RU2476640C1 - Submersible water intake filter - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: filter comprises a cylindrical body, the axis of which is arranged horizontally and in parallel to a flow of cleaned fluid, representing a shell, filtering elements and a distribution device. Inside the body there is a header, with perforated pipes welded to it. Outside the body along the outer perimetre of the filter below the filtering element arranged between the body and the shell with a deflector, at the side of cleaned fluid flow movement there is a wedge-shaped perforated header installed. There is a vibrator installed on the body shell. Filtering elements are arranged of tubular shape with the external filtering surface, representing slot grates arranged in the form of a cylindrical spiral from a high-precision V-shaped bar with an anti-adhesion biologically inert coating and are fixed at both sides of the body.

EFFECT: higher reliability of device operation, efficiency of its cleaning from sludge ice and debris, and provides for protection of young fishes against getting into a water intake.

6 cl, 4 dwg

Description

The invention relates to hydraulic engineering, to devices for treating natural waters, and is intended to protect a water intake structure from ingress of mechanical impurities, such as sludge, as well as to protect juvenile fish from falling into a water intake structure.

The task of any water intake facility is the uninterrupted supply of the required water consumption to consumers.

At the same time, measures aimed at preventing freezing and blocking of filter barriers with mechanical impurities and measures preventing juvenile fish from entering water intake structures have a special role in the successful operation of water supply systems.

There are known designs of water intake filters, a common feature of which is the presence of water-filtering surfaces - mesh, perforated or louvered, as well as means that prevent direct juvenile fish from contacting these surfaces.

Known water intake fish filter, containing a rotationally mounted main mesh truncated cone, facing the apex to the intake, and means for washing its mesh, while inside the main cone are coaxially placed one in the other and the second and third mesh truncated cones combined with the main concurrently directed, while the smaller open base of the third cone is connected with the fish outlet, its larger base is connected to the smaller base of the second cone, which is diametrically equal to it, the larger base of which is connected EHO with a smaller base of the cone rybonapravlyayuschim annular main tray connected to rybootvodom hollow spokes (patent RU 2208096, IPC E02B 8/08, published 10.07.2003).

Known water intake fish filter, containing at least one predominantly removable cartridge, the filtering surface of which is formed by the outer and inner parallel louvered surfaces, in which their component plates have an opposite angle, the installation step of the outer plates is twice as large as the inner one, and the distance between the outer and inner surfaces is equal to the pitch of the inner plates (patent RU 2313634, IPC E02B 8/08, published December 27, 1997).

A filter of a water intake structure with a fish protection device is known, including a water intake pipe with a suction hole located horizontally in a water stream, 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 its offset end parts along the axis of the intake pipe having suction holes formed in the space between the outer surface of the rings less its diameter and the inner surface of the rings of larger diameter, a means for the preliminary detention of juvenile fish and garbage (patent US 6051131, IPC E02B 5/08, published 04/18/2000).

The disadvantage of these devices is the low productivity and low cleaning efficiency of the filtering surfaces.

The objective of the invention is the creation of a submersible water intake filter that improves its operational characteristics, improves reliability and reduces the cost of its preventive maintenance (cleaning).

The problem is solved due to the fact that in the submersible water intake filter containing a cylindrical body, the axis of which is horizontally and parallel to the flow of the liquid being cleaned, which is a shell, filter elements, switchgear, a collector with perforated pipes welded to it is located inside the body, outside the body along the outer perimeter of the filter below the filter element located between the housing and the cowl with a cowl, on the side of the flow of the liquid being cleaned A wedge-shaped perforated collector is installed, a vibrator is installed on the shell of the housing, the filter elements are made in a tubular shape with an outer filtering surface, are slotted gratings, made in the form of a cylindrical spiral from a high-precision V-shaped profile with a biologically inert anti-adhesive coating and are fixedly fixed on both sides corps.

In addition, the length of the perforated manifold pipes is not less than the sum of the lengths of the two filter elements and the housing.

In addition, the wedge-shaped perforated manifold is equipped with a cross-shaped switchgear, consisting of two perpendicularly arranged pipes passing through the front additional support.

