RU217951U1 - Building of the station for biological treatment of domestic wastewater - Google Patents

Abstract

The utility model relates to devices for the biological treatment of industrial or domestic wastewater, in particular the buildings of a biological treatment plant for domestic wastewater. The housing of the station for biological treatment of domestic wastewater consists of cone-shaped upper and lower parts, the upper part of the housing is made with a neck and the possibility of installing a compressor and a control unit in it, and the lower part of the housing is made with the possibility of installing equipment for input, circulation, aeration and biological wastewater treatment, as well as the output of purified water, while the walls of the lower and upper parts of the body have a thickness of 4-6 mm and are made of a composite material, which is an aluminoborosilicate glass fiber with a density of 450-600 g/m ² , impregnated with polyester resin, and also have 4-10 stiffening ribs, made with a uniform step. The upper and lower parts of the housing are glued together with a polyester resin-based connecting compound. EFFECT: increased strength of the body of the station for biological treatment of domestic wastewater. 3 w.p. f-ly, 1 ill.

Description

The utility model relates to devices for the biological treatment of industrial or domestic wastewater, in particular the buildings of a biological treatment plant for domestic wastewater.

The prior art body of a septic tank made of polymeric material with an inlet and outlet, in the upper part of which there is a neck [EN 136036, C02F 3/28, publ. December 27, 2013].

Closest to the claimed utility model is a septic tank housing, consisting of an upper and lower part, wherein the upper part of the housing is made with a neck and the possibility of installing a compressor and a control unit in it, and the lower part of the housing is made with the possibility of installing equipment for input, circulation, aeration and biological wastewater treatment, as well as the output of treated water [RU 201979, C02F 3/16, publ. 01/26/2021].

The technical result is to increase the strength of the body of the station for biological treatment of domestic wastewater.

The technical result is achieved by the fact that the body of the station for the biological treatment of domestic wastewater consists of cone-shaped upper and lower parts, and the upper part of the body is made with a neck and the possibility of installing a compressor and a control unit in it, and the lower part of the body is made with the possibility of installation in it equipment for the input, circulation, aeration and biological treatment of wastewater, as well as the output of purified water, while the walls of the lower and upper parts of the body have a thickness of 4-6 mm and are made of a composite material, which is aluminoborosilicate glass fiber with a density of 450-600 g/m ² , impregnated with polyester resin, and also have 4-10 stiffening ribs made with a uniform pitch, while the upper and lower parts of the body are glued together with a polyester resin-based connecting compound.

There is a variant in which the aluminoborosilicate glass fiber is impregnated with a polyester resin based on orthophthalic acid.

There is a variant in which the upper and lower parts of the housing are glued together with a joint compound based on polyester resin based on orthophthalic acid.

There is a variant in which the neck is made offset relative to the vertical axis of the housing, while the upper part of the housing is made asymmetrical relative to the vertical axis of the housing.

In FIG. 1 shows the body of the station for the biological treatment of domestic wastewater in a private embodiment of its implementation (front view).

The body of the station for biological treatment of domestic wastewater consists of a cone-shaped top 1 and bottom 2 parts. The upper part 1 of the housing is made with a neck 3. The walls of the upper 1 and lower 2 parts of the housing are made of a composite material, which is aluminoborosilicate glass fiber impregnated with polyester resin, and have stiffening ribs 4, made with a uniform pitch.

The upper 1 and lower 2 parts of the body are glued together with a polyester resin-based connecting compound and equipped with elements connected by means of bolts 5 and forming a grouser 6.

The upper part 1 of the body is made with the possibility of installing a compressor and a control unit in it, and the lower part 2 of the body is made with the possibility of installing equipment for input, circulation, aeration and biological wastewater treatment, as well as the output of treated water.

In a particular embodiment of the utility model, the neck 3 is made offset relative to the vertical axis 7 of the body, while the upper part 1 of the body is made asymmetrical about the axis 7.

The upper 1 and lower 2 parts of the body are made by manual contact molding on a matrix metal smooth-walled base. This method provides a high quality of construction, as well as smoothness of the walls over the entire inner surface due to the absence of recesses or protruding parts. Thus, it is possible to prevent siltation of sections of the housing walls, which may lead to the need for more frequent cleaning, as well as failure of the equipment located in it.

