RU2552466C1 - Filter for liquid purification (versions) - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: filter is disclosed in two versions and comprises a filter element placed in a trough 2 with a protrusion 3, a recess 4 and a channel 5 at the bottom (first version) or a trough with a flat bottom (second version). The filter element consists of a supporting-clamping structure and a filter stack 6. The supporting-clamping structure prevents the filter stack from floating and sinking by fixing the edges thereof and prevents deformation of the working surface thereof. The supporting-clamping structure is made from a composite and includes vertical rods with an external thread anchored in the protrusion 3, a supporting lower grid 18 placed on the recess 4 while overlapping the channel 5, clamping 12 and 13 and supporting 14 and 15 beams, tubular compensating supports 16, a clamping upper grid 17, tension nuts 9 and 10. The beams, supports, upper grid and filter stack 6 by its edges sit on the rods 7. The filter stack 6 rests on the grid 18 by its working surface, and its edges are pressed by the beams 12 and 13 to the protrusion 3 and are fixed by nuts. The grid 17 lies on the filter stack 6 horizontally in a stable manner in order to be pressed between the beams 14 and 15, supported by the supports 16 which compensate excess difference in thickness of the filter stack 6 in the initial and pressed states, and fixed by nuts 9.

EFFECT: high efficiency and repairability of the filter, easy assembly and dismantling, easy maintenance.

14 cl, 4 dwg

Description

The invention relates to open filters with a large working surface and can be used in treatment facilities of surface runoff from the city.

Currently, in the case, frame, cassette designs of local filters, fibrous polymer sorption-filtering woven and non-woven materials are widely used due to their unique filtering and sorption properties. In these filters, the problem of keeping the filter material from floating up during the filtering or regeneration process is solved using frames, frames, and other known means due to the small working surface of the material (RU 2400285, B01D 27/00, B01D 29/11, published September 27, 2010).

In urban wastewater treatment plants on large working areas with concrete and reinforced concrete troughs, the problem of holding the filter material in a cassette-free, frameless, frameless way has not been solved.

It is known to use a mechanical filter with a large working surface of the sorption-filtering material of the Megasorb brand, intended for wastewater treatment (RU 2374181, C02F 1/40, publ. 11/27/2009). The source does not contain information about the design of the filter.

A known design of a filter for cleaning liquid, each filter element of which is made of rod elements vertically mounted and fixed at one end, and a filter bag of successively stacked layers of sorption-filtering cloth fixed to the rods (RU 2082481, B01D 27/00, publ. 06/27/1997).

Known design relates to frame filters made of metal. It has a small work surface, and its cloth holding device is not suitable for use in large open filters.

The filter for cleaning liquids according to patent RU 2082481 is the closest in technical essence to the claimed one and is selected as the closest analogue (prototype).

The technical problem to which the invention is directed is to develop a collapsible frameless, frameless, cassette-free filter with a large, not divisible into separate parts and forcibly not compressible, working surface of the filter bag from layers of a light-weight sorption-filtering cloth and with non-corrosive the design of the device holding the package.

The problem was solved due to the development of a special support and clamping structure made of composite materials, capable of holding the filter bag in a given position, both in working and inoperative mode.

The technical result that can be obtained by using the invention is to increase the filter performance by creating optimal conditions for the filtering process, to simplify installation and dismantling, to increase maintainability and ease of maintenance.

The filter according to the invention is proposed in two versions, while for both variants the prototype is the aforementioned patent RU 2082481.

