RU2046766C1 - Water purification unit - Google Patents

Abstract

FIELD: purification of water. SUBSTANCE: water purification unit has mechanical water purification block, chemical water purification block, biological water purification block. Blocks may work independently or in various combinations. Mechanical water purification block is connected with chemical water purification block via branch pipe with annular C-shaped coupling. Annular resilient coupling rigidly fixed within C-shaped coupling is communicated with pneumatic conduit and compressed air supply source. Chemical water purification block is formed by concentrically positioned cylinders. Stops are secured on outer surface of one cylinder for switching off end switch and annular guides are adapted for engagement with supporting drive and supporting driven conical rollers. Rollers are rigidly coupled with shaft connected with reducer, which provides connection with electric engine. Casings with divider walls are positioned between cylinders. Cartridges with adsorbent are positioned behind casings at their both sides. Casing ends are closed with covers. Water inlet and water outlet branch pipes are secured centrally of covers. C- shaped half-couplings fixed on branch pipe ends are faced one towards the other for engagement with annular coupling. EFFECT: increased efficiency and enhanced reliability in operation. 9 dwg

Description

 The invention relates to systems for treating water for use as a drinking water.

 A known filter for mechanical water purification, containing a mesh cone filter mounted top down in a cylindrical housing, nozzles for supplying filtered water, drainage of heavy and light impurities, drainage of the filtrate and a drain pipe connecting the supply pipe of filtered water and drainage of the filtrate for periodic washing of the mesh filter / 1,2 /.

 The known filter has a high degree of water purification, satisfying the requirements for its use as irrigation. However, you can’t use it as a drinkable one, since it does not disinfect.

 A filter for water purification is also known, in which the device according to the first and second analogues is connected in series to a single-stage biological water purification unit, made in the form of a cylindrical quartz glass insert, around which ultraviolet radiation sources and a reflector are connected concentrically with power supply, and inside the insert mounted on the axis with the possibility of rotational and reciprocating movement under the influence of the filtrate flow of the impeller, on which the ciliary brush for interaction with the inner surface of the quartz insert. In this case, when moving up the impeller rotates clockwise, and when moving down counterclockwise / 3 /.

 A well-known installation provides biological disinfection of water, however, the purity of treatment in it does not reach the high level required for use as drinking water, for example, when taking water from open river sources where industrial waste is dumped, pesticides, fungicides, zoocides, herbicides, simple and complex fertilizers and other chemical substances and complex compounds under the general name POISONS.

 The aim of the invention is to improve the water treatment system by passing it through chemical adsorbents, regenerators, as well as conducting water treatment in a continuous stream by automatically replacing the cleaning cartridges without stopping the unit.

This goal is achieved by the fact that in the unit for water purification, containing sequentially interconnected blocks of mechanical and biological water purification, between these blocks there is a chemical water purification unit made in the form of concentrically placed horizontal cylinders, the outer of which has ring guides on the outer surface for interaction with drive rollers, and in the space between the cylinders two-chamber liners with nozzles filled with adsorbents are installed, for example, th e charcoal, alumina, etc. sulpho sinks / on the covers of which are fixed on the one hand the inlet and outlet ports on the other, are periodically communicating via the couplings with the nozzles blocks mechanical and biological purification cylinder bends.; the fact that each sleeve is equipped with removable covers and has a partition inside which is coaxial to the nozzles / inlet and outlet / a pipe is mounted on which, with gaps between the walls and the partition, different-sized cartridges with perforated covers filled with homogeneous or heterogeneous adsorbents are installed / taking into account the nature chemical pollution of water, while in a smaller cartridge a perforated partition is fixed at a distance from its bottom, and the pipe is placed with gaps between the bottoms of the glasses to form channels etekaniya fluid through adsorbents cartridges. the fact that the coupling couplings of the cartridges of the mechanical and biological treatment units with the chemical treatment unit are made in the form of annular "C" -shaped in cross section and directed towards each other, fixed at the ends of the body nozzles, while the ring rings are fixed inside the stationary nozzles of the mechanical and biological water treatment blocks elastic chambers communicated with a source of compressed air or liquid under pressure. the fact that the annular elastic chambers are made in the form of a "C" -shaped shape, which, with an increase in internal pressure, acquire an "O" -shaped shape; the fact that the "C" -shaped elastic annular chambers in places where the slit space of the movable and fixed couplings overlaps provides for a thickening of the wall in the form of a scar along the entire perimeter, providing spring functions to return the chamber shape to its original position and increase operational reliability; the fact that the chemical cleaning unit is equipped with an electrically controlled brake, on the shoe of which a spring-loaded clamp is installed, and on the outer surface of the external cylinder, recesses and protrusions interacting with the rollers located in the diametrical planes of the cartridges and cartridges; the fact that the nozzles of the mechanical, chemical and biological water purification units are equipped with branch pipes with taps / valves, valves / placed on them in front of and behind them / for the possibility of taking water from one, two or three purification units; the fact that special water outlet devices for sampling water for analysis according to classical methods and for aggregation with calorimeters and chromatogroffs providing constant or occasional control of water quality are mounted on the outlet pipes of MBO, HVO and BVO;
These signs were not found in similar devices for water purification, and their combination allows to provide a high degree of water purification in the complex and autonomously from mechanical, chemical and biological inclusions to ensure disinfection.

