CN112010481A

CN112010481A - Water purification filtering device and treatment method thereof

Info

Publication number: CN112010481A
Application number: CN202010718410.5A
Authority: CN
Inventors: 卢红兵
Original assignee: Nanjing Di Environmental Technology Engineering Co ltd
Current assignee: Nanjing Di Environmental Technology Engineering Co ltd
Priority date: 2020-07-23
Filing date: 2020-07-23
Publication date: 2020-12-01

Abstract

The invention discloses a filtering device for water purification and a treatment method thereof, which relate to the field of environmental protection and specifically comprise a gas-liquid mixing device, an ion separation tank, a water storage tank and a reverse osmosis device, wherein the gas-liquid mixing device is connected with the ion separation tank through a centrifugal water pump; electrode plates are fixed on the front inner wall and the rear inner wall of one end, facing the centrifugal water pump, of the ion separation box through bolts, and a herringbone filter screen is fixed at the other end of the ion separation box. In the implementation process of the invention, the purification of water is completed by the carbon dioxide, so that the negative influence of chlorine on human body in the traditional method is effectively avoided, and the environmental protection performance of the invention is improved due to the environmental friendliness of the carbon dioxide.

Description

Water purification filtering device and treatment method thereof

Technical Field

The invention relates to the field of environmental protection, in particular to a water purification filtering device and a treatment method thereof.

Background

The construction site is a place where building projects are being developed and civil engineering is carried out, and the range of the construction site is often closed by enclosing plates, wire nets or enclosing walls so as to limit the access of personnel, materials, machinery and vehicles. And a property management manager keeps watch. Entry and exit may require registration of identity, wearing of safety helmets, etc.

Can produce a large amount of sewage often in building work progress or enterprise's production process, directly discharge after carrying out preliminary treatment with sewage to retrieve sewage by large-scale sewage treatment plant, large-scale sewage treatment plant purifies after filtering sewage, changes into the running water, carries out reuse to water, thereby the water economy resource.

Most of the existing treatment technologies of water treatment plants are to add chlorine gas for treatment, and the water added with the chlorine gas has a disinfection effect. Since chlorine reacts with water to generate hypochlorous acid, which has strong oxidizing property and reacts with lipid of bacterial cell wall to generate double bond, and penetrates into the interior of thallus to change the permeability of cell, thereby causing bacterial death. This method was born in the 50's of the 19 th century, when an English man successfully used this technique to stop the spread of London cholera. To date, this is also the most common method of disinfection. However, scientists have subsequently proposed that chlorine not only sterilizes but also negatively affects the nuclei of other organisms and human cells.

In recent years, the combination of carbon dioxide with sewage has been proposed by the warrior geologists, the academy of sciences of the united states of america, since the incorporation of carbon dioxide into water promotes the acidification of water and lowers its pH. Thus, the growth of the pollution algae such as blue algae, green algae and the like which are not suitable for the acid environment is fundamentally inhibited. This new finding, in addition to the carbon dioxide being able to make the water slightly acidic, also suggests that the dispersion of colloidal particles can be dissolved by the carbon dioxide entering the water and that its dissolution will produce a concentration gradient. Using this principle, researchers have further discovered that the directional motion brought about by carbon dioxide dissolution can separate particles with very low energy consumption. More importantly, carbon dioxide is environmentally friendly after being dissolved in water and is also easily separated from water. It is these advantages that make the carbon dioxide decomposition technology more promising in developing countries, it can be used for cleaning ponds and rivers polluted by bacteria and dirt particles, and it can also be used for plant desalination to remove viruses and bacteria from plants.

However, this technique has not been widely used so far, and on one hand, it cannot ensure complete separation of ions from pure water when carrying contaminant particles, and on the other hand, it is a big problem how to completely dissolve carbon dioxide into water in a short time.

Disclosure of Invention

The present invention is directed to a filter device for water purification and a method for processing the same, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a filter device for water purification comprises a gas-liquid mixing device, an ion separation tank, a water storage tank and a reverse osmosis device, wherein a centrifugal water pump is fixedly mounted on the side wall of the gas-liquid mixing device through a bolt, the input end of the centrifugal water pump extends into the gas-liquid mixing device, the output end of the centrifugal water pump is fixedly connected with one end of the ion separation tank, the middle part of the other end of the ion separation tank is fixedly connected with the water storage tank through a pipeline, the front side wall and the rear side wall of the other end of the ion separation tank are respectively fixedly connected with one end of a connecting pipe, the other end of the connecting pipe is fixedly connected with ports on two sides of a three-way pipe;

electrode plates are fixed on the front inner wall and the rear inner wall of one end, facing the centrifugal water pump, of the ion separation box through bolts, and a herringbone filter screen is fixed at the other end of the ion separation box.