To solve the problem, the filter for cleaning liquid according to the first embodiment, comprising a filter element including rods vertically mounted and fixed at one end, and a filter bag of successively stacked layers of sorption-filtering cloth mounted on the rods, according to the invention is provided with a groove, having along the perimeter a horizontal protrusion with a horizontal ledge and a channel along the bottom, its filter bag is made with a working surface, an equal surface of the trough, its filter The supporting element is placed in the trench and is equipped with a supporting-clamping structure that prevents the filter bag from floating up during filtering and sagging when the channel is drained, including the indicated rods with external thread, tension nuts, lower and upper, with internal thread, mating thread of the rods, tubular compensating supports and profile clamping, longitudinal and transverse, and profile support, upper and lower, beams with a length corresponding to the length or width of the gutter, all beams and supports with holes designed for rods, ra by measuring not less than the outer diameter of the rod, as well as a clamping upper one, the size of the perimeter of the gutter, and a supporting lower one, the size of the height and perimeter of the ledge, gratings with clear spaces similar to the size of the indicated holes, while the rods are evenly distributed over the protrusion of the gutter and their lower the ends are anchored into it, the lower support lattice is placed on a ledge with the channel overlapping, the filter bag is set with the edges on the rods, and the working surface is located on the lower lattice, its edges on the rods are pressed longitudinal and transverse with fixed clamping beams and fixed together with them by lower tension nuts screwed with a degree of compression of the edges sufficient to hold the filter bag in operation, then to install the upper clamping lattice on the rods, tubular compensating supports supporting the lower tension nuts compensating for the remaining thickness difference the filter bag in the initial and compressed state, the upper clamping grid, which prevents deformation of the working surface of the filter bag, is located horizontally on the filter bag, its edges are clamped on the rods between the lower, supported on tubular compensating supports, and the upper profile support beams, and together with them is fixed in a stable horizontal position by the upper tension nuts, while the above rods, nuts, gratings, beams and supports are made of a composite based on a fibrous reinforcing material and a polymer binder, and a non-woven fabric made of hydrophobic polymer fibers was used as a sorption-filtering fabric.

In particular cases of using the invention, fiberglass, basalt plastic, carbon fiber or combinations thereof are used as a composite, the grilles are made of pressed glass, carbon or glass carbon fiber, the rods are made of fiberglass pultruded profile with a threaded, carbon, basalt or fiberglass shell wound on it , the beams are made of rectangular fiberglass pultruded profile, the supports are made of fiberglass pipe, and the nuts are made of cast fiberglass, the rods are anchored Methods for chemical anchoring, as in the filter nonwoven fabric used package mark "Megasorb" or "Dornit".

To solve the problem, the filter for cleaning the liquid according to the second embodiment, comprising a filter element including rods vertically mounted and fixed at one end, and a filter bag of successively stacked layers of sorption-filtering cloth fixed to the rods, according to the invention, is equipped with a groove with a flat bottom, its filter bag is made with a working surface, an equal surface of the trough, its filter element is placed in the trough and is equipped with a supporting-clamping structure d, preventing the filter bag from floating up during filtering and sagging during drainage of the trough, including the indicated rods with external thread, upper and lower tension nuts with internal thread, counter thread of the rods, tubular compensating, upper and lower, supports, profile upper and lower clamping, longitudinal and transverse, and profile support, upper and lower, beams with a length corresponding to the length or width of the gutter, all beams and supports with holes designed for rods, not less than the outer diameter with the rod, as well as the upper and supporting lower grilles, both the size of the perimeter of the gutter and with clearances similar to the size of the indicated holes, while the rods are evenly distributed around the perimeter of the gutter and their lower ends are anchored to its bottom, on the rods with an emphasis on the bottom the lower tubular compensating supports are put on the troughs and the lower profile clamping beams are placed on them, which together with the supports provide horizontal installation of the lower support lattice at a given height, the lower lattice is mounted on the rods with support on said beams, the filter bag with the working surface and the edges mounted on the rods is located on the lower grate, and its edges are pressed against the grate by longitudinal and transverse profile clamping beams and fixed with lower tension nuts screwed with a compression ratio sufficient to hold the filter bag in operation , then to install the upper clamping lattice on the rods, the upper tubular compensating supports, which compensate for the remainder of the difference in thickness, are fitted with a support on the lower tension nuts bag in the initial and compressed state, the upper clamping grate, which prevents deformation of the working surface of the filter bag, is located horizontally on the filter bag, its edges are clamped on the rods between the lower, supported on the upper tubular compensating supports, and the upper profile support beams, and together with them fixed in a stable horizontal position by upper tension nuts, while the above rods, grids, nuts, beams and supports are made of a composite based on fiber reinforcing of material and a polymeric binder, and as a sorption filter web used nonwoven fabric of hydrophobic polymer fibers.

