RU170204U1 - SELF-CLEANING FILTER - Google Patents

Abstract

Usage: In devices for cleaning oils and fuels, mainly for diesel diesel engines. SUBSTANCE: Self-cleaning filter contains a housing with inlet and outlet nozzles and a drain pipe, a sealing cover, chambers of cleaned and uncleaned liquid medium, upper and lower base plates with openings interconnected by means of a central pipe on which bypass valves are located, filtering tubular elements whose ends are fixed in the holes of the upper and lower base plates, An external external mesh filter element located between the base plates, a hydraulic actuator made in the form of a turbine mounted at the inlet of the filter and connected through a gearbox with a hollow shaft located in the central pipe, a washing mechanism for the filter elements associated with the hydraulic actuator and consisting of upper and lower elements flushing, communicating through the corresponding holes with the filtering tubular elements and with the channel of the hollow shaft associated with the discharge pipe of the concentrate of pollution, the display unit st Foam contamination of the liquid medium, mounted on the housing of a self-cleaning filter and containing a piston with a return spring, permanent magnets and a movable disk scale with a viewing window, while in the case of this node there are channels for supplying to the opposite ends of the piston a cleaned and uncleaned liquid medium connected to the cleaned chambers and crude liquid through the corresponding holes in the wall of the housing of the self-cleaning filter, one of the permanent magnets connected to the piston, and the other to the movable disk th scale. In addition, the unit for indicating the degree of contamination of the liquid medium contains two reed switches and an electrical connector for connecting an external control device, the reed switches being mounted offset from each other to interact with a permanent magnet connected to the piston and connected to the contacts of the electrical connector. The filter allows operational monitoring of the state of the filter elements, which increases the efficiency of the filter, improves operating conditions and increases reliability. 7 ill.

Description

The utility model relates to oil and fuel purification devices, primarily for diesel diesel engines and uninterrupted oil supply to the lubrication system.

Known self-cleaning filter for cleaning oil with tangential flow (RF patent No. 2418613, IPC B01D 29/11, published. 05/20/2011, at least part of the filter surface, comprising a housing with a cover separating the cavity with cleaned and uncleaned oil, inlet pipe and nozzles for removing purified oil and its filtered components, at least one bypass valve, the inlet of which is connected to a cavity of a self-cleaning filter filled with crude oil, and the outlet to a cavity filled with purified oil, filtering a cylindrical surface, the inner cavity of which forms a channel for collecting purified oil, used as a drive energy source in the form of a turbine with a gearbox for rotating the filter surface, characterized in that the turbine is installed outside the channel for collecting purified oil in a cylindrical glass, side surface of a cylindrical glass equipped with through windows, and a cylindrical glass is installed so that the lower window is in the channel for collecting purified oil, and the upper one is located al lid dividing the cavity with the purified and crude oil.

The closest in technical essence to the proposed utility model is Shepelev’s well-known automatic self-cleaning filter (RF patent No. 2224577, IPC B01D 29/62, published. 02.27.2004, containing a housing with inlet and outlet nozzles, a contaminant concentrate drain pipe, a cover, an upper and lower base plates perpendicular to the axis of rotation with coaxial holes arranged concentrically relative to the axis of rotation of at least one diametric row, interconnected by a distance pipe with an integrated safety device o-bypass valve, filter elements, mainly tubular, with an internal filtration surface, inserted into the coaxial holes of the upper and lower support plates, holes in the lower and upper support plates for the passage of contaminated fluid inside the distance pipe, a safety filter, a drive turbine connected to the transfer a mechanism characterized in that a spool-distributing device for washing the filter elements rotating around the axis is connected to the transmission gear anism and consisting of at least one upper and one lower backwash levers with holes, and one lower and one upper direct flush levers with nozzle holes, the channels in the upper and lower backwash levers are connected to the channel of the tubular axis mounted on the bearings located in the upper and lower base plates, and connected to the drain pipe of the contaminant concentrate, during the regeneration of filter elements, the holes in the upper backwash arm are connected to the upper holes ltruyuschih elements, and the lower ends of the filter elements are connected with nozzle openings of the lower arm direct washing and vice versa, which allows to change the direction of the backwash contaminated liquid concentrate flow within the filtering elements, at least twice per revolution of spool distribution device.

The disadvantage of this device is the lack of operational monitoring of the state of the filter elements, which reduces the efficiency of cleaning the liquid medium during prolonged operation of the filter, which affects the operating conditions and reduces the reliability of the device.