As a further scheme of the invention: and a one-way valve is arranged on a pipeline between the three-way pipe and the reverse osmosis device.

As a further scheme of the invention: the electrode plates on the front inner wall and the rear inner wall of the ion separation box have opposite polarities.

As a further scheme of the invention: the gas-liquid mixing device is by the intake pipe, the mixing box, the swinging head, driven gear, including a motor, an end cap, a controller, and a cover plate, the driving gear, dispersion impeller and inlet tube constitute, the inlet tube has been seted up at the top of mixing box, the inside bottom surface of mixing box rotates installs vertical swinging head, the bottom and the intake pipe intercommunication of swinging head, the top fixed mounting of swinging head has the dispersion impeller, the inside of dispersion impeller is cavity and communicates with the swinging head, a plurality of through-holes that are used for dispersing carbon dioxide for the microbubble are evenly seted up to the top surface of dispersion impeller, the underrun bolt fixed mounting of mixing box has the motor, the vertical bottom surface fixed connection with the driving gear that upwards stretches into in the mixing box of output of motor, the welding has driven gear.

As a further scheme of the invention: the reverse osmosis device comprises a permeation box, a sewage draining port, a brush, a sealing block, a filter membrane frame, a water outlet, a fixing block, a partition plate, a lifting rod and a booster pump, wherein the vertical partition plate is fixed inside the permeation box in an integrated forming mode, the bottom of the partition plate is opened to form an opening, the vertical filter membrane frame is installed inside the partition plate in a sliding mode, the top end of the filter membrane frame extends out of the upper portion of the permeation box, the bottom end of the filter membrane frame is inserted into the sealing block, the sealing block is welded to the bottom surface inside the permeation box, an ultrafiltration membrane is arranged inside the filter membrane frame, the booster pump is fixedly installed on the top of one side, facing a three-way pipe, of the permeation box through bolts, the part of the permeation box, located between the three-way pipe and the partition plate, the sewage draining port is fixedly provided with a valve, the fixing block is welded on the bottom of one side, facing, the bottom of the lifting rod is welded with a brush, the brush part of the brush is in contact with the side face of the ultrafiltration membrane, the bottom of the other side of the permeation box relative to the three-way pipe is provided with a water outlet, and the water outlet is connected with the water storage tank through a pipeline.

The water purification treatment method based on any one of the filter devices comprises the following steps:

the method comprises the following steps: putting the garbage and larger particles in the sewage into alum, and then carrying out primary filtration treatment;

step two: inputting the filtered sewage into a gas-liquid mixing device to be mixed with carbon dioxide gas;

step three: conveying the sewage mixed with carbon dioxide into an ion separation box through a centrifugal water pump, electrolyzing the carbon dioxide dissolved in the water through an electrode plate to form carbonate anions and hydrogen cations, and meanwhile, deviating tiny particles in the carbonate anions carrying sewage to a positive plate and deviating tiny particles in the hydrogen cations carrying sewage to a negative plate by utilizing the principle of opposite attraction;

step four: filtering the tiny particles carrying ions under the action of a filter screen, so that the dirt enters a reverse osmosis device for reverse osmosis treatment, and the filtered water directly enters a water storage tank;

step five: the concentrated solution permeated from the reverse osmosis device is conveyed to a special evaporation device for crystallization treatment, and the permeated water enters the water storage tank to finish the treatment of the water.

Compared with the prior art, the invention has the beneficial effects that: in the implementation process of the invention, the purification of water is completed by the carbon dioxide, so that the negative influence of chlorine on human body in the traditional method is effectively avoided, and the environmental protection performance of the invention is improved due to the environmental friendliness of the carbon dioxide;

the positive and negative ions obtained by electrolysis adsorb and gather tiny particles in the sewage to form particles which can be filtered by a filter screen, and the particles are filtered by a herringbone filter screen arranged in an ion separation box to purify water, so that the ions and the pure water are completely separated, and the water purification effect is improved;

through the dispersion to carbon dioxide among the gas-liquid mixing device and the rotation effect of dispersion impeller, make carbon dioxide can dissolve into aquatic fast, solved the unable short time of carbon dioxide and dissolved in the problem of water.

