RU59999U1 - SELF-CLEANING FILTER - Google Patents

Abstract

The utility model relates to the field of water treatment. The technical result achieved is a partial preliminary cleaning of the liquid entering the filter element not only from large impurities, but also from light and fine impurities, while at the same time ensuring the same conditions in the vertical direction for supplying liquid to the filter element and for draining the filtered liquid. The self-cleaning filter contains a vertical cylindrical housing with a supply pipe tangentially located in its lower part and a discharge pipe installed in the upper part of the housing. A filter element is installed inside the housing coaxially to its axis, which is made in the form of a hollow truncated cone with a large base facing up and around the perimeter of the connected with a housing, on the outside of which an annular chamber is made, communicating with a cavity located between the housing and the filtering element in a portion running to the place of connection between them. Inside the filter element there is a washing device with the possibility of rotation around its axis by means of a drive. The flushing device includes a central manifold, as well as at least one peripheral collector mounted parallel to the inner surface of the filter element on the central manifold and communicating with its cavity, each peripheral collector provided with nozzles located on it in the longitudinal direction and oriented to the inner surface filter element. The first pipe for the removal of contaminants is installed near the bottom of the casing, while the difference in distances from the axis of the inlet pipe and the axis of the first pipe for the removal of contaminants to the bottom of the casing is not less than half their diameter. The second pipe for the removal of contaminants is connected with the annular chamber. 2 s.p. f-ly, ill.

Description

The utility model relates to the field of water treatment, and more particularly to filters for purifying water from pollution.

A self-cleaning filter is known from the prior art, comprising a vertical cylindrical housing with upper and lower covers, as well as with a lower supply and upper outlet pipes, a cylindrical filter element located coaxially inside the housing and so that its internal cavity communicates with the supply pipe, as well as means for cleaning the filter element, placed in the cavity of the filter element, coaxially to its axis and with the possibility of rotation around it with mechanical eskogo contact with the inner surface of the filter element (See. Patent US-A-№3574509, 1971).

The disadvantage of this self-cleaning filter is the large loss of fluid pressure at the inlet to the housing. In addition, there is a rapid contamination of the filter element.

Also known self-cleaning filter, taken as a prototype and containing a vertical cylindrical housing with a tangentially located in its upper part inlet pipe, with a radially located outlet pipe in the lower part of the housing; a cylindrical filter element located coaxially inside the housing and connected to it in its lower part by means of an annular element with the formation of the bottom of the annular cavity, communicating in its lower part with a nozzle tangentially located relative to the housing for the removal of contaminants; as well as a flushing device located inside the filter element with the possibility of rotation around its axis and connected with means for supplying flushing liquid, while the flushing device includes a central manifold made in the form of a hollow shaft mounted coaxially to the housing on the upper and lower bearing units and connected its lower end with a rotation drive, and the upper end with means for supplying washing liquid, as well as a peripheral collector mounted parallel to the generatrix of the inner

the surface of the filter element on the central manifold and communicating with its cavity, and the peripheral collector is equipped with nozzles located on it in the longitudinal direction and oriented towards the inner surface of the filter element (see patent US-A-No. 4297209, 1981).

In the prototype, due to the location of the supply pipe tangential with respect to the housing, firstly, a minimum loss of fluid pressure at the inlet to the self-cleaning filter housing is ensured, and secondly, swirling of the fluid flow, which results in preliminary cleaning of the liquid from large suspensions, which the action of centrifugal forces are discarded from the filter element and then accumulate in the lower part of the annular cavity formed by the housing and the filter element. The latter circumstance allows to reduce the rate of contamination of the filter element.

The disadvantage of the prototype is that it does not provide either preliminary purification of the liquid from small and light (having a specific gravity not exceeding the specific gravity of the liquid) impurities, nor does it effectively remove them from the body cavity. In addition, in the known self-cleaning filter, the same conditions in the vertical direction are not provided for supplying liquid to the filter element and for draining the filtered liquid, since the channel for supplying liquid to the filter element and the channel for draining the filtered liquid have a constant cross-sectional area over the entire height of the filter element.