 This gives reason to consider the claimed unit in accordance with the criteria of the invention, "novelty", "significant differences and" positive effect ".

 The invention is illustrated by drawings, where in FIG. 1 scheme of the unit for water purification; FIG. 2 is a view along arrow A, a side view of a chemical water treatment unit is shown; FIG. 3 diagram of the connection of annular chambers with a source of compressed air: liquid under pressure: FIG. 4 node I in FIG. 1, shows the coupling of the nozzles of the mechanical and chemical water treatment unit; FIG. 5 the same, a section along BB; FIG. 6 shows the working position of the cameras; FIG. 7 the same, shows the position of the camera when turning the block HVO; FIG. 8 node II in FIG. 1, shows the cylinder brake of the HVO block, side view with partial cuts; FIG. 9 same, top view. The outer cylinder around the perimeter has movable stops to turn off the relay in the power circuit of the drive motor.

 A unit for water purification consists of series-connected units: mechanical / MBO / 1, chemical / HVO / 2 and biological / BVO / 3 water purification. Block 1 of the mechanical water purification is made in the form of a vertical cylindrical body 4, to the inclined bottom 5 of which is connected a pipe 6 for the removal of contaminants and a pipe 7 for supplying purified water. At the bottom of the inclined cover 8 of the housing, a mesh filter cone 9 is mounted with its top downward, and a pipe 10 of the filtrate outlet and a pipe 11 of the discharge of light impurities are fixed on top. Non-return valves 12, 13 and 14 are installed in the nozzles 6, 7 and 11. The nozzles 7 and 10 are connected through the valve 15 to the bypass pipe 16 with the movable ball valve 17 and the non-return valve 18. A photorelay 19 for controlling water transparency is installed above the bypass pipe and a pipe 20 which, through the shutoff valves 21, 22 and 23, communicates with a branch pipe 24. At the end of the pipe 20, an annular "C" -shaped coupling half 25 / Fig. 4 /, in which the annular chamber 26 / Fig.3, 7 / is rigidly fixed, connected by a pneumatic conduit 27 to a source of compressed air 28. The pneumatic pipe in the area between the compressed air source of the annular chambers 26, 57 has a pressure gauge, a check valve 28a and an electrovalve 28b for depressurization of the pneumatic pipe.

 The HVO unit 2 is made in the form of concentrically arranged cylinders 29 and 30. On the outer surface of the external cylinder 29, adjustable stops 29a of the limit switch are fixed, annular conical self-centering guides 31 for interacting with conical support-drive self-adjusting rollers 32 and support rollers 32a, rigidly fixed to a shaft 33 / bearing not shown / connected through a gearbox 34 with an electric motor 35.

 In the space between the cylinders mounted sleeves 36, conjugated with each other and the cylinders. At the interface, the sleeves are connected by welding. Each sleeve has a partition inside 37, in the center of which a pipe 38 is fixed coaxially with the sleeve, on which different-sized cartridges 39 and 40 are filled on opposite sides of the partition, filled with adsorbents 41 / different in designation /.

 The cartridges are closed with perforated covers 42 and 43, and in the smaller cartridge at a distance from its bottom, a perforated partition 44 is fixed.

