RU155214U1 - DRAINAGE FILTER - Google Patents

Abstract

A drain filter containing a frame in the form of a perforated pipe with holes and a porous sleeve made of a multilayer fibrous material made by pneumatic extrusion, characterized in that a gap in the form of a mesh is placed in the gap between the frame and the porous sleeve with the possibility of uniform distribution of the liquid to be cleaned over the holes of the perforated pipe.

Description

The technical solution is intended for the purification of water (liquids) and can be used for drainage, distribution and prefabricated systems in filtering plants for water and wastewater treatment, as well as drainage in sludge and sludge sites.

Various types of drainage and filtering devices are widely known, for example, a filter for water purification, comprising a housing with inlet and outlet nozzles, horizontal perforated partitions with a filter load located between them and means for compressing the partitions, the filter load being made in the form of ceramic-metal disks laid in layers, and the means for compressing the partitions has the form of hollow perforated elements of elastic material (RF patent for the invention No. 2080297 IPC: C02F 1/18, publ. 05.27.97 g)

Also known German patent No. 4030376, IPC: C02F 3/00; 3/20; B01D 24/10, publ. 04/12/1992, in which in the casing of the installation for filtering wastewater a layer of filter material is filled up on the support grid. The purified water through the filter layer enters the lower chamber, from which to the riser, and then to the water reservoir for backwashing. To clean the filter, a backwash process is provided, and if necessary, air is introduced into the space above the grill using a filtration system.

A known element for flow control, which as a filter contains a microporous element with a non-labyrinth pore system of a controlled size with a spiral-wound wire (Application WO 91/19681, IPC: C02F 3/20; publ. 1993). Cross section of coils the wire has a tapering shape, with the wide side of the coil turned outward and the narrow inward, as a result of which the coils are in contact with the edges formed by their wide sides. At one edge of each turn there are microscopic grooves overlapped by the other edge of the adjacent turn. As a spiral-wound wire, a cylindrical tension spring can be used, the turns of which are kept in contact with each other due to its elastic properties.

The disadvantage of the above devices is their insufficiently high filtering ability due to the incomplete use of finely porous layers of the filter load.

Closest to the proposed technical model as a utility model is a drainage filter according to the patent of the Russian Federation for invention No. 2169035, IPC B01D 27/00, B01D 29/11, publ. 12/20/2000. The drain filter contains a frame in the form of a perforated pipe with holes that are located along the diameter of the frame with a displacement of them in adjacent rows equal to half the pitch between the holes, placed on both sides of the coupling frame and a porous sleeve made by pneumatic extrusion and covering the outer surface perforated pipe, and the porous sleeve is made of a multilayer fibrous material with a porosity of 80-400 microns, and the conical perforation holes have a smaller diameter of 0.04-0.1 internal d ametra tube and the larger diameter 0.1-0.2 outer diameter of the perforated tube. The frame of the drainage filter is equipped with couplings having one external and the other internal mating threads, which serve as a connection of several filters to obtain a drainage distribution system.

The above device does not have a sufficiently high efficiency of the filtration process due to unequal separation of impurities and a decrease in the volume of the filter load.

           The technical result of the utility model is to create a drainage filter, the design of which will improve the quality of the filtration capacity by ensuring a uniform fluid flow.

The specified technical result is achieved in that the drainage filter contains a frame in the form of a perforated pipe with holes and a porous sleeve made of a multilayer fibrous material made by pneumatic extrusion, while in the gap between the frame and the porous sleeve there is a sublayer in the form of a mesh with the possibility of uniform distribution of the liquid to be cleaned through the holes perforated pipe.

In this case, the entire porous sleeve works, and not the area above the hole with a snug fit to the frame.

The possibility of implementing a utility model, characterized by the above set of features, as well as the possibility of its implementation can be confirmed by the description of the design of the drainage filter, made in accordance with this technical solution.

The figure shows a longitudinal section of the drain filter.

The drainage filter has a frame in the form of a perforated pipe 1 with conical holes 2 arranged in rows along the diameter of the frame, with a displacement in adjacent rows equal to half the pitch between the holes, each of the holes 2 having a smaller diameter of 0.1-0.12 inner the diameter of the pipe and a larger diameter 0.2-0.22 of the outer diameter of the perforated pipe 1. The number of holes and the diameter of the perforated pipe are determined depending on the operating conditions of the drainage pipes and are the calculated parameters.

The outer surface of the perforated pipe 1 is covered by a porous sleeve 3 obtained by pneumatic extrusion and representing a multilayer fibrous material.

In the gap between the frame and the porous sleeve 3 there is a sublayer in the form of a mesh 4 with the possibility of uniform distribution of the liquid being cleaned over the openings of the perforated pipe. The mesh 4 is made of a polymeric material. Mesh 4 improves the quality of fluid filtration, ensuring uniform distribution of fluid along the entire length of the pipe and more efficient drainage through conical openings 2.

The sublayer in the form of a mesh 4 is rigidly fixed to a perforated pipe, for example by welding.

The thickness of the porous sleeve 3, depending on operating conditions, also has a corresponding (calculated) value.

The ends of the frame in the form of a perforated pipe 1 have mounting threads.

Depending on the operating conditions, the drainage distribution system can be mounted from the nth number of drainage filters proposed as a useful model, which serve as modules for this system.

The drain filter works as follows: contaminated water (liquid) passes through a porous sleeve 3, trapping various fractions on it, then through a polymer mesh 4, evenly distributed over the gap formed between the perforated pipe 1 and the porous sleeve 3, and through the conical holes 2 the liquid enters the internal cavity of the perforated pipe 1. From the perforated pipe 1, the purified liquid enters the catchment (not shown in the figure).

The use of drainage filters as modules provides the creation of a drainage distribution system with an increased degree of purification of the processed liquids by ensuring a high uniformity of liquid distribution over the entire filter area, while the protective filter coating prevents the loading of grains into the drainage of the filter and significantly reduces the removal of small fractions of the load when washing it.

For the drainage distribution system, there is no need for supporting layers. This allows you to increase the thickness of the main filter layer, thereby increasing the filtering ability of the filter.

Drain filters are highly resistant and resistant to dynamic loads.

Claims (1)

A drain filter containing a frame in the form of a perforated pipe with holes and a porous sleeve made of a multilayer fibrous material made by pneumatic extrusion, characterized in that a gap in the form of a mesh is placed in the gap between the frame and the porous sleeve with the possibility of uniform distribution of the liquid to be cleaned over the holes of the perforated pipe.

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