Drawings

Fig. 1 is a schematic view showing a structure of a filtering apparatus for water purification.

Fig. 2 is a plan view of an ion separation tank and a reverse osmosis apparatus in a filtration apparatus for water purification.

Fig. 3 is a schematic view showing a structure of a gas-liquid mixing device in a filtering apparatus for water purification.

Fig. 4 is a schematic view showing the construction of a reverse osmosis apparatus in a filtration apparatus for water purification.

As shown in the figure: the device comprises a gas-liquid mixing device 1, an air inlet pipe 10, a mixing box 11, a rotating pipe 12, a driven gear 13, a motor 14, a driving gear 15, a dispersion disc 16, a water inlet pipe 17, a centrifugal water pump 2, an ion separation box 3, a connecting pipe 4, a water storage box 5, a three-way pipe 6, a reverse osmosis device 7, a permeation box 71, a sewage outlet 72, a hairbrush 73, a sealing block 74, a filter membrane frame 75, a water outlet 76, a fixing block 77, a partition plate 78, a lifting rod 79 and a booster pump 710.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a water purification filtering apparatus includes a gas-liquid mixing device 1, an ion separation tank 3, a water storage tank 5 and a reverse osmosis device 7, there are centrifugal water pump 2 on the lateral wall of gas-liquid mixing device 1 through bolt fixed mounting, the input of centrifugal water pump 2 stretches into the inside of gas-liquid mixing device 1, centrifugal water pump 2's output and the one end fixed connection of ion separation case 3, the middle part of the ion separation case 3 other end is through pipeline and storage water tank 5 fixed connection, the lateral wall is respectively with the one end fixed connection of a connecting pipe 4 around the ion separation case 3 other end, the other end of connecting pipe 4 and the both sides port fixed connection of three-way pipe 6, the middle part port of three-way pipe 6 passes through pipeline and reverse osmosis unit 7 intercommunication, the positive and negative ion that carries the particulate matter combines in reverse osmosis unit 7, be equipped with the check valve on the pipeline between three-way pipe 6 and reverse osmosis unit.

The ion separation box 3 is fixed with electrode plates 8 on the front inner wall and the rear inner wall of one end facing the centrifugal water pump 2 through bolts, the electrode plates 8 on the front inner wall and the rear inner wall of the ion separation box 3 are opposite in polarity, so that carbon dioxide dissolved in water is electrolyzed to form carbonate anions and hydrogen cations, meanwhile, the carbonate anions carry tiny particles in sewage to deviate towards the positive plate by utilizing the principle of opposite attraction, the hydrogen cations carry tiny particles in sewage to deviate towards the negative plate, the other end of the ion separation box 3 is fixed with a herringbone filter screen 9 to filter water, the positive ions and the negative ions carrying the particles respectively enter the reverse osmosis device 7 from different connecting pipes 4 to be processed, the water filtered by the filter screen 9 enters the water storage tank 5 to be stored, and in the working process of the filter screen 9, the water always has a scouring effect on the filter screen 9, the pollutants can not stay on the filter screen 9, so that the cleaning work of the filter screen 9 is also avoided, and the working intensity of workers is reduced.

The gas-liquid mixing device 1 comprises an air inlet pipe 10, a mixing box 11, a rotating pipe 12, a driven gear 13, a motor 14, a driving gear 15, a dispersion disc 16 and a water inlet pipe 17, wherein the water inlet pipe 17 is arranged at the top of the mixing box 11, the water inlet pipe 17 is connected with a sewage supply device after primary treatment, the vertical rotating pipe 12 is rotatably arranged at the bottom surface inside the mixing box 11, the bottom end of the rotating pipe 12 is communicated with the air inlet pipe 10, the dispersion disc 16 is fixedly arranged at the top end of the rotating pipe 12, the dispersion disc 16 is hollow and communicated with the rotating pipe 12, a plurality of through holes for dispersing carbon dioxide into small bubbles are uniformly arranged at the top surface of the dispersion disc 16, the motor 14 is fixedly arranged at the bottom surface of the mixing box 11 through bolts, the output end of the motor 14 vertically extends upwards into the mixing box 11 to be fixedly connected with the bottom surface of the driving gear, the driving gear 15 and the driven gear 13 are meshed, so that when the carbon dioxide bubble mixing device is used, the driving gear 15 and the driven gear 13 are driven to rotate through the motor 14, the rotating pipe 12 and the dispersion disc 16 are driven to rotate, and the mixing effect of carbon dioxide bubbles and water is improved.