 Sleeves from the ends are closed with removable covers 45 and 46, in the centers of which are fixed nozzles for water inlet 47 and 48, at the ends of which annular "C" -shifted half-couplings 49 and 50 are fixed, the design of which is similar to the design and dimensions of half-coupling 25 of pipe 20. Half-coupling 25 and 49 are mounted coaxially and directed towards each other to interact with the annular chamber 26 and when applying pressure to it.

 Cartridges 39 and 40 s, with different properties and purposes, adsorbents 41 are installed in each sleeve 36 on the pipe 38 at a distance from the bottom and with a gap relative to the walls of the sleeve, cover and partition 37, as well as the perforated partition 44 and the bottom of the smaller cartridge for education channels for the flow of water through the adsorbent cartridges from the inlet to the outlet nozzles.

 For exact coincidence of the positions of the coupling halves 25 and 49 of each sleeve, the XBO unit is equipped with an electrically controlled brake 51, on the shoe 52 of which a latch 53 is mounted with a spring 54, and on the outer surface of the outer cylinder 29, adjustable stops 29a of the limit switch and diametrical planes of the axes of the nozzles 20 and 47 are fixed conical depressions 54 are formed for interacting with the latch during rotation of the cylinder.

 Block 3 BWO is made in the form of a pipe 55 mounted coaxially with the pipe 48, at the end of which is fixed a "C" -shaped coupling 56 with an annular chamber 57 fixed therein, connected by a pneumatic pipe 58, connected to a pneumatic pipe 27 and to a compressed air supply 28 / liquid / under a pressure exceeding 1.5 times the possible pressure inside the chambers of the blocks, and in the area between the source 28 and the chambers there is a pressure gauge, non-return valve / electric / 28a and a solenoid valve 28 b to relieve pressure in the air line.

 The coupling half 56 is directed towards the coupling half 50, is located coaxially adjacent to it for the interaction of the annular chamber 57, mounted on the coupling half 56 with the coupling half 50 when applying pressure to the chamber.

 On pipe 55, branch pipes 59 and 60 are mounted, on which, as well as pipe 50, water supply taps 61, 62, 63 and 64 are installed in the BWO, bypassing the BWO directly from the HVO to the consumer or blocking the HVO unit.

 The biological treatment unit can purify water by passing it through the ultraviolet irradiation chamber through the water treatment chamber by silver ions with the outlet to the consumer. The second channel from the UFD chamber water is sent to the water treatment chamber with a solution of chlorine with subsequent exit to the consumer and through the third channel, when water is passed only through the chlorination unit.

 The choice of one of the options is dictated by the degree and feature of biological water contamination.

 On the first 59 branch pipe, an ultraviolet irradiation / quartz / chamber 65 is mounted in the form of a quartz insert, around which there are ultraviolet radiation lamps 66, and the ciliary cilia is movable, with clockwise and counterclockwise rotation from the action of the water flow brush 67 for cleaning the inner surface of the quartz insert. Behind the chamber, the branch pipes are connected to each other by a pipe 68 with a valve 69, and behind the connection through the valve 70, a silver water ionizer 71 is mounted and then through the valve 72 to the consumer. Behind the crane 72, the bypass pipes are connected to each other through the crane 73.

 On the second 60 branch pipe through a valve 63, a water treatment chamber 63a of a solution of bleach is mounted, working with a dispenser of known design, which communicates via a valve 69 with a pipe 68 and through a valve 73, 72 to a consumer.

 Behind the taps 23 of the pipes 24, 64, 72, 73, water outlets 78 are installed for sampling water for analysis by mechanical composition, chemical composition and biological contamination by the classical method and with the analysis of water in dynamics on a chromatograph by the method of chromatography constantly or occasionally.

 The unit operates as follows.

 Before water is supplied to the unit, the spaces between the MVO-HVO-BVO coupling halves are sealed by creating pressure inside the chambers 26 and 57, which is achieved by supplying compressed air to the pneumatic pipe 27 and 58 with a pressure 1.5 times higher than the possible pressure in the water treatment system.

 Then, the purified water through the pipeline 7 of the block 1 / MBO / enters the housing 4 on the mesh cone 4 and purified through its holes enters the pipe 10 of the filtrate. Light impurities float up inside the housing 4 and are discharged through the pipe 11 with a non-return valve 14, and heavy impurities / not passed through the filter screen / are lowered down to the inclined bottom 5 and are discharged through it through the pipe 6 with a non-return valve 12.

