RU2767544C2 - Device for purifying water from harmful substances - Google Patents

Abstract

FIELD: water purification.

SUBSTANCE: invention relates to devices for water purification. A device is described, consisting of two insulated working reservoirs with filtering cartridges inside them in the form of cups, placed on the body of a perforated pipe on both of its ends. In the central part of the device, there is a water-distributing washer with channels forming, when turning, two operation modes of the devices and one neutral mode, when input and both output channels are tightly blocked.

EFFECT: increase in the service life of filtering cartridges.

1 cl, 4 dwg

Description

The invention relates to a technique for the preparation of extracted groundwater and/or surface water for the purposes of domestic and drinking water supply. The main area of its application is the places of distribution of water to consumers directly at the finish line of internal water supply networks in residential premises and / or public sanitary facilities. In addition, the principle of operation of this device can be used to separate other types of liquid and solid-loose substances by filtering them through microporous elastic structures.

A variety of single-stage, as well as three-stage and similar flow-through filter apparatuses with tubular replaceable cartridges made of microporous foam and / or fibrous, non-woven and / or filamentous material with a transverse pore size of several microns, which have proven their high efficiency in the fight against with a high content of iron and other undesirable impurities in the water, which make it unsuitable for the purposes of domestic drinking water supply. Most of the well-known devices, depending on the stage of water pollution, require regular, sometimes very frequent, disassembly to replace the cartridge that has served its time and replace it with a fresh one with a clean pore space free from sorbent, which is an emulsion of their insoluble oxides and iron hydroxides formed in pores of the cartridge body due to the synthesis of iron ions and decomposition products of carbonic acid (carbon dioxide), which is almost always present in abundance in groundwater. At home, not everyone is able to perform such an operation to replace the cartridge, even with a special tool. The bulk of the collected insoluble material accumulates mainly on the outer surface of the cartridge and is easily washed off under running cold water without the use of detergents based on soap or sulfanol, especially if the cartridge material has high hydrophobic properties. The range of filter cartridges currently offered on the market is already quite large, and the specific choice of a long-lasting among them, which does not require acids, alkalis and / or other reagents to wash its pores, depends on the quality of the product accepted for purification.

The prototype of the claimed technical solution is a self-washing filter apparatus manufactured according to TU 28.29.12-001-46422999-2017, which has a certificate of conformity No. 0605141, which has two modes of operation and in which the washing mode is organized as rinsing adhering dirt. The time of such an operation and its duration are set by pressure sensors and electronics, which, however, does not guarantee a high quality of cleaning the micropore space of the filter material from the dirt accumulated in it of a viscous fluid consistency that has penetrated deep into the walls of the labyrinth of curvilinearly curved surfaces of the filter skeleton.

The essence of the invention.

Based on the obvious expediency of removing harmful impurities from the water immediately before it is used for drinking needs, the treatment device is installed for its operation directly near the places where water is drawn off in plumbing units, where the recycling and sewerage networks for unused residues originate. To do this, fittings or flexible armored hoses are installed in the break in the water supply pipeline, connecting the inlet to the working chamber of the filter apparatus and the outlet from it to the consumer's stop valves. In addition, the device has an additional outlet that connects it to the sewerage system, similar to the principles of operation of household washing machines. The control and selection of one of the two modes of operation in the device is carried out by means of a special washer, which is installed with the possibility of circular rotation in a limited sector without any longitudinal axial displacement between the bodies of two flat platforms in close contact with their smooth surface. The washer and both platforms are made of waterproof material and permeated with a system of through channels, which, due to the rotation of the washer by means of a lever, provide a given or designated direction of movement of water flows through its labyrinth. In the cleaning mode, the water taken inside enters through the side channel of the platform, having first passed through it through one of the L-shaped channels and a recess in the washer, to the outer surface of the tubular body of the main filter cartridge, located above the washer and fixed on the platform, in which there are two more other L-shaped channels, and the water purified from impurities from the epicenter of the cartridge gets the opportunity to leave the device when the tap is open. If the tap is closed, then the device experiences a stagnant mode, in which the second reservoir filled with water, along with the second cartridge, is constantly in the cleaning mode. In the mode of washing the pore space of the filter cartridge, the structure of the channel system is changed by turning the water distribution washer around its axis and the water received from the water supply networks is directed from the L-shaped channel of the upper platform through the side through channel in the washer body to the second tank for filtering through the pores of the second one installed there. cartridge. Further, already purified water through the pipeline located on the axis of rotation of the water distribution washer, coaxial to the central holes in both platforms, acts radially from the inside on the main filter cartridge, forcing it to swell and open the pores clogged with dirt, washing the walls of the pores and removes the water-insoluble material accumulated there through a through hole in the platform and a recess on the body of the washer to the entrance to the third L-shaped channel of the platform connected to the sewerage networks. The duration and frequency of the flushing procedure depends on the degree of contamination of the source water, the elasticity of the cartridge material, gas saturation and other parameters. If necessary, through frequent change of modes and short breaks, it is possible to excite the technique of water hammering or use other methods of impulse action on the skeleton of the filter material, which prolongs the service life of the useful properties of the cartridges. It is also noteworthy that with the neutral location of the washer, one or even both cartridges can be safely removed from the cleaning device and replaced with fresh ones, if the tank bodies are fixed to their platforms by means of threaded connections. The optimal mode of operation of a water treatment device in each specific case is always determined only empirically, which does not require dismantling of the equipment, based on the results of regular laboratory analyzes of the quality indicators of treated water.

