RU176480U1 - A device for the local treatment of storm drains from oil impurities and suspended particles - Google Patents

Abstract

The device relates to treatment facilities for cleaning storm water from impurities of oil products and suspended particles and can be used in the treatment of rain wastewater from the territories of car parks and gas stations. having a settling chamber with a cylindrical hatch at the end of the nozzles and a filtration chamber with an adsorption filler and a rectangular hatch outlet fitting. In this case, the nozzles of the inlet collector have a conoidal shape, in the receiving chamber there are two mesh segments made of stainless wire that move on two rollers along two horizontal guides, as well as guide rods mounted on mounting clamps in the upper and lower parts of the receiving chamber. The rims of each mesh segment have guide sleeves. The settling chamber has two gratings with inclined shutters at the entrance. At the entrance to the filter chamber there are two grilles with inclined shutters. Block-modular segments with an adsorbent are placed in the filter chamber, moving on two rollers each along horizontal guides, as well as guide rods mounted on mounting clamps in the upper and lower parts of the filter chamber. At the same time, the rims of the block-modular segments have rubber gaskets and guide sleeves. The device also contains a conical converging nozzle. At the same time, the conical converging nozzles are placed at the bottom of any of the three chambers. The technical result of the utility model is to reduce the time for cleaning the device from precipitated contaminants.

Description

The device relates to wastewater treatment plants for cleaning storm water from oil impurities and suspended particles and can be used in the treatment of rainwater from the territories of car parks and gas stations.

The prototype of the claimed utility model is an installation for cleaning storm water from oil impurities [Patent Ru No. 154652]. The unit is intended for the treatment of storm, melt and irrigation wastewater contaminated with oil products and suspended particles discharged from the territories of car parks and gas stations.

The installation is housed in a housing made of polyethylene pipe of the Korsis type and contains a receiving chamber, a settling chamber and a filtration chamber, separated by partitions with holes and perforated partitions. The input of storm drains to the installation is carried out through a pipe with a conical nozzle, and the output is made through a cylindrical pipe.

The disadvantage of this installation is the structural complexity of the receiving chamber and the insufficient degree of purification of effluents from contaminants with suspended particles in the mesh basket of this chamber during volley storm discharges. As a result of this, the settling chamber is overloaded with the remaining fine dispersed particles, and the filtration chamber following along the course of the effluent requires frequent replacement of cartridges with adsorbent.

The objective of the utility model is to improve the device for local treatment of storm water runoff from impurities of oil products and suspended particles and to expand the arsenal of tools for this purpose.

The technical result of the utility model is to reduce the time for cleaning the device from precipitated contaminants.

The technical result is achieved by the fact that the device for local treatment of storm drains from oil impurities and suspended particles contains a receiving chamber with a cylindrical hatch and an inlet manifold having a nozzle at the end of the nozzles, a settling chamber with a cylindrical hatch and a filter chamber with an adsorption filler and a rectangular hatch, the output nipple, characterized in that the nozzle of the input collector has a conoidal shape, in the receiving chamber there are two mesh segments made of stainless wire, which move on two rollers along two horizontal guides, as well as guide rods mounted on mounting clamps in the upper and lower parts of the receiving chamber, while the rims of each mesh segment have guide sleeves, the settling chamber has two gratings with inclined shutters at the entrance to two grilles with inclined shutters are installed at the entrance to the filtration chamber, block-modular segments with adsorbent are placed in the filtration chamber, moving on two rollers each along horizontal guides as well as guide rods mounted on mounting clamps in the upper and lower parts of the filter chamber, while the rims of the block-modular segments have rubber gaskets and guide sleeves, and also contains a conical converging nozzle.

In this case, the converging nozzles are located at the bottom of any of the three chambers.

In order to reduce the time of periodic cleaning of the device from precipitated contaminants, a conical converging nozzle located at the bottom of the device was used, into which the washing water is supplied by a centrifugal pump.

The essence of the claimed utility model is illustrated in FIG. 1, which shows a schematic diagram of a device, and FIG. 2, where a block-modular segment is shown.