In particular cases of using the invention, fiberglass, basalt plastic, carbon fiber or combinations thereof are used as a composite, the grilles are made of pressed glass, carbon or glass carbon fiber, the rods are made of fiberglass pultruded profile with a threaded, carbon, basalt or fiberglass shell wound on it , the beams are made of a fiberglass pultruded profile of rectangular cross section, and the supports are made of a fiberglass pipe, the rods are anchored by chemical anchoring, as a non-woven cloth in the filter bag used cloth brand "Megasorb" or "Dornit".

Distinctive features of the prototype signs of the claimed filter according to the first embodiment are the following:

a) signs that provide a technical result in all cases:

- supplying the filter with a chute having a perimeter horizontal protrusion with a horizontal ledge and a channel along the bottom,

- the implementation of the filter bag with a working surface, an equal surface of the trough,

- placement of the filter element in the groove,

- supplying the filter element with a support-clamping structure that prevents the filter bag from floating during filtering and sagging when the channel is drained,

- the composition of the supporting-clamping structure, including rods with external thread, tension nuts, lower and upper, with internal thread, mating thread of rods, tubular compensating bearings, profile clamping, longitudinal and transverse, and profile supporting, upper and lower, beams, clamping upper and lower supporting, gratings,

- the length of the beams corresponding to the length or width of the gutter,

- supply of all of the listed beams and supports with holes intended for the rods, the size of not less than the outer diameter of the rod,

- the implementation of the clamping upper grille in the size of the perimeter of the gutter,

- the implementation of the lower supporting lattice in the size of the height and perimeter of the ledge,

- the size of the gaps in the light of the above-mentioned gratings, similar to the size of these holes in the beams and supports,

- uniform distribution of the rods along the protrusion of the gutter and the anchoring of their lower ends into the specified protrusion,

- placement of the lower support lattice on a ledge with overlapping channel,

- placing the filter bag with its edges on the rods and the location of its working surface on the lower grill,

- pressing the edges of the filter bag with longitudinal and transverse profile clamping beams and fixing their position together with the beams lower tension nuts,

- tightening the tension nuts with a compression ratio of the edges of the filter bag sufficient to keep it in operation,

- placement on the rods supported by the lower tension nuts of the tubular compensating supports, compensating for the remainder of the thickness difference of the filter bag in the initial and compressed state, for horizontal installation of the upper clamping grate,

- the location of the upper clamping grid, preventing deformation of the working surface of the filter bag, horizontally on the filter bag,

- holding in the clamped state the edges of the lattice on the rods between the lower, supported on tubular compensating supports, and the upper profile support beams and fixing them together with the beams in a stable horizontal position with the upper tension nuts,

- the implementation of the rods, nuts, gratings, beams and supports from a composite based on fiber reinforcing material and a polymer binder,

- the use of a non-woven fabric of hydrophobic polymer fibers as a sorption-filtering fabric;

b) the signs that provide a technical result in special cases:

- the use as a composite of fiberglass, basalt plastic, carbon fiber, or a combination thereof,

- the implementation of the lattices of pressed glass, carbon or glass fiberglass,

- the implementation of the rods of fiberglass pultruded profile with a threaded, wound on it coal, basalt or fiberglass shell,

- the implementation of all the support and clamping beams from a fiberglass pultruded rectangular profile, compensating supports - from a fiberglass pipe, nuts - from cast fiberglass,

- anchoring rods by chemical anchoring,

- use as a non-woven cloth in the filter bag cloth brand "Megasorb" or "Dornit".