The technical result, which consists in eliminating this drawback, is achieved in a self-cleaning filter containing a housing with inlet and outlet nozzles and a drain pipe, a sealing cover, chambers of cleaned and uncleaned liquid medium, upper and lower base plates with holes interconnected by a central pipe, on which bypass valves are located, filtering tubular elements, the ends of which are fixed in the holes of the upper and lower base plates, a safety external mesh a second filter element located between the base plates, a hydraulic actuator made in the form of a turbine mounted at the inlet of the filter and connected through a gearbox with a hollow shaft located in the central pipe, a washing mechanism for the filter elements associated with the hydraulic actuator and consisting of upper and lower washing elements, communicating through appropriate openings with filtering tubular elements and with the channel of the hollow shaft associated with the drain pipe of the contaminant concentrate, in that it contains a degree indication unit the contamination of the liquid medium, the housing of which is fixed on the outer surface of the self-cleaning filter housing and contains a piston with a return spring, permanent magnets and a movable disk scale with a viewing window, while in the case of the specified node there are made supply channels to the opposite ends of the piston of a cleaned and uncleaned liquid medium with chambers of cleaned and uncleaned liquid medium through the corresponding openings in the wall of the housing of the self-cleaning filter, one of the permanent magnets being connected to the piston, etc. ugoy - with a movable disk scale.

Moreover, the node indicating the degree of contamination of the liquid medium contains two reed switches and an electrical connector for connecting an external monitoring device, the reed switches being installed offset from each other to ensure interaction with a permanent magnet connected to the piston and connected to the contacts of the electrical connector.

The essence of the utility model is illustrated by drawings, where:

in FIG. 1 shows a sectional view of a filter design;

in FIG. 2 shows a side view of the filter;

in FIG. 3 shows the appearance of the node indicating the degree of contamination of the liquid medium;

in FIG. 4 shows a section of the display unit;

in FIG. 5 shows a side view of the display unit with an electrical connector and mounted reed switches;

FIG. 6a, b) illustrates a view of the disk scale through the viewing window for varying degrees of contamination of the filter elements.

Self-cleaning filter (Fig. 1, 2) contains a housing 1 with inlet 2 and outlet 3 nozzles and nozzle 4 for contaminant drain, a sealing cover 5, chambers cleaned 6 and uncleaned 7 liquid medium, the upper 8 and lower 9 base plates with holes connected between by means of a central pipe 10, on which bypass valves 11 are located, filtering tubular elements 12, the ends of which are fixed in the holes of the upper 8 and lower 9 of the base plates, a safety external mesh filter element 13 located between the base plates 8 and 9, a hydraulic actuator made in the form of a turbine 14 mounted at the inlet of the filter and connected through a gearbox 15 with a hollow shaft 16 located in the central pipe 10, a washing mechanism for filter elements connected to the hydraulic actuator and consisting of upper 17 and lower 18 washing elements.

The device also contains a node 19 indicating the degree of contamination of the liquid medium (Fig. 2, 3, 4, 5), the housing of which is fixed to the outer surface of the housing 1 of a self-cleaning filter.

The node 19 (Fig. 4) contains a piston 20 with a return spring 21, permanent magnets 22 and 23 and a movable disk scale 24 with a viewing window 25, while in the case of the node 19 channels 26 and 27 for supplying to the opposite ends of the piston 20 are cleaned and uncleaned liquid medium associated with the chambers of purified 6 and crude 7 of the liquid medium through the corresponding openings (not shown in the drawings) in the wall of the housing 1 of the self-cleaning filter, the permanent magnet 23 being connected to the piston, and the magnet 22 to the movable disk scale 24.

In one embodiment, the node indicating the degree of contamination of the liquid medium contains two reed switches 28 and 29 and an electrical connector 30 for connecting an external monitoring device (Fig. 7).

In this case, the reed switches 28 and 29 are installed with an offset relative to each other to ensure interaction with the permanent magnet 22 and connected to the contacts of the electrical connector 30.

The proposed filter works as follows.

The filter simultaneously operates in two modes - filtering and regeneration of filtering elements.

In the filtration mode, the contaminated liquid flows under pressure into the inlet pipe 2, drives the turbine 14 and through the gearbox 15 the shaft 16, which acts on the upper 17 and lower 18 elements of the washing of the filter elements.

In this case, the flow of the liquid being cleaned (for example, contaminated oil) from the lower chamber 7 enters the ends of the filtering tubular elements 12 fixed in the holes of the lower base plate 9.

At the same time, the flow of contaminated liquid passes through the holes available in the lower 9 and upper 8 support plates inside the central pipe 10 into the upper chamber 7 and flows to the upper ends of the filter elements 12 fixed in the holes of the upper support plate 8.