The reverse osmosis device 7 comprises a permeation box 71, a sewage draining outlet 72, a brush 73, a sealing block 74, a filter membrane frame 75, a water outlet 76, a fixing block 77, a partition plate 78, a lifting rod 79 and a booster pump 710, wherein the vertical partition plate 78 is integrally formed and fixed in the permeation box 71, the bottom of the partition plate 78 is provided with an opening, the vertical filter membrane frame 75 is slidably installed in the partition plate 78, the top end of the filter membrane frame 75 extends out of the permeation box 71 to be convenient to draw out the filter membrane frame 75 for maintenance, the bottom end of the filter membrane frame 75 is inserted into the sealing block 74 to complete sealing of the bottom of the filter membrane frame 75, the sealing block 74 is welded on the inner bottom surface of the permeation box 71, an ultrafiltration membrane is arranged in the filter membrane frame 75, the booster pump 710 is fixedly installed on the top of one side of the permeation box 71 facing the three-way pipe 6 through bolts, the inner part of the permeation box 71 is, the bottom of the part, located between the three-way pipe 6 and the partition plate 78, of the permeation box 71 is provided with a drain 72, a valve is fixed on the drain 72, a fixing block 77 is welded on the bottom of one side, facing the three-way pipe 6, of the partition plate 78, a vertical lifting rod 79 is slidably mounted on the fixing block 77, a handle is welded on the top of the lifting rod 79, extending out of the top of the permeation box 71, a brush 73 is welded at the bottom end of the lifting rod 79, the brush hair portion of the brush 73 is in contact with the side face of the ultrafiltration membrane, in the using process, the lifting rod 79 is pulled through the handle to enable the brush 73 to move in the vertical direction, the ultrafiltration membrane is cleaned, the filter membrane frame 75 does not need to be taken out to complete cleaning work, the working difficulty of workers is reduced, a water outlet 76 is formed in the bottom of the other side of the.

A method of treating water purification, comprising the steps of:

step two: inputting the filtered sewage into a gas-liquid mixing device 1 to be mixed with carbon dioxide gas;

step three: conveying the sewage mixed with carbon dioxide into an ion separation box 3 through a centrifugal water pump 2, electrolyzing the carbon dioxide dissolved in the water through an electrode plate 8 to form carbonate anions and hydrogen cations, and deviating tiny particles in the carbonate anions-carrying sewage to a positive plate and deviating the tiny particles in the hydrogen cations-carrying sewage to a negative plate by utilizing the principle of opposite attraction;

step four: filtering the tiny particles carrying ions under the action of a filter screen 9, so that the dirt enters a reverse osmosis device 7 for reverse osmosis treatment, and the filtered water directly enters a water storage tank 5;

step five: the concentrated solution permeated from the reverse osmosis device 7 is transmitted to a special evaporation device for crystallization treatment, and the permeated water enters the water storage tank 5 to finish the treatment of the water.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention without departing from the spirit and scope of the invention.

Claims

1. A filter device for water purification comprises a gas-liquid mixing device (1), an ion separation tank (3), a water storage tank (5) and a reverse osmosis device (7), the device is characterized in that a centrifugal water pump (2) is fixedly mounted on the side wall of the gas-liquid mixing device (1) through a bolt, the input end of the centrifugal water pump (2) extends into the gas-liquid mixing device (1), the output end of the centrifugal water pump (2) is fixedly connected with one end of an ion separation box (3), the middle part of the other end of the ion separation box (3) is fixedly connected with a water storage tank (5) through a pipeline, the front side wall and the rear side wall of the other end of the ion separation box (3) are respectively fixedly connected with one end of a connecting pipe (4), the other end of the connecting pipe (4) is fixedly connected with ports on two sides of a three-way pipe (6), and the middle port of the three-way pipe (6) is communicated;

an electrode plate (8) is fixed on the front inner wall and the rear inner wall of one end, facing the centrifugal water pump (2), of the ion separation box (3) through bolts, and a herringbone filter screen (9) is fixed at the other end of the ion separation box (3).

