RU2483033C1 - Water intake filter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to waterworks and is intended for water intake from open water bodies and its filtration. Proposed filter comprises housing with pipe to be connected to offtake manifold, filtration elements, distributor, filter generator shaped to rectangular parallelepiped turned through 45 degrees with respect to horizon and having square ends. Its central part accommodates rectangular case with branch pipe arranged in symmetry about its bottom rib at its bottom. Filtration elements are composed by rectangular grates arranged on square carcass, said grates representing a welded slotted shield made from V-section wire. Filter regenerator consists of manifold with tubes connected thereto and located along filtration elements extending through housing end peripheral holes to embrace stiffness rings and be located opposite every rectangular grate, right at its center. Every tune has several conical nozzles turned to filtration elements surface.

EFFECT: higher efficiency of filtration.

6 cl, 4 dwg

Description

The invention relates to hydraulic engineering, to devices for the purification of natural waters, and is intended for the intake and filtration of water from open reservoirs.

There are known designs of water intake filters, a common feature of which is the presence of water-filtering surfaces - mesh, perforated or louvered.

A water filter with a dynamic module is known, comprising a housing, a series of rings of successively decreasing diameter installed in it, the size of the slots between the rings is constant, an ejector, a nozzle for the entrance of contaminated liquid, a nozzle for the outlet of purified water, a nozzle for the exit of impurities, characterized in that the ejector connected to the pump and installed inside the fitting for the release of impurities, fixed in the through hole of the bottom of the housing, the fitting for the input of contaminated liquid is a flow stabilizer, at one end to the housing, a protective device in the form of a mesh cylinder is installed at the other end, at the end of which a cowl is mounted, which is a conical chipper, and a series of rings of successively decreasing diameter mounted in the housing forms a dynamic module, while the rings are interconnected by support elements located outside and attached to the shell in the form of a truncated cone, the inner surface of each ring has a streamlined shape on the side of the flow of the cleaned liquid awns.

RF patent 2335326, IPC B01D 24/44, publ. 10/10/2008.

Known intake filter, including a filter element, which is a combination of chevron louvre plates, forming a set of parallel bent pipes of rectangular cross section. The elbow of each pipe is the angular joint of two segments of different lengths, the short of which is facing the water intake, and the minimum length of the larger of the segments is determined by the dependence.

RF patent No. 2371540, IPC E02B 8/00, publ. 10/27/2009.

The disadvantages of the device is the low washing efficiency of the filters.

A water intake filter is known, which is a fixed mesh drum, inside of which there is a filter regeneration device in the form of a mounted coaxially rotationally water-jet flute (means for washing the mesh cloth of the drum). During operation, the debris, pressed by a stream of water to the outer wall of the drum, is periodically beaten off by high-pressure water jets flowing radially from the flute holes to the drum.

A.S. USSR 1528853, IPC E02B 8/08, publ. 12/15/1989

A filter of a water intake structure is known, including a water intake pipe with a suction hole located horizontally in a watercourse, a suction head coaxially arranged with it, made of several coaxially mounted rings of different diameters, with each ring of a smaller diameter located inside a ring of a larger diameter with an offset of its end part along the axis of the intake pipe having suction openings formed in the space between the outer surface of the rings of smaller diameter and the inner surface rings of larger diameter.

Patent US 6051131, IPC E02B 5/08, publ. 04/18/2000.

The disadvantages of these devices are the design complexity, uneven filtration rate and high flow rate of the washing liquid during the regeneration of filter elements.

The problem to which the invention is directed is to simplify the design, increase productivity and service life of the filter, reduce the cost of its manufacture, simplify manufacturing and preventive maintenance.

The problem is solved due to the fact that the intake filter containing a housing with a nozzle for connection to the collector of the intake system, filter elements, switchgear, filter regeneration device, is made in the form of a rectangular parallelepiped rotated by 45 degrees with the square ends, in the central part of which is a rectangular housing with a nozzle mounted symmetrically to the lower edge of the housing in its lower part, the filter elements are formed by data on the frame, the cross section of which has a square shape, rectangular grilles, which are a welded slotted screen made of V-shaped wire, the filter regeneration device consists of a collector and pipes attached to it, located along the filter elements passing through the peripheral holes of the housing end, covering stiffening rings and located opposite each rectangular lattice in the middle, while each tube has a series of conical nozzles deployed to the surface of the filter ruyuschih elements.

In addition, from the outside of one filtering element, a pyramid-shaped cowl fairing is directed towards the flow of the liquid being cleaned, and the end face of the other is closed by a flat bottom.

In addition, the switchgear is a pipe with variable perforation, fixedly mounted in the central through hole of the housing end, the pipe length is 3/4 of the length of the filter element, while the diameter of all perforation holes is the same, and variable perforation is provided by increasing the number of perforations from the free edge of the pipe to the end of the pipe, fixedly mounted in the through hole of the housing.

In addition, the collector of the regeneration device is wrapped with an electric heating element.

