RU179317U1 - Device for receiving and treating wastewater - Google Patents

Abstract

The utility model relates to the field of wastewater treatment, in particular to devices for receiving and treating wastewater from bridges and automobile crossings. The essence of the utility model lies in the fact that in the device for receiving and treating wastewater, comprising a housing made in the form of a sewer well containing an inlet for wastewater, closed with a trash guard, an inlet tubular element for wastewater mounted in the well, the inlet end of which located outside the well, and the output end is located inside the well, as well as the output tubular element installed in the well to ensure the removal of purified wastewater from it, while inside the decks The filter module is installed, installed to ensure that wastewater enters the well through the inlet and through the inlet tubular element, according to a useful model, the inlet tubular element is equipped with a funnel-shaped element located at its inlet end and closed by a dust trap for receiving wastewater . The technical result achieved by the implementation of the utility model is the creation of a device that ensures the reception and treatment of effluents from two spatially separated zones of surface wastewater. 1 ill.

Description

The utility model relates to the field of wastewater treatment, in particular to devices for receiving and treating wastewater from bridges and automobile crossings.

A device is known for receiving and treating surface wastewater described in RU 2548323.

The device in question comprises a housing made in the form of a polymer sewer well containing an inlet for wastewater, closed with a dust trap. A filter module is mounted inside the casing, which is installed to ensure that wastewater enters the well through the inlet. The filter module contains a receiving waste bin with holes on the side surface, as well as a settling chamber and a filter chamber inserted one into another with a gap between the side surfaces. The purified water flows into the intake basket, overflows into the aforementioned gap through the side openings, accumulates in the settling chamber and then enters the filter chamber, where it passes through the cartridge with filtering material in an upward flow. The purified water is discharged into the outlet pipe, designed to ensure the removal of purified water from the well.

This device, due to the presence of a filter module in it, ensures the treatment of effluents entering it. However, it provides for the reception of waste water only through the inlet of the well, which may limit the use of this device.

A device is known for receiving and treating surface wastewater described in RU 154551, which is selected as the closest analogue.

This device contains a housing made in the form of a sewer well containing an inlet for wastewater, closed with a trash guard. The device also contains an inlet tubular element for wastewater, made in the form of a pipe, the outlet end of which is located inside the well, and the inlet end is located outside the well and is intended to be connected to the supply pipe. A filter module, made in the form of a cartridge with filter loading, is installed inside the well and is installed to ensure that it receives sewage entering the well through the inlet and through the inlet tubular element. The purified wastewater passing through the filter module is discharged from the well through an outlet tubular element made in the form of a pipe intended for connection with a discharge pipe.

This device provides the reception and treatment of surface wastewater from the zone of the inlet of the well, as well as wastewater entering the well through the inlet pipe, in particular from another well when they are cascaded.

However, this device is not intended for the reception and purification of surface wastewater collected from two spatially remote from each other zones.

Meanwhile, there is a need to receive and treat with the same device surface wastewater collected from two spatially separated drainage zones, for example, wastewater collected from the surface of the sidewalk and the surface of the carriageway of the bridge.

The problem to be solved during the implementation of the utility model is the creation of a device that ensures the reception and treatment of effluents from two spatially separated zones of surface wastewater discharge.

The essence of the utility model lies in the fact that in the device for receiving and treating wastewater, comprising a housing made in the form of a sewer well containing an inlet for wastewater, closed with a waste grate, an inlet pipe element for wastewater mounted in the well, the inlet end of which located outside the well, and the output end is located inside the well, as well as the output tubular element installed in the well to ensure the removal of purified wastewater from it, while inside a filter module is installed that is installed to ensure that wastewater enters the well through the inlet and through the inlet tubular element, according to a useful model, the inlet tubular element is equipped with a funnel-shaped element located at its inlet end and closed by a dust trap for receiving wastewater .

Due to the presence in the housing of the inventive device of garbage-retaining grids and a removable filter module, local wastewater treatment takes place.

It is preferable to use a replaceable cartridge with filter material in the filter module of the claimed device, the properties of which determine the type of contaminants cleaned with its help. In particular, peat loading is used as a filter material, which ensures the treatment of wastewater from particulate matter and hydrocarbon contaminants.

The presence in the inventive device of an inlet and an inlet tubular element with a funnel-shaped inlet allows receiving surface wastewater from two spatially separated zones for collecting collected surface wastewater, which is achieved by arranging the inlet of the well in one specified zone and the funnel-shaped element in another zone.

In this case, the dimensions of the inlet and the dimensions of the funnel-shaped element of the inventive device are selected from the condition of their coordination with the dimensions of the drainage holes located in the respective zones, and the length of the inlet tubular element is selected depending on the distance from these openings from each other.

As drainage holes can be, in particular, used openings, slots, gaps, through holes made in the ground, bridge crossings and so on.

Thus, the technical result achieved by the implementation of the utility model is the creation of a device that ensures the reception and treatment of effluents from two spatially separated zones of surface wastewater.

The figure shows a General view of the claimed device.

The device comprises a housing made in the form of a portable polymer well 1 having an inlet (not indicated by the number in the drawing), closed by a debris guard 2. The device has an inlet tubular element 3 equipped with a funnel-shaped element 4 located at its inlet end and closed by a debris guard 5 .

A filter module is placed inside the housing, in particular, containing filter and settling compartments 6 and 7 inserted into each other with a gap, as well as a receiving waste bin 8 having openings in the side surface. Inside the filter compartment 6 is installed a removable cartridge 9 with filter material, which is used as a peat load.

The filter module and the inlet tubular element 3 are mounted in the well 1 so that wastewater entering the basket 8 enters the well 1 through the inlet closed by the grill 2 and wastewater entering the well 1 through the funnel-shaped element 4 closed by the grill 5.

The device also contains an output tubular element 10, made, in particular, in the form of an angular nozzle designed to drain purified water from the well 1.

The device operates as follows.

Mount the device at the installation site, while the inlet closed by the grate 2 is combined with a drainage hole located in the first surface drainage zone, and the funnel-shaped element 4 closed by the grate 5 is combined with the drainage hole located in the second drainage zone of the surface Wastewater. In particular, the well 1 is mounted on the bridge under the bridge so that the inlet closed by the grate 2 is aligned with the first drainage hole (through-out) formed on the paving part of the bridge, and the funnel-shaped element 4 closed by the grate 5 is aligned with a second drainage hole (through-hole) formed in the carriageway of the bridge.

The surface runoff from two discharge zones, in particular, from the sidewalk and from the carriageway of the bridge, flows into the receiving basket 8, in which sand and large debris accumulate, and through the holes in the side surface of the basket 8 is poured into the gap between compartments 6 and 7. Coarse suspended solids settle at the bottom of compartment 6, and the wastewater flows upstream into the filter compartment 7 and is filtered through a cartridge 9 with filter loading. The treated wastewater is discharged from the well 1 through the pipe 10.

Claims (1)

A device for receiving and treating wastewater, comprising a housing made in the form of a sewer well containing an inlet for wastewater, closed with a trash guard, a tubular inlet element for wastewater mounted in the well, the inlet end of which is located outside the well, and the outlet end is located inside the well, as well as the output tubular element installed in the well, ensuring the removal of purified wastewater from it, while the filter module installed with ensuring the entry into it of wastewater entering the well through the inlet and through the inlet tubular element, characterized in that the inlet tubular element is equipped with a funnel-shaped element located at its inlet end and closed by a garbage protection grill, designed to receive wastewater.

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