2. A water purification filter unit according to claim 1, c h a r a c t e r i z e d in that a one-way valve is arranged in the conduit between the tee (6) and the reverse osmosis unit (7).

3. A water purification filter device as claimed in claim 1, wherein the electrode plates (8) on the front and rear inner walls of the ion separation chamber (3) are of opposite polarity.

4. The water purification filtering device according to claim 1, wherein the gas-liquid mixing device (1) comprises an air inlet pipe (10), a mixing box (11), a rotating pipe (12), a driven gear (13), a motor (14), a driving gear (15), a dispersion disc (16) and a water inlet pipe (17), the water inlet pipe (17) is arranged at the top of the mixing box (11), the vertical rotating pipe (12) is rotatably arranged at the bottom inside the mixing box (11), the bottom end of the rotating pipe (12) is communicated with the air inlet pipe (10), the dispersion disc (16) is fixedly arranged at the top end of the rotating pipe (12), the dispersion disc (16) is hollow and is communicated with the rotating pipe (12), a plurality of through holes for dispersing carbon dioxide into small bubbles are uniformly arranged at the top surface of the dispersion disc (16), the motor (14) is fixedly arranged at the bottom surface of the mixing box (11) through bolts, the output end of the motor (14) vertically extends upwards into the mixing box (11) and is fixedly connected with the bottom surface of the driving gear (15), the rotating pipe (12) is welded with the driven gear (13), and the driving gear (15) is meshed with the driven gear (13).

5. The water purification filtering device according to claim 1, wherein the reverse osmosis device (7) comprises a permeation box (71), a sewage outlet (72), a brush (73), a sealing block (74), a filter membrane frame (75), a water outlet (76), a fixing block (77), a partition plate (78), a lifting rod (79) and a booster pump (710), wherein the vertical partition plate (78) is integrally formed and fixed in the permeation box (71), the bottom of the partition plate (78) is provided with an opening, the vertical filter membrane frame (75) is slidably installed in the partition plate (78), the top end of the filter membrane frame (75) extends out of the upper portion of the permeation box (71), the bottom end of the filter membrane frame (75) is inserted into the sealing block (74), the sealing block (74) is welded on the inner bottom surface of the permeation box (71), an ultrafiltration membrane is arranged in the filter membrane frame (75), the booster pump (710) is fixedly installed on the top of one side, facing the three-way pipe (6), of the permeation box (71) through bolts, the bottom of the part, located between the three-way pipe (6) and the partition plate (78), of the permeation box (71) is provided with a drain outlet (72), a valve is fixed on the drain outlet (72), a fixing block (77) is welded to the bottom of one side of the partition plate (78) facing the three-way pipe (6), a vertical lifting rod (79) is slidably mounted on the fixing block (77), a handle is welded to the top end of the lifting rod (79) extending out of the top of the permeation box (71), a brush (73) is welded to the bottom end of the lifting rod (79), the bristle part of the brush (73) is in contact with the side face of the ultrafiltration membrane, a water outlet (76) is formed in the bottom of the other side of the permeation box (71) relative to the three-way pipe (6), and.

6. A water purification treatment method based on a filter device for purifying water according to any one of claims 1 to 5, characterized by comprising the steps of:

step two: inputting the filtered sewage into a gas-liquid mixing device (1) to be mixed with carbon dioxide gas;

step three: conveying the sewage mixed with carbon dioxide into an ion separation box (3) through a centrifugal water pump (2), electrolyzing the carbon dioxide dissolved in water through an electrode plate (8) to form carbonate anions and hydrogen cations, and deviating tiny particles in the sewage carried by the carbonate anions to a positive plate and the tiny particles in the sewage carried by the hydrogen cations to a negative plate by utilizing the principle of opposite attraction;

step four: the micro particles carrying ions are filtered under the action of the filter screen (9), so that the dirt enters the reverse osmosis device (7) for reverse osmosis treatment, and the filtered water directly enters the water storage tank (5);

step five: the concentrated solution permeated from the reverse osmosis device (7) is transmitted to a special evaporation device for crystallization treatment, and the permeated water enters a water storage tank (5) to finish the treatment of the water.