Figure 1 shows a schematic cross-sectional view of a device for purifying water from harmful substances in the state of its main operation mode, when an insulated groove (11) of a water distribution washer (8) connects the channels (2 and 4) in the body of the platform (1) of the main working tank (12).

In Fig.2. the cross-section of the platform of the main working tank and the position of the location of the throughput channels along the B-B line are shown.

Figure 3 shows a cross-section of the water distribution washer along the line A-A at the position of its operation in the mode of water treatment for water use.

Figure 4 shows a cross section along the line H-H of the platform of the auxiliary filter cartridge and the location of the axes of a pair of through channels, consistent with the axes of the channels of the platform on the opposite side of the water distribution washer.

The basis for placing all elements of the cleaning device is the main platform (1), made in the form of a monolithic waterproof rectangular parallelepiped with two through channels (2 and 3) and three L-shaped profile channels across (4, 5 and 6), which serve to receiving water (channel 4), for discharging purified water (channel 5) and removing accumulated dirt and wash water (channel 6). Under the main platform (1) on the axis (7) of the central channel (3), in close contact with its smooth outer surface, there is a cylindrical water distribution washer (8) made of a durable waterproof material with a central H-shaped channel (9), which has a side outlet ( 9A) is always directed upwards to the platform (1), with one side through (10) and a linearly elongated insulated groove (11). On the platform (1) there is placed and hermetically joined to it a cylindrical body of the tank (12), having the shape of a glass, inside of which, on its axis and the end of the central hole (3), a microporous filter cartridge (13) is installed without touching the inner walls of the tank (12) made of foamed and/or fibrous, filamentous and/or non-woven material, preferably with hydrophobic properties, also made in the form of a cup, the open end of which is hermetically joined to the central hole (3) of the platform (1). Under the water distribution washer (8) there is a second platform (14) in close sliding contact with it, similar to the geometric contour of its body with the main platform, but unlike it, it has only one pair of through channels: central (15) and lateral (16) . On the opposite side of the platform (14) the body of the second reservoir (17) is placed and hermetically attached to it, under the protection of which the second filter cartridge (18) is hermetically installed at the end of the central hole (15), also having the shape of a glass. Both platforms (1 and 14) are rigidly and firmly connected to each other, for example, by means of a small grouping of tie rods (19) subparallelly spaced at the corners of an equilateral polygon, such as a square, and not preventing alternating limited circular rotation of the washer (8) in a limited sector from one extreme position to another extreme position without going beyond its axis, common to all central channels (3,9 and 15) of the cleaning device, inside which, to ensure the reliability of the washer (8), which excludes misalignment, a piece of rigid perforated pipes (22) (in figure 1 it is not shown due to its insignificant significance), and the axes (2, 4, 5, 6, 10 and 16) of all side holes in the bodies of the platforms, the water distribution washer and the centers of the ends of the groove (11) on the body of the water distribution washer (8) are placed equidistant from each other and from the axis of the central hole in one circular orbit. To turn the washer (8) around its axis (9), a blind insulated hole (20) is made in its body perpendicular to the axis of rotation (9) on the side, which serves as a support for the lever (21), made in the form of a shortened strong rod or pipe (it is absent in the drawings). ).