Distinctive features of the prototype signs of the claimed filter according to the second embodiment are the following:

a) signs that provide a technical result in all cases:

- supplying the filter with a gutter with a flat bottom,

- the implementation of the filter bag with a working surface, an equal surface of the trough,

- placement of the filter element in the groove,

- supplying the filter element with a support-clamping structure that prevents the filter bag from floating up during filtration and its sagging when draining the gutter,

- the composition of the supporting-clamping structure, including rods with an external thread, upper and lower tension nuts with a female thread, reciprocal thread of the rods, tubular compensating, upper and lower, supports, profile upper and lower clamping, longitudinal and transverse, and profile supporting, upper and lower beams, clamping upper and supporting lower grilles,

- the length of the beams corresponding to the length or width of the gutter,

- supply of all of the listed beams and supports with holes intended for the rods, the size of not less than the outer diameter of the rod,

- the implementation of both grids, the clamping upper and lower supporting, the size of the perimeter of the gutter,

- the size of the gaps in the light of the above-mentioned gratings, similar to the size of these holes in the beams and supports,

- uniform distribution of the rods around the perimeter of the gutter and the anchor installation of their lower ends in the bottom of the gutter,

- placement on the rods with an emphasis in the bottom of the trough of the lower tubular compensating supports and on them the lower clamping profile beams, which together with the supports provide horizontal installation of the lower supporting lattice at a given height,

- placement of the lower lattice on the rods supported by these beams,

- the location of the filter bag with a working surface and edges mounted on rods on the lower grill,

- pressing the edges of the filter bag to the grate with longitudinal and transverse profile clamping beams and their fixation together with the beams lower tension nuts,

- tightening the tension nuts with a compression ratio of the edges of the filter bag sufficient to keep the bag in operation,

- placement on the rods supported by the lower tension nuts of the tubular compensating supports, compensating for the remainder of the thickness difference of the filter bag in the initial and compressed state, for horizontal installation of the upper clamping grate,

- the location of the upper clamping grid, preventing deformation of the working surface of the filter bag, horizontally on the filter bag,

- holding the edges of the said grating on the rods in a clamped state between the lower, supported on tubular compensating supports, and the upper profile support beams and fixing them together with the beams in a stable horizontal position of the lattice with the upper tension nuts,

- the implementation of the rods, nuts, gratings, beams and supports from a composite based on fiber reinforcing material and a polymer binder,

- the use of a non-woven fabric of hydrophobic polymer fibers as a sorption-filtering fabric;

b) the signs that provide a technical result in special cases:

- the use as a composite of fiberglass, basalt plastic, carbon fiber, or a combination thereof,

- the implementation of the lattices of pressed glass, carbon or glass fiberglass,

- the implementation of the rods of fiberglass pultruded profile with a threaded, wound on it coal, basalt or fiberglass shell,

- the implementation of all the support and clamping beams from a fiberglass pultruded rectangular profile, compensating supports - from a fiberglass pipe, nuts - from cast fiberglass,

- anchoring rods by chemical anchoring,

- use as a non-woven cloth in the filter bag cloth brand "Megasorb" or "Dornit".

These distinctive features, individually and collectively, are aimed at achieving the claimed technical result and are significant. In the prior art, the totality of the known and distinctive features presented in the claims is not known and, therefore, the invention meets the criterion of "novelty."

The claimed device for both options eliminates the multiplicity of filter elements in the filter and the discreteness of the filter package for individual elements inherent in the prototype, due to the following advantages:

- the presence in a single filter element of a single peripheral support and clamping structure that does not load the working surface of the filter bag and thereby contributes to the creation of optimal conditions for the filtering process and to increase the filter performance,

- the possibility of using the aforementioned support-clamping structure for filter bags of different thicknesses,

- other purpose of the rods that perform the support and fixing functions to hold the specified package, in contrast to the rods of the prototype with their only support function,

- the possibility of carrying out maintenance without stopping the filter by replacing the elements of the supporting-clamping structure,

- the execution of all the elements of the supporting-clamping device of a durable, non-corrosive, lightweight composite,

- the possibility of choosing a sorption filter cloth for the filter bag,

- ease of installation and dismantling,

- simplicity and ease of maintenance.

The claimed filter is designed as an element of fine cleaning of surface runoff from dispersed impurities by low-pressure filtration. It is placed after the steps of mechanical cleaning. However, this does not limit the possibilities of its application. With the appropriate choice of a sorption-filtering cloth, it can also be used for more rough cleaning.