The utility model is illustrated by examples of its implementation.

Example 1

The body of the station for biological treatment of domestic wastewater consists of cone-shaped upper and lower parts. The walls of the lower and upper parts of the housing have a thickness of 5 mm and are made of a composite material, namely, a non-woven porous material made of chopped aluminoborosilicate glass fiber with a density of 500 g/m ² impregnated with a polyester resin based on isophthalic acid, and also have 4 stiffening ribs, made with step. The upper and lower parts of the body are glued together with a polyester resin based compound based on isophthalic acid.

Example 2

The body of the station for biological treatment of domestic wastewater consists of cone-shaped upper and lower parts. The neck is made offset relative to the vertical axis of the housing, while the upper part of the housing is made asymmetrical relative to the vertical axis of the housing. The walls of the lower and upper parts of the housing have a thickness of 4 mm and are made of non-woven porous material made of chopped aluminoborosilicate fiberglass with a density of 600 g/m ² , impregnated with orthophthalic acid-based polyester resin, and also have 8 stiffening ribs made with a uniform pitch. The upper and lower parts of the housing are glued together with a joint compound based on polyester resin based on orthophthalic acid.

Example 3

The body of the station for biological treatment of domestic wastewater consists of cone-shaped upper and lower parts. The neck is made offset relative to the vertical axis of the housing, while the upper part of the housing is made asymmetrical relative to the vertical axis of the housing. The walls of the lower and upper parts of the housing have a thickness of 6 mm and are made of non-woven porous material made of chopped aluminoborosilicate glass fiber with a density of 450 g/m ² impregnated with orthophthalic acid-based polyester resin, and also have 10 stiffening ribs made with a uniform pitch. The upper and lower parts of the housing are glued together with a joint compound based on polyester resin based on orthophthalic acid.

The execution of the walls of the lower and upper parts of the housing with a thickness of 4-6 mm from a composite material, which is aluminoborosilicate fiberglass with a density of 450-600 g/m ² , impregnated with polyester resin, allows you to ensure the strength of each of them individually. The selection of the chemical composition of fiberglass containing 1-2 wt.% alkali metal oxides made it possible to increase its strength by an average of 20% compared with alkaline glass fiber containing 10-15 wt.% alkali metal oxides.

The presence of 4-10 stiffening ribs, made with a uniform pitch, allows you to increase the resistance of the walls of the case to the loads acting on them, increasing their strength.

Gluing the upper and lower parts of the housing with a polyester resin-based joint compound allows you to create a strong and hermetic connection.

The choice of orthophthalic acid polyester resin is preferred because it has a lower cost compared to isophthalic acid polyester resin, while still providing sufficient strength to the composite material, as well as the connection of the upper and lower parts of the housing.

The displacement of the neck relative to the vertical axis of the housing, as well as the execution of the upper part of the housing asymmetrical relative to the vertical axis of the housing allows further facilitating access to the equipment installed in the housing.

Thus, the claimed utility model can be implemented with the achievement of a technical result.

Claims (4)

1. The body of the station for the biological treatment of domestic wastewater, consisting of a conical upper and lower parts, and the upper part of the body is made with a neck and the possibility of installing a compressor and a control unit in it, and the lower part of the body is made with the possibility of installing equipment for input , circulation, aeration and biological treatment of wastewater, as well as the output of purified water, characterized in that the walls of the lower and upper parts of the body have a thickness of 4 mm and are made of a composite material, which is aluminoborosilicate glass fiber with a density of 600 g/m ² impregnated with polyester resin , and also have 8 stiffening ribs, made with a uniform pitch, while the upper and lower parts of the body are glued together with a connecting compound based on polyester resin. 2. Housing according to claim 1, characterized in that the aluminoborosilicate fiberglass is impregnated with a polyester resin based on orthophthalic acid. 3. The housing according to claim 1, characterized in that the upper and lower parts of the housing are glued together with a connecting compound based on a polyester resin based on orthophthalic acid. 4. The body according to claim. 1, characterized in that the neck is made with an offset relative to the vertical axis, while the upper part of the body is made asymmetrical about the vertical axis.

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