In addition, rectangular grilles are fixed to the frame motionless.

In addition, the rectangular grilles are removable for access to the elements of the regeneration device and the distribution device.

The invention is illustrated by drawings.

Figure 1 - water intake filter, General view.

Figure 2 - frame intake filter.

Figure 3 - switchgear with variable perforation.

Figure 4 - flushing piping system.

The water intake filter is made in the form of a rectangular parallelepiped with square ends turned 45 degrees relative to the horizon, in the central part of which there is a rectangular case 1, with a pipe 2 installed symmetrically to the lower edge of the case in its lower part, on each end of the case 1 there are central and peripheral through holes, on both sides of the housing there are filter elements 3 formed by mounted on the frame 4, the cross-section of which has a square shape, rectangular grilles 5. Sieve ki 5 are a welded slotted screen made of V-shaped wire.

On the outside of one filter element 3, a cowl 6 in the form of a pyramid is connected directed towards the flow of the liquid being cleaned, and the end face of the other is closed by a flat bottom 7.

Inside each filter element 3 there is a switchgear 8, which is a pipe with variable perforation, fixedly mounted in the central through hole of the housing end, the pipe length is 3/4 of the length of the filter element, while the diameter of all perforation holes is the same, and variable perforation is ensured by increasing the number of perforations from the free edge of the pipe to the end of the pipe, fixedly mounted in the through hole of the housing.

Inside the intake filter there is a filter regeneration device 9, consisting of a collector 10 and pipes 11 attached thereto, located along the filter elements 3, passing through the peripheral openings of the housing end, covering the stiffening rings 12 and located opposite each rectangular grid 5 in the middle. On each pipe 10 is a series of conical nozzles deployed to the surface of the filter elements. The collector 10 of the regeneration device 9 is wrapped with an electric heating element (not shown).

The lattice 5 can be fixed on the frame 4 motionless or made removable for access to the elements of the regeneration device 9 and the distribution device 8.

The operation of the intake filter is as follows.

The water flow passes through the slots of the filter elements 3 then flows through the switchgear 8 into the housing 1 and through the pipe 2 enters the collector of the intake system.

In order to prevent the surface of the filter elements 3 from becoming contaminated with dirt, the flushing liquid (water) or air is supplied to the collector 10 of the filter regeneration device 9, and the filter gratings are cleaned through the rows of conical nozzles deployed to the surfaces of the filter grates. Water flushing allows you to hide the installation site of the water intake and ensure the safety of navigation in navigable water bodies.

The presented design allows you to guarantee the mechanical integrity of the regeneration device, due to its location inside a strong frame. To ensure effective washing in the winter, first heating is turned on, and then equipment for backwashing the surface of the filter element located on the shore of the reservoir is turned on. The washing system is switched on periodically at a predetermined time interval, which, in addition to cleaning itself, also provides prevention of pollution control and, as a result, effective energy saving.

This design of the intake filter in comparison with filters of oval or circular cross-section allows you to:

- increase the filtration surface by 35%;

- reduce manufacturing costs by 10% while maintaining the same filter specifications;

- reduce the filtering rate by 20%;

- reduce operating costs by simplifying the design of nodes and filter parts;

- reduce the period of repair work due to the simplification of technological operations;

- has the ability to change the degree of filtration by replacing the filter grilles.

Claims (6)

1. The intake filter, comprising a housing with a pipe for connecting to the collector of the intake system, filter elements, a switchgear, a filter regeneration device, characterized in that it is made in the form of a rectangular parallelepiped with square ends turned 45 ° relative to the horizon, in the central part of which there is a rectangular housing with a nozzle installed symmetrically to the lower edge of the housing in its lower part, the filter elements are formed mounted on the frame, the cross section It has a square shape, rectangular grilles, which are a welded slotted screen made of V-shaped wire, the filter regeneration device consists of a collector and pipes connected to it, located along the filter elements passing through the peripheral holes of the housing end, covering the stiffening rings and located opposite each rectangular lattice in the middle, while on each pipe there is a series of conical nozzles deployed to the surface of the filter elements. 2. The intake filter according to claim 1, characterized in that on the outside of one filtering element a cowl in the form of a pyramid directed towards the flow of the liquid being cleaned is attached, and the end face of the other is closed by a flat bottom. 3. The intake filter according to claim 1, characterized in that the distribution device is a pipe with variable perforation, fixedly mounted in the central through hole of the housing end, the pipe length is 3/4 of the length of the filter element, while the diameter of all perforation holes is the same, and variable perforation is provided by increasing the number of perforations from the free edge of the pipe to the end of the pipe, fixedly mounted in the through hole of the housing. 4. The intake filter according to claim 1, characterized in that the collector of the regeneration device is wrapped with an electric heating element. 5. The intake filter according to claim 1, characterized in that the rectangular grilles are fixed to the frame motionless. 6. The intake filter according to claim 1, characterized in that the rectangular grilles are removable for access to the elements of the regeneration device and the distribution device.

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