The operation of the device is carried out as follows. Water supplied under normal pressure, approximately 5-6 atmospheres, from the water supply networks to the inlet to the L-shaped channel (4) (see figure 1) immediately enters the insulated groove (11) on the surface of the water distribution washer (8), when it is in its position in the water purification mode. Further, from the groove (11), water through the through channel (2) in the platform (1) enters the tank (12) and interacts with the walls of the pore space of the filter cartridge (13), on which the water-insoluble fine sludge that has not passed through the cartridge is collected together with other unwanted impurities, and the water freed from it first enters the central channel (3) and then into the H-shaped central channel (9) of the water distribution washer (8), through the side branch (9A) of which it is transferred to the L-shaped channel (5 ) platform (1) and sent to the consumer for the purpose of water use. This mode of operation takes up most of the time of operation of the cleaning device until its used filter cartridge loses its useful properties due to the maximum allowable filling of the pore space with dirt. The user will be notified of the occurrence of such an event by the absence of water or a significant decrease in its flow rate at the outlet of the channel (5) in the platform (1) and will require response actions from him related to the need to perform effective cleaning of the pores of the working cartridge (13), which has prematurely exhausted its service life . In order to correct the created unfavorable situation, it is enough to turn the body of the water distribution washer (8) by means of a lever or rod (21) inserted inside the blind hole (20) around the axis (9) at an angle of 45 degrees and put it in flushing mode. Note: the angle of rotation of the washer (8) may be different, because it completely depends only on the quality of synchronization of the pitch between the axes of the channels, the diameters of their cross sections, and the consistency of their positions. After switching the water distribution washer (8) to the mode of washing the pores of the filter cartridge (13), the L-shaped inlet channel (4) of the platform (1) opens access to water into the through side channel (10) of the water distribution washer (8), which, in turn, being in the alignment of the channel (16), it ensures the exit of water into the body (17) of the second tank, where the filter (18) is installed, while the groove (11) with its ends at the same time forms a reunion of the alignments of the axes of the side through channel (2) and L-shaped discharge channel (6) in the platform (1), as a result of which the direction of water movement in the device changes abruptly and the filter cartridge (18) arriving up to this point in reserve, located inside the tank (17) on the second platform (14). Water entering the cleaning device from the L-shaped channel (4) first enters through the through channel (10) in the water distribution washer (8) and the side through channel (16) in the body of the platform (14) to the outer surface of the filter cartridge (18) , where it is cleaned and further along the central channel (9) in the body of the water distribution washer (8), which automatically muffles its side branch, goes along the central channel (3) of the platform (1) to the epicenter of the filter cartridge (13) and stretches its elastic microporous skeleton, releasing pores from accumulated dirt, which is sent through the through side channel (2) in the platform (1) along the groove (11) in the washer body (8) through the mouth of the L-shaped channel (6) of the platform (1) for disposal in the network sewerage.

Claim

DEVICE FOR PURIFYING WATER FROM HARMFUL SUBSTANCES, consisting of a flow-through sealed reservoir and a cartridge made of microporous filter material placed inside it, characterized in that the reservoir body and the filter cartridge located in it are made in the form of cylindrical cups coaxially located on a common axis of symmetry for them to form closed space of the working area above a flat waterproof platform that hermetically closes the entrance to this area and has a pair of through windows, one in the center and the other on the side, away from it, and three L-shaped channels, each of which performs personally, being on its own stationary position depending on the mode of operation of the device, receiving water under pressure for cleaning, discharging purified water to the consumer and ejecting the collected sludge together with washing water into the disposal system, from the outside of the platform in close contact with it on the axis of its central channel with the possibility of its own free rotation in a limited sector a round monolithic washer made of waterproof material with a pair of through channels is placed: one central with an H-shaped transverse profile and the second, on the side of it, additionally having on one of its sides in contact with the platform of the main working tank, an isolated recess of an elongated recessed shape, the centers of each channel and the edges of the recess are made equidistant from each other and from the axis of the central channel, on the reverse side of the washer and also in close sliding contact with it is the body of another waterproof platform, which has only two through channels, central and side, one of which is made coaxial with the central channels water distribution washer and the opposite platform, while the second platform also has its own reservoir together with a filter cartridge, similar to those on the first platform, and by means of a grouping of tie rods, they are all connected into a single whole, endowed with the ability from a labyrinth of available channels to the washer and in both platforms, by means of an additional lever and a limited circular displacement of the washer with its subsequent fixation in one of the two extreme positions on the axis of the central channel, two modes of operation of the device: either cleaning or flushing and one neutral mode in the middle, when all channels are tightly closed.

Claims (1)

A device for water purification from harmful impurities, consisting of a flow-through sealed reservoir and a cartridge made of microporous filter material placed inside it, characterized in that the reservoir body (12) and the filter cartridge (13) located in it are made in the form of cylindrical cups coaxially located on a common axis of symmetry for them with the formation of a closed space of the working area above a flat waterproof platform (1), which hermetically closes the entrance to the working area, while the waterproof platform (1) contains two through channels (2 and 3) and three L-shaped channels ( 4, 5 and 6) - water intake channel (4), purified water outlet channel (5), wash water removal channel (6); the open end of the glass of the filter cartridge is tightly docked with the central hole (3) of the waterproof platform (1); under the waterproof platform (1) on the axis (7) of its central channel (3) is placed, with the possibility of free rotation in a limited sector, a cylindrical water distribution washer (8) made of a waterproof material with a central H-shaped channel (9), side outlet (9A ) which is directed upwards to the waterproof platform (1), as well as by a lateral through channel (10) and a linearly elongated insulated groove (11); under the cylindrical water distribution washer (8) a waterproof platform (14) is placed in close sliding contact with it, containing two through channels - the central one (15) and the side one (16); on the waterproof platform (14) the tank body (17) and the second filter cartridge (18) located in it are placed and hermetically attached to it; watertight platforms (1) and (14) are fixedly connected into a single whole by tie rods (19), without preventing circular rotation of the cylindrical water distribution washer (8) by means of a lever (21) fixed in a blind insulated hole (20) in the cylindrical water distribution washer (8 ); at the same time, the cylindrical water distribution washer (8) is made with the possibility of fixing its position in one of the two extreme positions of the circular displacement on the axis (7) of the central channel with the provision of a cleaning mode or a washing mode of the device, or in a neutral position in the middle, when all channels are tightly closed.

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