 Periodic automatic cleaning of the mesh filter is carried out, according to the incoming signals of the pressure switch / RD / inside the housing, by the command of the time relay / PB / or by the command of the photo relay 19, which controls the degree of clarification of the water by supplying water through the pipe 7 through the solenoid valve 15 / with closed electric. class 13 and 21 / into the bypass pipe 16, while the movable ball valve 16 through the pipe 10 into the inner space of the mesh cone 9 and through its openings passes at high speed into the housing 1, dropping impurities and impurities stuck on it from the mesh, which fall down / or pop up / and are discharged through a spring-loaded check valve 12 and 14.

 If there is no need for chemical water purification and it is advisable to send water after the MBO to the consumer, the valve 22 is shut off with open taps 21 and 23 and the water is discharged into the pipe 24.

 If fuels and lubricants, residues of nitrogen, phosphorus, potassium fertilizers, herbicides, pesticides and chemicals of complex and simple industrial wastes are found in the water, water is passed through the HVO unit, while the valve 23 is shut off / with open taps 21 and 22 / and water through the pipe 20 enters the HVO. Connected by an annular chamber 26 of the coupling halves 25 and 49 when compressed air enters into it from the source 28 through the pneumatic pipe 27, the space between the coupling halves is sealed. By analogy, they are connected by an annular chamber 57, into which air enters through a pneumatic line 58 from a source of compressed air 28, the coupling halves 50 and 56 of the nozzles 48 and 55 of the HVO and BVO units.

 The filtrate through the nozzle 20 enters the sleeve 36 and through the channels 74 through the perforated cover 42 passes through the adsorbent 41 of the large cartridge 39 / first stage of chemical cleaning /, where oils, chemical substances of complex and simple compounds of a certain category of chemical compounds are adsorbed onto the surface of the adsorbent. Activated carbon, aluminum oxides, as well as various kinds of perlite granules, etc., with adsorption ability can be used as adsorbents in the first part of the CVD. Next, the water through the pipe 38 enters the gap 75, from which through the perforated baffle 44 it enters the adsorbent 41 of the second stage of chemical water treatment of the smaller cartridge 40, the perforated cover 43 passes through the channel 76 into the pipe 48 and through the coupling halves 50 and 56, sealed / sealed / ring camera 57, into the pipe 55 of the block 3 BVI. A small cartridge, as a rule, contains an adsorbent with selective ability, which adsorbs completely chemical impurities, and if necessary, removes the hardness of water. In the second cartridge, it is advisable to have a mixture of adsorbents in the composition with sulfonated coal.

 If it is necessary to drain the filtrate, bypassing biological treatment, the taps 62 and 63 / are closed when the taps 61 and 64 / are open and the water goes to the consumer.

 Depending on the degree and nature of water pollution by biological flora, water, as already mentioned, is passed either through a UV-chlorinator or UV-ionizer. When water is supplied to the BWO unit 3, the taps 64 and 63 are closed / with the taps 61 and 62 open / and the water enters through the nozzle 59 into the annular insert 65 of the UV device and is penetrated by the rays of the ultraviolet lamp 66. At the same time, under the pressure of the water, the ciliary brush 67, performing a reciprocating and rotational movement in two directions, removes precipitation and turbidity from the inner surface of the quartz insert. Then, with the shut-off valve 69 of the pipe 68 and the open valve 70, it enters the ionizer 71, where it is ionized with silver, and then with the open valve 72 and the closed valve 73 it enters the consumer.

 If it is necessary to chlorinate water, bypassing ultraviolet irradiation / ultraviolet irradiation / and silver ionization, shut off taps 62, 69 and 72, passing water through the outlet pipe 60 with the chlorination chamber through an open valve 73 to the consumer.

 If it is necessary to pass water through the UFD chamber and the taps 63, 64, 70, 72 are closed through the chlorinator, with the taps 62, 69 and 73 open, the water is sent to the consumer.