In addition, the V-shaped profile creates a rigid screen with longitudinal slits of a strictly defined size, which can be made with a size of Δ = 100-5000 μm with a tolerance of a gap width of up to ± 15 μm.

In addition, filter elements have parameters for which the condition

L = 0.8-1.2 D,

Where

D is the diameter of the filter element;

L is the length of the filter element.

In addition, the switchgear consists of two concentric pipes, with a smaller diameter pipe located inside the larger diameter pipe with a displacement of its end part along the axis of the intake pipe, has two suction holes - one formed in the space between the outer surface of the pipe of smaller diameter and the inner surface pipes of larger diameter, and the second equal to the diameter of the pipe of smaller diameter. The conditions are satisfied

d ₁ = (0.5-0.6) _* D;

d ₂ = (0.6-0.8) _* d ₁ ;

I ₁ = (0.14-0.2) _* L;

I ₂ = (0.6-0.8) _* L,

Where

d ₁ - the diameter of the outer pipe of the switchgear,

d ₂ - the diameter of the inner pipe of the switchgear,

l ₁ - the length of the outer pipe of the switchgear,

l ₂ - the sum of the length of the outer pipe and the protruding part of the inner pipe of the switchgear.

The invention is illustrated by drawings.

Figure 1 is a General view of a submersible intake filter.

Figure 2 - submersible water intake filter, bottom view.

Figure 3 - submersible intake filter, frontal section.

Figure 4 - cross section of the filter element

The submersible water intake filter includes a cylindrical housing 1, the axis of which is horizontally and parallel to the flow of the liquid being cleaned, is a shell, to the lower part of which a pipe 2 is connected by welding to drain the purified water. On both sides of the housing 1, tube-shaped filtering elements 3 are fixedly fixed with an outer filtering surface, which are slotted gratings made in the form of a cylindrical spiral of a high-precision V-shaped profile with a biologically inert anti-adhesive coating, fixed by welding to supporting elements at each point their intersections, while the supporting elements are located in the inner cavity of the filter element 3, and the V-shaped profile creates a rigid screen with longitudinal slots strictly defined size, which can be made with a size of Δ = 100-5000 μm with a tolerance on a slit width of up to ± 15 μm.

In this case, the condition L = 0.8-1.2 D,

Where

D is the diameter of the filter element;

L is the length of the filter element.

At the other ends, the filter elements 3 are fixedly connected, for example, by welding to the shells 4, having additional supports 5 ending in the mounting cones 6. At the end of the shell 4, directed towards the flow of the liquid to be cleaned, the cowling 7, which is a truncated cone in the form of a truncated cone, is fixed, protects the filter from falling into its internal cavity of random large or long objects. At the end of the other shell, a cap 8 is fixed, having an elliptical shape.

For hoisting-and-transport operations, cargo ears 9 are welded to the shell of housing 1, and for ears, additional ears 10 are welded to the shells 4.

To form a uniform flow along the entire length of the filter inside the filter elements, a switchgear 11 is installed, consisting of two concentric pipes, while a pipe of a smaller diameter is located inside the pipe of a larger diameter with a displacement of its end part along the axis of the intake pipe, having two suction holes - one formed in the space between the outer surface of the pipe of smaller diameter and the inner surface of the pipe of larger diameter, and the second equal to the diameter of the pipe of smaller diameter. The conditions are satisfied

d ₁ = (0.5-0.6) _* D;

d ₂ = (0.6-0.8) _* d ₁ ;

l ₁ = (0.14-0.2) _* L;

l ₂ = (0.6-0.8) _* L,

Where

d ₁ - the diameter of the outer pipe of the switchgear,

d ₂ - the diameter of the inner pipe of the switchgear,

l ₁ - the length of the outer pipe of the switchgear,

l ₂ - the sum of the length of the outer pipe and the protruding part of the inner pipe of the switchgear.

Inside the housing 1 there is a collector 12 with perforated pipes 13 welded to it, the length of which is not less than the sum of the lengths of the two filter elements and the housing, which ensure cleaning of the filter elements with compressed air supplied through a nozzle 14 installed inside the pipe 2.