A device for local cleaning of storm water runoff from oil and particulate impurities (Fig. 1) includes a receiving chamber 6 with an inlet collector 1 having a conoidal nozzle 2, two mesh segments 3 for separating floating and large suspended particles, a settling chamber 11 with inclined coalescence plates 12 made of reinforced polycarbonate, a filtration chamber 16 filled with block-modular segments 17 with an adsorbent. For ease of maintenance, two cylindrical hatches 19 and 20, smaller in diameter than the body, and also a rectangular hatch 21, which are located above the periodically serviced installation chambers, are provided in the upper part of the cylindrical body. The mesh segments 3 are moved along the horizontal guides 5 on two rollers for ease of dismantling. 4. A periodically used centrifugal small-sized submersible pump 13 can be placed at the level of the oil product layer both in the receiving chamber 6 and in the settling chamber 11. To organize the flow structure, which contributes to efficient sedimentation of suspended particles and coalescence of droplets of petroleum products in the settling chamber, the drain preliminarily passes through gratings 9 and 10 with shutters tilted to the bottom of the device. Lattices 14 and 15 with a tilt of the blinds to the lower part of the device body allow evenly distributing stormwater over the height of the adsorbent layer located in the block-modular segments 17 of the filter chamber 16. Guide rods 7 mounted on mounting clamps 8 in the receiving chamber 6 and the filter chamber 16 , provide quick installation and dismantling of the mesh segments 3 and block-modular segments 17, avoiding distortions.

The cleaned drain leaves the device through the nozzle 18. The periodically used centrifugal pump 22 serves to supply wash water to the conical converging nozzles 23.

In FIG. 2 shows the device block-modular segments of the filter chamber 16. A feature of the claimed utility model is the presence of horizontal guides 5 installed in the filter chamber 16 and designed for quick and convenient movement of the block-modular segments on two rollers 4 for each block-modular segment.

The operation of the device is as follows (Fig. 1, Fig. 2).

Storm drains enter the receiving chamber 6 through an inlet manifold 1 having a conoidal nozzle 2 at the end, and fall into two mesh segments 3 made of stainless steel mesh 2.5 × 2.5 × 0.7 mm, which delays contained in the storm stock particles of large size. Thanks to the conoidal nozzle 2, which is closely adjacent to the mesh segments 3, even during volley storm showers, the hydraulic resistance and flow rate at the outlet of the inlet collector 1 gradually decrease and favorable conditions are created for the deposition of fine suspended particles and coalescence of small drops of oil products with subsequent removal sediment from the receiving chamber 6. In the receiving chamber 6 is the separation of large suspended particles. After this, the storm drain is directed to the grilles 9 and 10, which have shutters inclined to the lower part of the device casing, which creates a directed movement of the storm drain from the bottom up in the settling chamber 11, and its uniform distribution between the inclined coalescent plates 12 of reinforced polycarbonate, where intense coalescence of droplets of petroleum products and active deposition of finely divided suspended particles, which did not have time to separate in the receiving chamber 6. floated to the surface of the water oil products and settling chambers 11 are periodically removed to the disposal tank with a submersible small-sized centrifugal pump 13. After the settling chamber 11, the cleaned drain is directed to the filtration chamber 16 through grilles 14 and 15 with inclined shutters and passes through block-modular segments 17 with adsorbent (Fig. 2) . Each block-modular segment is installed through the hatch of rectangular cross-section 21 into the device’s casing, moves along the runners 5 on two rollers 4 and is centered in the device’s casing with the help of guide rods 7 attached to the casing by fixing clamps 8. To ensure the convenience and tightness of assembly of the modular-block segments at the upper point of the rim of the upper segment and the lower point of the rim of the lower segment provided cylindrical guide sleeves, and the rims are equipped with rubber gaskets (Fig. 2). Block-modular segments 17 of the filter chamber 16 are filled with an organic adsorbent designed to adsorb oil residues and fine suspensions that were not separated in the receiving chamber 6 and the settling chamber 11. The cleaned storm drain leaves the installation through the nozzle 18.

The device is mounted on the protected area in underground execution and, thus, does not clutter it. The underground location of the device also allows the use of gravity storm water flow and refuse to supply storm water using pumping equipment, thereby significantly reducing operating costs.

Precipitated sediment is periodically removed from all chambers by rinsing with water supplied by a centrifugal pump 22 to a conical converging nozzle 23 located at the bottom of the cylindrical body of the filter chamber 16. If necessary, the conical converging nozzle 23 can be placed in a receiving chamber 6 or a settling chamber 11. the washing period of the installation from the sediment, the mesh segments 3 and the block-modular segments 17 are removed from the installation housing. Wash water is sent to a disposal tank.

Claims (2)

1. A device for the local treatment of storm drains from oil and particulate matter impurities, comprising a receiving chamber with a cylindrical hatch and an inlet manifold having a nozzle at the end of the nozzle, a settling chamber with a cylindrical hatch and a filter chamber with an adsorbent filler and a rectangular hatch, an outlet fitting the fact that it further comprises a conical converging nozzle located at the bottom of the device, configured to supply washing liquid to it. 2. The device according to claim 1, characterized in that the conical converging nozzles are located at the bottom of any of the three chambers.

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