This utility model is aimed at solving the technical problem of providing preliminary purification of the liquid entering the filter element not only from large impurities, but also from light and small impurities, as well as collecting them, while ensuring the same conditions in the vertical direction for supplying liquid to the filter element and to drain the filtered fluid.

The problem is solved in that in a self-cleaning filter containing a vertical cylindrical housing with a tangentially located inlet pipe and a first pipe for the removal of contaminants, as well as with a discharge pipe, an axisymmetric filter element located coaxially inside the housing, and

a washing device located inside the filter element with the possibility of rotation around its axis from the drive, while the washing device includes a central manifold made in the form of a hollow shaft mounted coaxially to the housing on the upper and lower bearing units and provided with means for supplying washing liquid to it, and also the first peripheral collector mounted parallel to the generatrix of the inner surface of the filter element on the central manifold and communicating with its cavity, the first According to a useful model, the filter element is made in the form of a hollow truncated cone with a large base facing upwards and around the perimeter connected to the housing, on the outer side, the peripheral collector is equipped with nozzles located on it in the longitudinal direction and oriented towards the inner surface of the filter element. which is made of an annular chamber equipped with a second pipe for the removal of contaminants and communicating with the cavity located between the housing and the filter element at a section adjacent to the place of their connection with each other, a discharge pipe is installed in the upper part of the housing above the annular chamber, a first pipe for removing contaminants is installed near the bottom of the housing, and a supply pipe is installed in the lower part of the housing, while the difference in distances from the axis of the supply pipe and the axis of the first pipe for the removal of contaminants to the bottom of the body is not less than half their diameters. In addition, the task is solved in that:

- the flushing device further comprises at least a second peripheral collector made identical to the first peripheral collector, while the peripheral collectors are mounted on the central collector at the same angular distance from each other;

- the outlet pipe is installed tangentially with respect to the housing.

The advantage of the proposed self-cleaning filter in comparison with the prototype is that, due to the lower flow of fluid into the housing, the implementation of the filter element in the form of a hollow truncated cone with a large base facing up and around the perimeter

connected to the housing, the execution of the annular chamber on the outside of the housing, equipped with a second nozzle for the removal of contaminants and communicating with the cavity located between the housing and the filter element in the area adjacent to the place of their connection with each other, as well as the installation of a discharge pipe in the upper part of the housing above the annular chamber and the first pipe for the removal of contaminants - near the bottom of the housing, provides additional preliminary cleaning of the liquid entering the filter element, m and small light impurities, which, under the action of the vertical component of the liquid flow rate and (in the case of light particles impurities) having the same direction of the ejector (lifting) forces enter into the annular chamber, where they accumulate. As a result, the amount of not only large impurities, but also small and light ones that settle on the filter element decreases, and therefore the time interval between operations associated with washing the filter element increases. In addition, the implementation of the filter element in the form of a hollow truncated cone with a smaller base located in the liquid supply zone provides not only the same conditions in the vertical direction for supplying liquid to the filter element and for draining the filtered liquid (due to the monotonous decrease in the cross-sectional area of the channel for supplying liquid to the filter element and according to the same law of increasing the cross-sectional area of the channel for draining the filtered liquid), but also a significant equalization of the velocity along the closed scientific fluid flow moving along the channel between the housing and the filter element. As a result, not only the efficiency (under the action of centrifugal forces) of preliminary cleaning of the liquid from large impurities increases, but the likelihood of washing away the impurities that have already settled on the filter element increases as well. It should also be noted that the proposed implementation and location of the filter element also reduces the likelihood of re-entering the filter element of impurity particles removed from it during the washing process.

The installation of the outlet pipe tangentially with respect to the housing leads to an additional increase in the degree of swirl of the fluid flow supplied to the filter element.

