RU173244U1 - DEVICE FOR CLEANING DRAINLESS RESERVOIRS - Google Patents

Abstract

The utility model relates to the field of environmental protection, in particular to technical means of cleaning water bodies, designed to collect organic substances from the water column of closed reservoirs within the urban landscape, and can be used in housing and communal services, to ensure the required level of water quality for drinking and household water supply of the population and recreational water use. The device for cleaning drainage water bodies contains a metal frame, inside which there is a container with an adsorbent, having a zipper and attached to the metal frame with carabiners. In the upper part of the metal frame there is a filter mesh, the device is also equipped with lifting slings, to which a float and a mechanical element are attached to move the device. 1 ill.

Description

The utility model relates to the field of environmental protection, in particular to technical means of cleaning water bodies, designed to collect organic substances from the water column of closed reservoirs within the urban landscape, and can be used in housing and communal services, to ensure the required level of water quality for drinking and household water supply of the population and recreational water use.

A device for cleaning water bodies from pollution (RU No. 2446248, ЕВВ 15/04, 2012), designed to collect pollution from the surface of open water bodies, is known. The device consists of one or more containers connected with towing boats made of polymer materials. Each container is made in the form of a soft tubular sheath with inlet and outlet openings. The outlet holes are located in the lower and upper parts of the shell, designed to collect oil-containing emulsions from the water surface and drain water and oil extracted from the oil-containing emulsion. The inlet hole is made slotted, and the outlet holes are made in the form of nozzles located on the side opposite to the side with the slotted hole of the shell. The upper branch pipe, the drainage oil extracted from the oil-containing emulsion, is connected with the oil collector. Moreover, in each tank by means of towing boats, the movement of particles of an oil-containing emulsion is created at a speed of 0.05-1.0 m / s. The soft sleeve shell is made of low pressure polyethylene for an oily liquid.

The disadvantage of this device is the low productivity due to the cleaning of only the water surface.

The closest in technical essence to the claimed device is a device for the comprehensive cleaning of drainage water bodies (RU No. 2511142, ЕВВ 15/04, ЕВВ 15/10, C02F 1/28, 04/10/2014), containing a metal frame, inside of which there is a container with adsorbent, having a fastener - a zipper and attached to a metal frame with ties. In the upper part of the metal frame is a filter mesh, and the device is also equipped with lifting slings.

A significant disadvantage of the considered device is low productivity due to the lack of a mechanism for moving the device under water at a given speed.

The objective of the proposed utility model is to increase productivity by using a mechanical element to move the device under water; a float to keep the device afloat and carbines to quickly remove the container with adsorbent.

The technical result is achieved by the fact that the device for cleaning drainage ponds containing a metal frame with a filter mesh, equipped with slings, inside which there is a container with an adsorbent, having a zipper, according to a utility model, contains a float and a mechanical element for moving the device, attached to the slings, and the metal frame is connected to the tank using carabiners.

The essence of the claimed utility model is illustrated in the drawing. The drawing shows a diagram of a device for cleaning sewage-free reservoirs.

The proposed device contains a metal frame 1, inside of which there is a container 2 with an adsorbent, having a zipper fastener 3 and attached to the metal frame 1 by carabiners 4. In the upper part of the metal frame 1 there is a filter net 5, the device is also equipped with lifting slings 6 to which are attached a float 7 and a mechanical element 8 for moving the device.

The proposed system works as follows.

According to the proposed model, in the open water period, the non-drainage water treatment device is immersed on a small vessel. After reaching the middle of the reservoir, the device descends to a depth of 1.5-2 m using the slings 6 and stays afloat, thanks to the float 7. The mechanical element 8 provides the movement of the device along the median line of the reservoir at a given speed. When the device is moving, water passes through a container 2 with an adsorbent, ensuring the absorption of organic substances. After the completion of one working cycle, the device is lifted onto a small vessel using slings 6 to replace the adsorbent. For this, the container 2 with the adsorbent is detached from the metal frame 1 using carabiners 4. One container 2 with the adsorbent is replaced with another. On the shore of the reservoir, the adsorbent is removed from the container 2 by opening the zipper 3. When lifting the device onto a small vessel using slings 6, suspended solids from the thickness of the reservoir settle on the surface of the filter mesh 5.

The metal frame 1 has the shape of a parallelepiped and is made of stainless steel. In this case, the faces of the parallelepiped are a grid with mesh sizes of 1-3 cm ² , for filtering water through the entire device and protecting the container 2 with adsorbent from mechanical damage.

The capacity 2 with the adsorbent is made of a polymer mesh with a mesh size of 0.5-1.5 mm ² and is filled with adsorbent. It is proposed to use anionites as adsorbent, which are high molecular weight compounds of a three-dimensional gel or macroporous structure containing basic functional groups. The functional groups of anion exchangers are various amines that determine their type: weakly basic; strongly basic (type I, type II). For each type of anion exchange resin, the maximum organoabsorption capacity, which determines its effectiveness, is established.

The zipper 3 located on the container 2 with the adsorbent allows you to remove the adsorbents from the container 2 for regeneration. Carabiners 4, fastening the container 2 with adsorbents with a metal frame 1, are made of stainless steel.

The filter mesh 5 is made of a polymeric material, for example, bioinert polymers (polyethylene, polypropylene, fluoroplast, silicones, polymethyl methacrylate, etc.) that do not change their properties under the influence of water. The cell size is 0.1-1 cm ² , which ensures the capture of suspended solids from the water column of a closed reservoir. Slings 6 attached to a metal frame 1 are designed to raise and lower the device to a small vessel.

The float 7 attached to the slings 6 is made of polyurethane foam with a minimum coefficient of water absorption, which ensures unsinkability of the device.

A mechanical element 8, for example, a hook (forged or plate), a cargo loop, a bracket, connects the cleaning device and the automobile mechanical winch, thereby moving the device under water at a given speed.

The inventive utility model, in comparison with the prototype, allows you to effectively clean the drainage water within the urban landscape from organic substances by increasing the productivity of the device.

So, the claimed utility model makes it possible to purify organic substances from a drainless body of water within the urban landscape and can be used in housing and communal services to provide the necessary level of water quality for drinking and household water supply of the population and recreational water use.

Claims (1)

A device for cleaning sewage-free reservoirs containing a metal frame with a filter mesh equipped with slings, inside which there is a container with an adsorbent, having a zipper, characterized in that it contains a float and a mechanical element for moving the device attached to the slings, and the metal frame is connected to the container with the help of carbines.

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