Below the filter element 3, located between the housing 1 and the casing 4 with the cowling 7, outside the housing 1 along the outer perimeter of the filter from the side of the flow of the cleaned liquid, there is a wedge-shaped perforated manifold 15 with a cross-shaped distribution device 16, consisting of two perpendicularly arranged pipes passing through the front additional support 5, which ensures rigidity of the contour of the perforated collector 15. To supply compressed air to the wedge-shaped perforated collector 15 is installed tucer 17. On the side of the housing 1 is installed a vibrator 18.

The operation of the submersible intake filter with a dynamic module is as follows.

When you turn on the pump in the water supply system (not shown in the drawings), water from the water source enters through the filter elements 3 into the submersible water intake filter, where the switchgear 11 ensures uniform flow of fluid.

Compressed air is supplied into the nozzle 17, then entering through a cross-shaped switchgear 16 into a wedge-shaped perforated collector 15. The air bubbles leaving the collector create an air curtain and contribute to the dissection of a snow-ice clot.

In addition, to prevent the formation of an ice crust, a release biologically inert, harmless to the body coating is provided and a periodically activated vibrator 18 is installed.

Young fish cannot penetrate into the device through the filter elements 3, the sizes of the slots of which are taken less than the transverse dimensions of the fry.

When the slots of the filter elements 3 become clogged, compressed air is periodically supplied to the manifold 12.

The proposed ratios of the parameters of the device are selected by calculation, confirmed by testing the model of the device, rounded to the nearest integer and are optimal for the task.

The proposed device has a simple design, which can significantly simplify the layout of the water intake unit, increase the efficiency of its cleaning from sludge and debris, and protect young fish from getting into the water intake.

Periodic cleaning mode of the device is more economical in terms of energy consumption.

When operating a submersible intake filter, environmental safety is ensured.

Filters of this design can be used in a wide range of performance.

Claims (6)

1. Submersible water intake filter containing a cylindrical body, the axis of which is horizontally and parallel to the flow of the liquid being cleaned, comprising a shell, filter elements, a switchgear, characterized in that a collector with perforated pipes welded to it is located inside the body, along the outside perimeter a filter below the filter element located between the housing and the cowl with a cowl, wedges are installed on the side of the flow of the liquid to be cleaned perforated collector on the housing shell is mounted vibrator, the filter elements are of tubular shape with an outer filtration surface representing slotted grating formed in the shape of a cylindrical helix profile precision V-shaped with a release coating of biologically inert and are fixed on both sides of the housing. 2. Submersible water intake filter according to claim 1, characterized in that the length of the perforated manifold pipes is not less than the sum of the lengths of the two filter elements and the housing. 3. The submersible water intake filter according to claim 1, characterized in that the wedge-shaped perforated collector is equipped with a cross-shaped switchgear, consisting of two perpendicularly arranged pipes passing through the front additional support. 4. The submersible water intake filter according to claim 1, characterized in that the V-shaped profile creates a rigid screen with longitudinal slots of a strictly defined size, which can be made with a size of Δ = 100-5000 μm with a tolerance of a gap width of up to ± 15 μm. 5. Submersible water intake filter according to claim 1, characterized in that the filter elements have parameters at which the condition
D = 0.8-1.20,
where D is the diameter of the filter element;
L is the length of the filter element. 6. The submersible water intake filter according to claim 1, characterized in that the switchgear consists of two concentric pipes, the smaller diameter pipe being located inside the larger diameter pipe with a displacement of its end part along the axis of the intake pipe, having two suction openings - one formed in the space between the outer surface of the pipe of smaller diameter and the inner surface of the pipe of larger diameter, and the second, equal to the diameter of the pipe of smaller diameter, while the conditions
d ₁ = (0.5-0.6) D;
d ₂ = (0.6-0.8) d ₁ ;
l ₁ = (0.14-0.2) L;
l ₂ = (0.6-0.8) · L,
where d ₁ is the diameter of the outer pipe of the switchgear;
d ₂ - the diameter of the inner pipe of the switchgear;
l ₁ - the length of the outer pipe of the switchgear;
l ₂ - the sum of the length of the outer pipe and the protruding part of the inner pipe of the switchgear.

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