UA11806U - Self-cleaning hydrodynamic filter - Google Patents

Abstract

The self-cleaning hydrodynamic filter contains cylindrical vertical housing with upper and bottom covers, with the partition forming filtering and precipitating chambers, located in the housing with radial clearance filter element, inlet and outlet ducts, branch pipe and stop body for draining of contaminated liquid, ejector and circulating conduit, one end of which is connected with the cavity of reduced pressure of ejector. Inlet duct is connected with the housing tangentially. Circulating conduit is connected to the branch pipe, which from other side is tangentially connected with the conical deflector.

Description

Description of the invention

The useful model belongs to devices for cleaning liquid from mechanical pollution and can be used to clean powerful flows of technical liquid at industrial enterprises.

A known self-cleaning filter, which contains a cylindrical vertical housing with bottom and top covers, at least one partition, forming chambers of contaminated liquid and filtrate, nozzles for supplying contaminated liquid, draining filtrate and draining impurities and an inspection hatch, a backwash device installed in the housing of the filtering element , the outlet of which is connected to the atmosphere through the closing body 70 | Declaration patent OA Mo35196 A).

The disadvantage of the known invention is that the contaminated liquid is fed along the diameter of the filter element perpendicularly to the cylinder of the filter element, which does not contribute to self-cleaning of the filter element. In addition, for self-cleaning of the filter element, it is necessary to turn on the electric drive, which reduces the reliability of the device.

The closest to the object of the utility model in terms of its technical essence and the achieved effect is a self-cleaning 12 filter for filtering liquid, which consists of a cylindrical vertical housing in which a filter element, inlet, outlet and drainage nozzles, an ejector and a circulation pipeline, one end of which is located with an annular gap connected to the cavity of the reduced pressure of the ejector, and the second is connected to the drainage nozzle, the drainage nozzle is made in the form of connecting and draining nozzles and a sedimentation chamber located between them, to the upper part of the body of which the circulation and connecting nozzle are attached, and to the lower its parts are the drain pipe (Patent for the invention of the United States of America Mo48715 SI.

The disadvantage of this prototype is that it does not provide sufficient degrees of cleaning of the self-cleaning liquid of the filter element. This is due to the fact that the liquid is supplied and removed along the diameter perpendicular to the forming cylindrical filter element, which creates stagnation zones and worsens the self-cleaning effect of the filter element.

The technical task of the useful model is to improve the design of the self-cleaning filter, in which thanks to the tangential supply of liquid to the filter inlet, the presence of a filter element made of porous polymer concrete, the presence of a conical deflector in the sedimentation chamber and the tangential connection of the circulation pipeline to the conical deflector, an increase in the quality of liquid purification and an increase in the term of the filter.

The task is achieved by the fact that in the self-cleaning filter, which is a cylindrical body, in which the filter element is located with an annular gap, the inlet, outlet and drain nozzles, the ejector and the circulation pipeline, one end of which is connected to the cavity of the reduced pressure of the ejector, and the other connected to the deflector, according to the useful model, the connected body is made in the form of connecting and draining nozzles and a sedimentation chamber located between them, to the lower part of which the drain -/- pe pipeline is connected, and the deflector, to which the circulation pipeline is connected, at the same time, the inlet pipeline connected to the filter housing 3 is located tangentially, the sedimentation chamber housing is made with a conical bottom and is connected to the bottom of the filter housing.

Figure 1 shows a vertical section of the proposed self-cleaning filter, and Figures 2 and 3 show transverse sections. "

The filter consists of a cylindrical body 1 with a cover 2 and a bottom 3, in which a filter element 5 made of porous polymer concrete is located with an annular gap 4. The inlet pipe 6 is tangentially connected to the upper part of the side surface of the housing 1, and the outlet pipe 7 is connected to the cover 2. To the bottom of the housing 1 is connected

From" housing 8 with a conical bottom 9 and a deflector 16, which form a deposition chamber 10. An ejector 11 is attached to the inlet nozzle 6, the cavity 12 of which is of reduced pressure is connected to the inlet nozzle 6 and the circulation pipeline 13, with the upper part of the deposition chamber 10 and the cavity of the deflector 16, which in turn are connected to the annular gap 4. In the lowest place of the sedimentation chamber 10, a drain pipe 14 with a shut-off valve 15 is attached to its body 8. In addition, the filter is equipped with manometers 17 and 18, by the readings of which it is possible to judge the pressure of the liquid being cleaned and the condition of the filter element.

The self-cleaning filter works like this. because the liquid to be cleaned is fed under pressure through the ejector 11 and the inlet pipe b into the housing 1 of the filter av! 20 tangentially, where it receives a circular motion in the annular gap 4. Most of the liquid is filtered passing through the filter element made of porous polymer concrete to the outlet nozzle 7. Since the liquid has a constant component of velocity along the surface of the filter element when entering the housing, it does not allow sediment to form on the surface of the filter element and makes it difficult for pollution particles to enter the pores of the filter element, which significantly increases the life of the filter element. 29 The movement of the liquid through the ejector 11 creates a reduced pressure in its cavity 12, due to which the cleaning liquid c from the upper part of the sedimentation chamber 10 through the cavity 12 and the inlet pipe b together with the main flow of the cleaning liquid enters the body 1 and continues to move according to the scheme described above.

After some time, the filter element made of porous polymer concrete 5 may become clogged. In this case, there is a gradual increase in the liquid pressure drop, which is monitored by manometers 17 and 18. When the liquid pressure drop 60 reaches the specified value, it is necessary to regenerate the filter element 5. This can be done due to organization of the return flow of liquid through the filter element 5, if the cleaning liquid is directed to the outlet nozzle 7. If the hydraulic characteristics cannot be restored in this way, then the operation of the filter is stopped, the liquid is drained from it. filter element 5 and replace it with a new one. After that, the filter is assembled in the reverse order.

The presence of the sedimentation chamber 10 allows additional cleaning of dirty liquid, which reduces the amount of pollution in the circulation pipeline 13, which increases the degree of liquid purification.

The design of the body 8 of the sedimentation chamber 10 with a conical bottom ensures better removal of impurities from the sedimentation chamber 10. The presence of the deflector 16 allows for the removal of the most purified liquid from the attached body 8.

In this way, the proposed distinguishing features, together with the known ones, ensure an increase in the quality of liquid purification, filter performance and its service life.

Claims (2)

The formula of the invention 1. A self-cleaning hydrodynamic filter, which contains a cylindrical vertical body with top and bottom covers, with a partition that forms a filtering and sedimentation chamber, a filter element, inlet and outlet nozzles, a nozzle and a shut-off device for draining contaminated liquid, located in a housing with an annular gap, an ejector and a circulation pipeline, one end of which is connected to the cavity of the reduced pressure of the ejector, which differs in that the inlet nozzle is tangentially connected to the body, and the circulation pipeline is connected to the nozzle, which on the other side is tangentially connected to the conical deflector. 2. Self-cleaning hydrodynamic filter according to claim 1, which differs in that the cylindrical filter element installed in the housing is made of porous polymer concrete. - (Se) «c) s «- є - with . and? - - (ee) («c) 42) c 60 b5