The introduction of additional peripheral collectors mounted on the central manifold at the same angular distance from each other increases the washing efficiency of the filter element, and therefore reduces the time required for washing the filter element.

In the future, the utility model is illustrated by a specific example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the expected technical result by the above set of essential features.

The drawing schematically shows a self-cleaning filter, a longitudinal section.

The self-cleaning filter contains a vertical cylindrical housing 1, an inlet pipe 2, an outlet pipe 3, a first pipe 4 for removing contaminants, a second pipe 5 for removing contaminants, a filter element 6 and a washing device 7. The filter element 6, for example, mesh-sheet on the frame, made axisymmetric, namely, in the form of a hollow truncated cone with a large base facing up, the filter element 6 is located inside the housing 1, coaxially with its axis 8 and connected to it along its perimeter second base. On the outside of the housing 1, an annular chamber 9 is made, which communicates via an annular gap 10 (or through through holes evenly spaced around the circumference made in the housing 1) with a cavity located between the housing 1 and the filtering element 6 in a section adjacent to the junction of the housing 1 and the filter element 6 with each other, and is equipped with a tangentially mounted second pipe 5 for the removal of contaminants. The first pipe 4 for the removal of pollutants, impurities is installed near the bottom 11 of the housing 1 and tangentially with respect to it, and the supply pipe 2 is also installed tangentially in the lower part of the housing 1, while the distance between the axis 12 of the supply pipe 2 and the bottom 11 is greater than the distance between the axis 13 of the first pipe 4 for the removal of contaminants and the bottom 11 at least half their diameters. In other words, the difference of the above-mentioned distances is not less than half the diameters of the inlet pipe 2 and the first pipe 4 for the removal of contaminants. The outlet pipe 3 is installed,

preferably tangentially in the upper part of the housing 1 above the annular chamber 9. The washing device 7 is placed inside the filter element 6 with the possibility of rotation around the axis 8 using, for example, a manual drive 14. The washing device 7 includes a central manifold, which is made in the form of a hollow shaft 15 mounted coaxially to axis 8 on the upper 16 and lower 17 bearing assemblies and provided with means for supplying washing liquid to it, for example, pipe 18. In addition, the washing device 7 contains at least one peripheral collector 19. In a preferred embodiment of the utility model, the flushing device 7 comprises several identical peripheral collectors, for example, as shown in the drawing, two 19 and 19 ', which are mounted on the central manifold (shaft 15) in parallel with the inner the surface of the filter element 6 and communicate with the cavity of the shaft 15. The peripheral collectors are mounted on the central manifold at the same angular distance from each other. In other words, in the case of using two peripheral collectors 19 and 19 ', they are mounted on the shaft 15 at an angle of 180 °, i.e. opposite each other. Each peripheral collector 19 and 19 'is equipped with nozzles 21 and 21', respectively, which are located on each of them in the longitudinal direction (in the form of a nozzle ruler) and oriented towards the inner surface of the filter element 6, for example at a right angle.

In addition to the embodiment of the utility model shown in the drawing, using a manual drive 14, other known drives, for example electromechanical, as in the prototype, or tangential nozzles mounted on peripheral collectors, can be used to rotate the washing device 7 (see patent RU-A1-No. 1424178 , 1985, patent US-A-No. 4042504, 1976), creating a jet thrust. The upper 16 and lower 17 bearing units in the preferred embodiment of the utility model are combined, namely: the upper bearing unit 16 is in the form of a double cylindrical / spherical, plain bearing, and the bottom 17 in the form of a double thrust / spherical plain bearing.