The design of the filter is cost-effective, as it allows you to do without replacing the filter bag or individual layers of the sorption-filtering non-woven fabric throughout the life of the filter. It provides the possibility of peripheral retention of a large-sized (approximately 9 × 3 m ² ) filter bag with minimal deformation of its surface in the operating mode and minimal wear of its layers. Its support and clamping design allows the use of bags of different thicknesses and the regeneration (extraction) of the filter bag in place, without removing it from the trough. All elements of the supporting-clamping structure are made of lightweight, high-strength, corrosion-resistant composite, which increases the durability of the filter.

The invention is illustrated by a description of specific, but not limiting, examples of implementation and the accompanying drawings.

Figure 1 presents a fragment of the claimed filter for cleaning liquid in the first embodiment, a front view with local cross sections; figure 2 presents the supporting-clamping structure according to the first embodiment on the example of fixing the filter bag on one of the rods, front view; figure 3 is the same as in figure 1, for the filter according to the second embodiment, a front view with local cross sections; figure 4 is the same as in figure 2, for the supporting-clamping structure according to the second embodiment, front view.

The filter for cleaning liquid according to the first embodiment contains inlet-outlet devices for liquid (not shown), a filter element 1 and a groove 2, having a horizontal ledge 3 with a horizontal ledge 4 and a channel 5 along the bottom. The filter element 1 is placed in the groove 2 and consists of a supporting-clamping structure and a filter bag 6 (figure 1).

The supporting-clamping structure (Fig. 2), preventing the filter bag 6 from floating up while filtering and sagging when the channel 5 is drained, includes rods 7 with an external thread 8, upper 9 and lower 10 tension nuts with an internal thread 11, a mating thread 8 of the rods 7 , profile clamping longitudinal 12 and transverse 13 beams, profile supporting upper 14 and lower 15 beams, tubular compensating supports 16, clamping upper grille 17 and supporting lower grill 18.

Beams 12, 13, 14, 15 and supports 16 have openings 19, and gratings 17 and 18 have openings 20 in the light of at least the size of the outer diameter of the rod 7. Holes 19 in beams 12, 13, 14, 15 are made in accordance with the places of the intended placing the rods in them 7. The length of the longitudinal beams 12 corresponds to the length of the groove 2, and the transverse 13 to its width.

The clamping upper grille 17 is made in the size of the perimeter of the gutter 2, and the supporting lower 18 in the size of the height and perimeter of the ledge 4.

The rods 7 are evenly distributed over the protrusion 3 of the gutter 2 and the lower ends 21 are anchored into the protrusion 3 by chemical anchoring (FIGS. 1, 2, cross section). The lower grill 18 is placed horizontally on the ledge 4 with the channel 5 overlapping. The filter bag 6 with its working surface 22 lies on the grill 18, and with its edges 23 it is mounted on the rods 7, pressed by the profile clamping beams 12 (Figs. 1, 2, transverse section) and 13 also mounted on the rods 7, and fixed together with them lower tension nuts 10 (figure 2, cross section), screwed with a compression ratio of the edges 23, sufficient to keep it in operation. To prevent deformation of the working surface 22 of the package 6, the upper clamping lattice 17 is horizontally located on it. To achieve the horizontal position of the lattice 17, the rods 7 are fitted with tubular supports 16 placed against the lower tension nuts 10 (Figs. 1, 2, transverse section). The lattice 17 with its edges 24 is mounted on the rods 7, clamped on them between the lower 15 and the upper 14 profile support beams (1, 2, transverse section), mounted on the bottom and top of it and fixed in a stable horizontal position by the upper tension nuts 9 screwed onto rods 7 with an emphasis in beams 14.

The tubular supports 16 compensate for the remainder of the thickness difference of the filter bag 6 in the initial and compressed states after subtracting from it the heights of the clamping 12 and the lower supporting 15 of the beams and the lower nut 10.

The filter bag 6 is made with a working surface, an equal surface of the trough. It consists of fifteen to twenty layers of 25 adsorption-filtering non-woven fabric made of hydrophobic polymer fibers of the Megasorb brand laid sequentially on each other.