Further, the contaminated liquid enters the filter elements 12, passes through them outward, leaving particles of contaminants on their inner walls.

Then, the filtered liquid passes through a safety external mesh filter element 13 and enters the outlet pipe 3.

The turbine 14 is driven into rotation due to the kinetic energy of the incoming stream of contaminated liquid. The speed of rotation of the turbine 14 is reduced by the gearbox to the required speed of rotation of the elements 17 and 18 for washing the filter elements 12, the washing of which is carried out by the reverse flow of the filtrate. This allows you to effectively clean the filter elements from accumulated contaminants.

A feature in the filter operation is the provision of washing of the filter elements 12 from two sides, which ensures a longer service life of the filter.

The contaminant concentrate washed off from the inner surfaces of the filter elements passes through the channels of the washing elements 17 and 18.

Then the pollution concentrate enters the hollow shaft 16 and is discharged through the pipe 4 of the pollution drain.

When partially filtering the filter elements and working with a liquid with a high viscosity, in order to avoid the absence of filtrate to the consumer, the bypass valves 11 open, and part of the contaminated liquid enters the bypass of the filter elements 12 and, passing the safety external mesh filter element 13, enters the outlet branch pipe 3 filters.

To control the pollution of the filtering elements serves as a node 19 indicating the degree of contamination of the liquid medium.

The operation of the node 19 is based on measuring the differential pressure in the chambers 6 and 7. The readings of the scale 24 inform about the onset of the moment of contamination of the filter elements 12 and the need to replace them.

Through the channels 26 and 27 of the supply of cleaned and contaminated liquid (Fig. 4), the liquid enters the opposite ends of the piston 20 and it moves by an appropriate amount depending on the pressure difference. During long-term operation of the filter, the filtering elements 12 become contaminated and the pressure in the chamber 7 begins to increase, which leads to the displacement of the piston 20 and the magnet 23, which carries the magnet 22 attached to the movable red disk scale 24. The rotation of the red scale 24 is observed in the viewing window 25.

A partial overlap of the viewing window 25 is shown in FIG. 6a), which corresponds to a degree of oil pollution of 75%. At the same time, the contacts of the reed switch 28 are closed.

Complete overlap of the viewing window 25 is shown in FIG. 6b), which corresponds to a degree of oil contamination of 100%. In this case, the contacts of the reed switch 29 are closed. This occurs at the maximum permissible pressure drop and signals the onset of the replacement of the filter elements 12. To return the piston 20 to its original position, the spring 21 is used.

The signals from the reed switches 28 and 29 are fed through an electrical connector 30 to an external control unit (not shown).

The design of the filter allows its installation in the conditions of locomotive depots during the current repair of the locomotive and overhaul in the conditions of locomotive repair plants.

The use of an automatic filter in a diesel lubrication system makes it possible to provide operational monitoring of the state of filter elements, which increases the efficiency of the filter, improves operating conditions and reliability, and also increases the unattended operation of the automatic filter by ensuring the regeneration of filter elements.

Claims (2)

1. Self-cleaning filter, comprising a housing with inlet and outlet nozzles and a drainage pipe, a sealing cover, chambers of cleaned and uncleaned liquid medium, upper and lower base plates with holes, interconnected by means of a central pipe, on which bypass valves are installed, filtering tubular elements whose ends are fixed in the holes of the upper and lower base plates, a safety external mesh filter element located between the base plates, a hydraulic actuator, are made in the form of a turbine mounted at the inlet of the filter and connected through a gearbox with a hollow shaft located in the central pipe, a washing mechanism for the filter elements connected to the hydraulic drive and consisting of upper and lower washing elements communicating through the corresponding holes with the filtering tubular elements and with the hollow channel the shaft associated with the discharge pipe of the concentrate of pollution, characterized in that it contains a node indicating the degree of contamination of the liquid medium, the housing of which is mounted on the outer surface the housing of the self-cleaning filter and contains a piston with a return spring, permanent magnets and a movable disk scale with a viewing window, while in the housing of this node there are channels for supplying to the opposite ends of the piston a cleaned and uncleaned liquid medium connected to the chambers of a cleaned and uncleaned liquid medium through the corresponding holes in the wall of the self-cleaning filter housing, one of the permanent magnets connected to the piston, and the other to the movable disk scale. 2. The self-cleaning filter according to claim 1, characterized in that the node indicating the degree of contamination of the liquid medium contains two reed switches and an electrical connector for connecting an external monitoring device, the reed switches being installed offset from each other to ensure interaction with a permanent magnet connected to the piston, and connected to the contacts of the electrical connector.

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