Self-cleaning filter works as follows. The source fluid through the supply pipe 2 enters the cavity of the housing 1, and

the tangential position of the supply pipe 2 provides a minimum loss of fluid pressure at the entrance to the housing 1 and the flow swirl. In this case, due to the swirling of the fluid flow, part of the large mechanical impurities is discarded towards the housing 1, and then, under the influence of gravitational force, settles and accumulates in the bottom of the cavity of the housing 1. In addition, some of the small and light impurities under the influence of the vertical component of the flow liquids, and also (in the case of light contaminants) and under the action of a buoyant force rise up and through the annular gap 10 fall into the annular chamber 9, where they accumulate. The remaining contaminants are retained on the filter element 6. The filtered liquid through the outlet pipe 3 is sent to the consumer. Moreover, as already noted above, the proposed implementation and location of the filter element 6 provides the same conditions in the vertical direction for supplying liquid to the filter element 6 and for draining the filtered liquid.

With the accumulation of contaminants on the filter element 6, an increase in pressure drop across it occurs. Upon reaching the maximum permissible value of the pressure drop, which is measured, similarly to the prototype, at the inlet and outlet of the self-cleaning filter, the washing fluid is supplied through the pipe 18 to the central manifold, namely to the cavity of the shaft 15, from which the washing liquid through the tubes 20 and 20 'enters the peripheral collectors 19 and 19', respectively, and then to the nozzles 21 and 21 '. At the same time, liquid is discharged through the first 4 and second 5 nozzles for the removal of contaminants. The jets of washing liquid coming out of the nozzles 21 and 21 'wash away the contaminants deposited on the filter element 6, which, together with the accumulated in the bottom part of the cavity of the housing 1 and in the annular chamber 9, are removed through the first 4 and second 5 pipes, respectively, to discharge the contaminants. Due to the rotation (manually or with the help of one or another drive) of the washing device 7 around axis 8, the entire filtering element 6 is cleaned of contaminants deposited on it. After restoring the differential pressure on the filter element 6, the supply of flushing fluid to the cavity of the shaft 15 is stopped and at the same time the drainage of fluid is stopped

through pipes 4 and 5 for the removal of contaminants. Thus, thanks to the proposed mutual arrangement of the axes 12 and 13 in the vertical direction, a stagnant zone is created near the bottom 11 of the housing 1, which provides for the accumulation of large mechanical contaminants, and the execution of an annular chamber communicating through the opening in the housing 1 from the outside of the housing 1 (in in the form of an annular slit 10) or an opening with a cavity located between the housing 1 and the filter element 6 in the area adjacent to the junction of the housing 1 with the filter element 6, allows Sustain small and light contaminants.

The proposed self-cleaning filter can be used in any water supply systems with fresh water intake from artificial and natural reservoirs.

Claims (3)

1. Self-cleaning filter containing a vertical cylindrical housing with a tangentially located inlet pipe and a first pipe for the removal of contaminants, as well as with a discharge pipe, an axisymmetric filter element located coaxially inside the housing, and a flushing device located inside the filter element with the possibility of rotation around it axis using the drive, while the flushing device includes a central manifold made in the form of a hollow shaft mounted coaxially with the housing on the upper and lower bearing assemblies and equipped with means for supplying washing liquid into it, as well as a first peripheral manifold mounted parallel to the inner surface of the filter element on the central manifold and communicating with its cavity, the first peripheral manifold provided with nozzles located on it in the longitudinal direction and oriented towards the inner surface of the filter element, characterized in that the filter element is made in the form of a hollow truncated cone with a large base facing upwards and around the perimeter connected to the housing, on the outside of which an annular chamber is provided, equipped with a second nozzle for discharging contaminants and communicating with the cavity located between the housing and the filter element at a level adjacent to the junction between by itself, a discharge pipe is installed in the upper part of the housing above the annular chamber, the first pipe for the removal of contaminants is installed near the bottom of the housing, while the distance difference, respectively enno, from the axis of inlet and axis of the first tube for discharging contaminants to the bottom of the housing is at least half the sum of their diameters. 2. The filter according to claim 1, characterized in that the flushing device further comprises at least a second peripheral collector made identical to the first peripheral collector, while the peripheral collectors are mounted on the central collector at the same angular distance from each other. 3. The filter according to claim 1, characterized in that the outlet pipe is installed tangentially with respect to the housing.