The filter for cleaning liquid in the second embodiment differs from the filter in the first embodiment in that its groove 26 has a flat bottom 27 without a protrusion, the lower support grid 28 of its support-clamping device is made in the size of the perimeter of the groove 26 and is installed horizontally on the rods 7 at a given height with the help of additional lower compensating supports 29 and lower pressure profile beams 30, similar to beams 12 and 13 of the first embodiment. The rods 7 are anchored into the bottom 27 along the perimeter of the groove 26. Supports 29 are mounted on the rods 7 with an emphasis on the bottom 27, the lower clamping beams 30 are inserted, the lower grill 28 is mounted and the filter bag 6 is placed on it as described in the first embodiment the difference is that the edges of the packet 6 are pressed by the clamping beams 12 and 13 together with the edges of the lattice 28 and are fixed with the lower tension nuts 10 to give the edges of the packet 6 an appropriate compression ratio and the lattice 28 of a stable horizontal position. Further, the construction of the second embodiment is similar to the construction of the first embodiment.

Rods 7, nuts 9 and 10, lattices 17, 18, 28, beams 12, 13, 14, 15, 30 and supports 16 and 29 are made of a composite based on fiber reinforcing material and a polymer binder, with lattices 17, 18 and 28 made of pressed glass, carbon or fiberglass, rods 7 are made of fiberglass pultruded profile with a threaded, wound carbon, basalt or fiberglass shell, beams 12-15 and 30 are made of fiberglass pultrusion profile of rectangular cross section, supports 16 and 29 - from a fiberglass pipe, and nuts 9, 10 - of cast fiberglass.

The filter works as follows.

The untreated wastewater that has undergone mechanical cleaning at a speed of 5-10 m / h is fed from the bottom up to the chute 2 under the lower grate 18 (first option) or 28 (second option) to the working surface 22 of the filter bag 6. In layers 25 of the bag 6 occurs dispersed impurity filtration. The filtered liquid is drained through the upper grill 17.

The filter is also possible when the fluid moves in the opposite direction.

The regeneration of the filter is carried out in place by extraction or reverse fluid flow. For mechanical extraction, the chute 2 (the first option) or 26 (the second option) is drained, the tension nuts 9 are removed, the upper support beams 14, the upper pressure grate 17, the lower support beams 15, then the package 6 is pressed by rolling the roller, after which the removed elements are installed back . Regeneration by reverse current does not require disassembly.

The claimed filter according to any of the options is made in the conditions of urban economy by construction organizations.

Claims (14)