 The replacement of filter cartridges is as follows. The signal of the sensor 77, tuned to the specified conductivity mode and according to other indicators, is fed to the amplifier, and then to the executive unit (not shown), which opens the MVO solenoid 15 and the CVO solenoid 28b and closes the valves 13 and 21, i.e. enters the MBO into the washing mode of the filter element, shutting off the water supply to the HVO. At the same time, valve 61 is closed, which eliminates the reverse outflow of water from the BWO to the HVO. When washing the filter element 9, the following sequential operations occur. Through the valve 28 b, the pressure in the pneumatic lines 27 and 58 is vented and in the chambers 26 and 57 the pressure drops to "0". In this case, the elastic walls 26a of the elastic chambers 26 are returned to their initial position / in the “C” -shaped state of the chamber 26 and 57 with their transition from the coupling half 49 to the coupling half 25 and from the coupling half 50 to the coupling half 56 / as shown in FIG. 7 /. Following this, at the command of the RD, the electric motor 35 is turned on and through the gearbox 34 rotates the shaft 33 with the supporting drive cone-shaped rollers 32, on which the drum 29 is supported through the guides 31. The supporting cone-shaped rollers 32a act as driven rollers. When turning the drum 29, the protrusion 29a presses the limit switch lever (not shown) and breaks the power supply circuit of the electric motor 35 and the same two-arm switch turns on the electromagnetic brake 51 to the magnetic coil 51a. The magnetic field engages the brake shoe 52, which interacts with the surface of the drum 29, which dampens the rotation of a drum rotating by inertia. In this case, the latch 53 is pressed against the outer edge of the drum by spring and when approaching the recess 53a on the body, the drum stops in such a position that movable coupling halves 49 and 50 with fixed coupling halves 25 and 56 are in coaxial position. The number of recesses on the housing is as many as the sleeves in the drum . Following the locking of the drum position, a signal is sent to turn on the compressor 28, to close the valve 28b, to open the valves 21 and 13 and close the valve 15, i.e., the MBO is entered into operation mode. Under the pressure of compressed air, the chambers 26 and 57 melt, increase in volume and fill the space in the movable coupling halves 49 and 50 and the densified thickened wall 26a, which acts as a spring, and seal the half-coupling spaces at the inlet and outlet of the inlet and outlet pipes of the HVO. The operation of the unit continues, and the operator removes the covers 45 and 46, removes the large 39 and small 40 cartridges with adsorbents 41 from the pipe 38, and puts new ones in their place, i.e. reloads cartridges of the spent adsorption element, automatically removed from the working process.

 The use of the above-described unit-regenerator of drinking water allows you to create a complete process-cycle of cleaning it in a continuous stream in automatic mode that meets the requirements for cleanliness, neutralization of chemical and bacteriological components, which does not yet solve the existing technical means of water treatment.

Claims (7)

 1. UNIT FOR WATER PURIFICATION, including series-connected blocks of mechanical, chemical and biological water purification with branch pipes for supply and removal of phases, characterized in that, in order to improve the quality of water treatment and the rapid replacement of cleaning elements during operation of the unit, a unit for chemical water treatment contains concentric horizontal cylinders, the outer of which is equipped with annular guides, sleeves with cartridges filled with adsorbent, drive and support rollers interacting with guides of the current cylinder, the liners are provided with caps on which the inlet and outlet pipes are installed on one side and periodically communicating via couplings with the pipes of mechanical and biological cleaning units.  2. The assembly according to claim 1, characterized in that, in order to ensure ease of maintenance, the liner covers are removable, and each liner is provided with an internal partition and a pipe passing coaxially with the nozzles passing through the partition with a gap to the walls and covers of the liner, and cartridges are made of different sizes.  3. The assembly according to claim 1, characterized in that the couplings are made in the form of two coupling halves, movable and stationary, having a C-shaped cross section, between which an elastic closed shell is installed, expanding when air enters.  4. The unit according to paragraphs. 1-3, characterized in that, in order to increase operational reliability, the elastic shell of the coupling half is made with a thickening in places overlapping the gap between the coupling halves.  5. The unit according to paragraphs. 1 to 4, characterized in that, in order to ensure coaxial installation of the nozzles when replacing the cartridges, the chemical cleaning unit is equipped with an electric brake with a spring-loaded lock mounted on the brake shoe, and the outer surface of the outer cylinder is made with cavities interacting with the lock.  6. The unit according to paragraphs. 1-5, characterized in that the nozzles of the blocks of mechanical and biological water purification are equipped with branch pipes with taps for water selection.  7. The unit according to paragraphs. 1-6, characterized in that, in order to ensure quality analyzes by the classical method and the method of chromatography of its chemical composition in a continuous stream, water outlets are installed at the outlet pipes.

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