlet is covered with a layer 7 of an elastic polymer - acrylic 3 mm thick to prevent the penetration of condensed moisture from the well into cover 2 through microcracks in the polymer-sand base, which protects its reinforcing cage from destruction due to corrosion and prolongs the life of the storm water inlet. The cover 2 of the storm water inlet has holes evenly distributed over its area, the number of which can be, for example, 37, and the dimensions are 50×50 mm. The holes are used for the free passage of sewage.

The size of the reinforcement of the body 1 and cover 2 of the storm water inlet is selected depending on the type of storm water inlet, which in turn depends on the place of its installation: for light series storm water inlets installed in pedestrian areas, a metal profile of a smaller diameter is used as reinforcement, and for heavy series storm water inlets, metal profile of a larger diameter.

The manufacture of the inventive storm water inlet produced by hot pressing.

The polymer-sand composite mixture in the ratio of 20-30% HDPE, LDPE that has lost its consumer properties and 70-80% of the sand component is heated to a temperature of 180°C. In the mixture, by reducing the percentage of sand in it, a small amount of dye can be added, depending on the desired color of the product. For example, the ratio of components may be as follows: 20-30% polymer, 69-79% sand component and 1% dye. The required amount of a homogeneous molten polymer-sand mixture is placed in a uniform layer over the entire area in a mold of the required configuration. On a uniform layer of the mixture, a prepared reinforcing cage of the cover 2 is installed in the mold in the form of a lattice of longitudinal and transverse metal bars 5 connected to each other with a cross section of 15-20 mm, depending on the type of storm water inlet being manufactured. In this case, the bars 5 of the metal reinforcing cage go into the diametrically located ears of the cover 2. The second layer of the polymer-sand composite mixture is placed in the mold on the installed lattice of the reinforcing cage and pressed under a pressure of 300 kg per cm. During pressing, which proceeds 20-30 minutes, coolant is automatically supplied to the mold body. The finished cover 2 is removed from the mold and its lower part is covered with a layer of acrylic 3 mm thick. The manufacture of the housing 1 of the storm water inlet is carried out in a similar way.

The material of the body 1 and cover 2 with their reinforced reinforcing cages and the coating of the lower part of the cover 2 of the storm water inlet with a layer of elastic polymer provide high strength of the storm water inlet, which corresponds to the strength and durability of the storm water inlets in accordance with GOST 3634-2019.

The inventive storm water inlet compared to the closest analogue has greater reliability in operation by increasing the strength of the storm water inlet and increasing its service life.

Claims (3)

1. A storm water inlet containing a body and a cover with holes for the passage of water, each made in the form of a single extruded structure from a polymer-sand composition, consisting of 20-30% polymer and 70-80% sand and equipped with a metal reinforcing cage, characterized in that that the lower part of the storm water inlet cover is covered with a layer of elastic polymer, and the mass fraction of the metal reinforcing cage is 20-25% of the total mass of the storm water inlet. 2. The storm water inlet according to claim 1, characterized in that the storm water inlet cover is made with two diametrically located lugs with elements of the metal reinforcing cage of the lid going into them, and the body is made with pockets for the lugs of the lid. 3. The storm water inlet according to claim 1, characterized in that the lower part of the storm water inlet cover is covered with a 3 mm thick layer of acrylic.

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