1. A filter for cleaning a liquid, comprising a filter element including rods vertically mounted and fixed at one end, and a filter bag of successively stacked layers of sorption-filter web attached to the rods, characterized in that it is provided with a groove having the perimeter is a horizontal protrusion with a horizontal ledge and a channel along the bottom, its filter bag is made with a working surface, an equal surface of the trough, its filter element is placed in the trough and is equipped with a support with a clamp design that prevents the filter bag from floating up during filtering and sagging when the channel is drained, including the indicated rods with external threads, lower and upper nuts, internal threads, mating threads of the rods, tubular compensating supports and profile clamping, longitudinal and transverse, and profile support, upper and lower, beams with a length corresponding to the length or width of the gutter, all beams and supports with holes designed for rods, not less than the outer diameter of the rod, and the upper clamping one, the size of the gutter perimeter, and the supporting lower one, the size of the height and the perimeter of the ledge, gratings with clear spaces similar to the size of the indicated holes, while the rods are evenly distributed along the ledge of the gutter and their lower ends are anchored into it, the lower supporting grating placed on a ledge with a channel overlap, the filter bag with its edges mounted on the rods, and the working surface located on the lower grill, its edges on the rods are pressed with longitudinal and transverse profile pressure beams and fixed with together with the lower tension nuts screwed with a degree of compression of the edges sufficient to hold the filter bag in operating mode, then to install the upper clamping grate on the rods put on support with the lower tension nuts tubular compensating bearings, compensating for the remainder of the difference in thickness of the filter bag in the original and compressed state, the upper clamping grid, which prevents deformation of the working surface of the filter bag, is located horizontally on the filter bag, its edges are clamped on the rods Between the lower, supported on tubular compensating supports, and the upper profile support beams, and together with them fixed in a stable horizontal position by the upper tension nuts, while the above rods, nuts, gratings, beams and supports are made of a composite based on fiber reinforcing material and polymeric binder, and as a sorption-filtering fabric used non-woven fabric of hydrophobic polymer fibers. 2. The filter according to claim 1, characterized in that fiberglass, basalt plastic, carbon fiber, or combinations thereof are used as the composite. 3. The filter according to claim 1, characterized in that the gratings are made of pressed glass-, carbon- or fiberglass. 4. The filter according to claim 1, characterized in that the rods are made of fiberglass pultruded profile with a threaded, wound on it, carbon, basalt or fiberglass shell. 5. The filter according to claim 1, characterized in that the beams are made of fiberglass pultruded profile of rectangular cross-section, the supports are made of fiberglass pipes, and the nuts are made of cast fiberglass. 6. The filter according to claim 1, characterized in that the rods are anchored by chemical anchoring. 7. The filter according to claim 1, characterized in that as a non-woven fabric in the filter bag used fabric brand "Megasorb" or "Dornit". 8. A filter for cleaning a liquid, comprising a filter element including rods vertically mounted and fixed at one end, and a filter bag of successively stacked layers of sorption-filter web attached to the rods, characterized in that it is provided with a gutter with a flat bottom , its filter bag is made with a working surface, an equal surface of the trough, its filter element is placed in the trench and is equipped with a supporting-clamping structure that prevents the filter bag from floating during filtration and its sagging during drainage of the trough, including the indicated rods with external thread, upper and lower tension nuts with internal thread, reciprocal thread of rods, tubular compensating, upper and lower, supports, profile upper and lower pressure, longitudinal and transverse, and profile supporting, upper and lower, beams with a length corresponding to the length or width of the gutter, all beams and supports with holes designed for the rods, the size of not less than the outer diameter of the rod, as well as the upper and lower supporting clamp lattice, both in the size of the perimeter of the gutter and with clear spaces similar to the size of the indicated holes, while the rods are evenly distributed around the perimeter of the gutter and their lower ends are anchored in its bottom, lower tubular compensating supports are put on the rods with an emphasis on the bottom of the gutter and they placed the lower clamping beams, which together with the supports provide horizontal installation of the lower supporting lattice at a given height, the lower lattice is mounted on the rods supported by the specified beams, the filter package with the working surface and with the rods mounted on the rods, it is located on the lower grate, and its edges are pressed to the grate by the upper longitudinal and transverse profile clamping beams and are fixed with lower tension nuts screwed with a compression ratio sufficient to hold the filter bag in operation, then to install the upper clamping grate the upper tubular compensating bearings, which compensate for the remainder of the difference in thickness of the filter bag in the initial and compressed state, are placed on the rods supported by the lower tension nuts, the upper the compression grill to prevent deformation of the working surface of the filter bag is horizontally on the filter bag, its edges are clamped on the rods between the lower, supported on the upper tubular compensating supports, and the upper profile support beams, and together with them are fixed in a stable horizontal position by the upper tension nuts, wherein the above rods, grids, nuts, beams and supports are made of a composite based on fibrous reinforcing material and a polymer binder, and as sorption-filter fabric used non-woven fabric of hydrophobic polymer fibers. 9. The filter according to claim 8, characterized in that fiberglass, basalt plastic, carbon fiber, or combinations thereof are used as the composite. 10. The filter according to claim 8, characterized in that the grilles are made of pressed glass, carbon or fiberglass. 11. The filter of claim 8, wherein the rods are made of fiberglass pultruded profile with a threaded, wound on it, carbon, basalt or fiberglass shell. 12. The filter of claim 8, characterized in that the beams are made of fiberglass pultruded profile of rectangular cross-section, the supports are made of fiberglass pipes, and the nuts are made of cast fiberglass. 13. The filter of claim 8, wherein the rods are anchored by chemical anchoring. 14. The filter of claim 8, characterized in that as a non-woven fabric in the filter bag used cloth brand "Megasorb" or "Dornit".

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