RU167225U1 - FILTER FOR MECHANICAL WASTE WATER TREATMENT - Google Patents

Abstract

A filter for mechanical treatment of wastewater in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall, containing a mesh located on the upper end of the cartridge and filled with fibrous filter material, characterized in that the mesh is made in the form of a tubular elastic knitwear with weave plush filled rubber crumb.

Description

The utility model relates to the field of wastewater treatment, namely, devices for wastewater treatment from suspended solids and oil products at the end of the sewer network in front of the control well.

Known replaceable filter element is hermetically fixed to the inner surface of the cartridge, which is part of a cartridge hydrocyclone filter for cleaning liquids from suspended solids (Utility Model Patent RU 113678, IPC V04C 9/00, B01D 29/11, published on 02.27.2012. )

The disadvantage of this filter is the complexity of the filter design, low efficiency of water purification from oil products, fast clogging and the inability to regenerate the filter.

A known mechanical cleaning filter with loading from fibrous material in the form of a capron, which is part of a device for the treatment of storm sewage (Utility Model Patent RU 140160, IPC C02F 1/00, published on 04/27/2014).

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products.

A known filter of mechanical water treatment located in the underground space in a concrete well, loaded with mineral or synthetic fibers, with the possibility of supplying water for cleaning in the lower part of the mechanical filter (Utility Model Patent RU 38751, IPC C02F 1/00, published on 10.07 .2004).

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products and the accumulation of suspended solids in the lower part of the mechanical filter.

The closest is a filter for mechanical treatment of wastewater in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall, located in the underground space in a concrete well. The filter contains a mesh located at the upper end of the cartridge and is filled with fibrous filter material (Utility Model Patent RU 150518, IPC C02F 1/00, published on 02.20.2015).

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products, oil products, their sedimentation on the filter and accumulation in an annular pocket between the wall of the well and the wall of the filter housing, as well as difficult filter regeneration.

The objective of the utility model is to develop the design of a mechanical filter for technical and technological purposes in water circulation.

The technical result is to increase the efficiency of the mechanical filter.

The technical result is achieved by using a filter for mechanical wastewater treatment in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall containing a mesh located on the upper end of the cartridge and filled with fibrous filter material, the mesh being made in the form of a tubular elastic knit weave plush filled with rubber crumb.

The filter for mechanical wastewater treatment is included in the filter system for water treatment, consisting of filters for mechanical and sorption treatment, located in the underground space in separate wells connected by pipelines.

The filter for mechanical wastewater treatment is located in the underground space in a separate well, connected by pipelines with the possibility of supplying wastewater for treatment to the upper part of the mechanical treatment filter and discharge from the bottom of the filter in the direction of movement of the water.

At the upper end of the filter for mechanical wastewater treatment in the form of a cartridge there is a mesh in the form of a tubular elastic knitwear with plush weaving, filled with rubber crumb.

The implementation of the mesh in the form of a tubular elastic knitwear by weaving plush, forming a pile surface with plush loops, and filling it with rubber crumb allows us to obtain a mesh with a variable pore structure, which provides an extremely dense structure with high-quality filtering of suspended particles, and with an extended structure, quick and high-quality regeneration.

The interweaving of the plush provides trapping and retention of the mechanical impurities by the pile surface, thereby protecting the pores of the loop core from clogging with mechanical particles.

Tubular elastic knitwear by plush weaving allows to provide the necessary permeability during the passage of wastewater and provides extensibility along the length and width of the knit for mesh regeneration and facilitates it by reducing adhesion between plush loops and mechanical particles when stretching the knit.

The use of rubber crumb ensures high-quality treatment of wastewater from oil products due to the interaction of the surface of rubber crumb with an organic film, which always remains in the surface layers of wastewater. In addition, crumb rubber serves as an additional mechanical barrier to suspended particles in wastewater.

As a result, a mesh filled with rubber crumb in the form of a tubular elastic knitwear by plush weaving allows increasing the efficiency of the mechanical filter.

In FIG. 1 shows a general view of a filter for mechanical cleaning in a system of filters placed in underground concrete wells, FIG. 2 shows a graphical representation of tubular elastic knitwear by plush weaving.

The filter for mechanical wastewater treatment 1 is included in the filter system for water treatment, consisting of a storage tank (well) 2, a mechanical filter 1 for cleaning, a sorption filter 3 for cleaning and a control well 4 located in the underground space in separate wells connected by pipelines 5. The filter for mechanical wastewater treatment 1 is made in the form of a cartridge with a water-permeable upper end 6 and a lower end 7 and an impenetrable side wall 8. At the upper end 6 of the cartridge 1 there is a mesh 9 made in the form of a pipe elastic knitted fabric by weaving plush and filled with rubber crumb 10. The inner space of the cartridge 1 is filled with fibrous filter material 11.

Tubular elastic knitwear by plush weaving is obtained on a round single-cylinder knitting machine MS-5 of a large diameter of 22 class using plush platens with a cooler depth of 1.0-1.8 mm on main platins, and on plush platys 1.4-2.0 mm and tension of inextensible 12 threads 1.2-2.4 N and elastomeric 13 threads 2.3-2.8 N. Plush weaving is formed while simultaneously knitting inextensible 12 and elastomeric 13 threads with the formation of an elastic frame of elastomeric threads and plush loops forming a fleecy surface of not astyazhimyh 12 filaments.

The finished tubular elastic knit weaving plush is filled with rubber crumb 10 and mounted on the upper end 6 of the cartridge 1.

The utility model works as follows.

Water from the sewer network flows into storage tank 2, from where it flows through pipeline 5 (due to the difference in hydrostatic heights) to an adjacent well with a mechanical filter 1. Moreover, the water levels in both wells are balanced according to the law of communicating vessels. Further, passing from top to bottom through a mechanical filter 1, water enters the lower part of the well with a mechanical filter 1, and then through a pipe 5 to the lower part of the well where the sorption filter 3 is located. Passing the sorption cleaning filter 3 from the bottom up and leaving the filter 3, discharged through pipeline 5 into the control well 4, after which it is discharged into the sewer network or reservoir.

When raw sewage is supplied from top to bottom through a mechanical cleaning filter, small particles of suspended solids and microdrops of emulsified oil products are retained. In this case, the extremely dense structure of the tubular elastic knitwear by plush weaving, its fleecy surface and the rubber crumb located in it play the role of a prefilter, performing additional mechanical treatment of wastewater from suspended particles. At the same time, crumb rubber treats wastewater from partially floating oil products, preventing them from settling on the filter and accumulating in an annular pocket between the wall of the well and the wall of the filter housing.

The mesh in the form of tubular elastic knitwear by plush weaving filled with rubber crumb is easily regenerated: elastic knitwear is stretched in the longitudinal and transverse directions (as a result of which the pore size increases and the adhesion between plush loops and the mechanical particles held by them decreases) and washed with a reverse fluid flow or gas, and the crumb rubber is regenerated by squeezing it on the presses. When developing a resource, rubber crumb is burned.

Thus, the use of a filter for mechanical treatment of wastewater in the form of a cartridge filled with fibrous filtering material with permeable upper and lower ends and a mesh in the form of a tubular elastic knit on the upper end of the cartridge by weaving plush filled with rubber crumb provides an increase in the efficiency of the mechanical filter.

Claims (1)

A filter for mechanical treatment of wastewater in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall, containing a mesh located on the upper end of the cartridge and filled with fibrous filter material, characterized in that the mesh is made in the form of a tubular elastic knitwear with weave plush filled rubber crumb.

Images