CN217627940U - Seawater environment-friendly purifying equipment - Google Patents

Abstract

The utility model discloses a seawater environment-friendly purification device, which belongs to the technical field of environment-friendly equipment and comprises a collision mixing pipe, a mixing inner bin, a sedimentation middle bin, a recovery assembly, a sterilization outer bin and a water inlet pipe, wherein a first release hole is arranged at one end of the collision mixing pipe, which is far away from the water inlet pipe; the mixing inner bin is communicated with the clash mixing pipe through a first release hole, and a second release hole is formed in the mixing inner bin; the sedimentation middle bin is communicated with the mixing inner bin through a second release hole; the recovery assembly is simultaneously communicated with the sterilization outer bin, the mixing inner bin and the precipitation middle bin, the recovery assembly comprises a filter frame simultaneously connected with the sterilization outer bin, the mixing inner bin and the precipitation middle bin, and the filter frame is arranged at one end, far away from the second release hole, of the precipitation middle bin; the water inlet pipe is connected with one end of the clash mixing pipe close to the recovery assembly. The utility model provides a pair of sea water environmental protection clarification plant solves the problem that prior art can not satisfy national environmental protection requirement, purifying effect is poor, and the effect is showing, is suitable for extensive popularization.

Description

Seawater environment-friendly purifying equipment

Technical Field

The utility model relates to an environmental protection equipment technical field, in particular to, sea water environmental protection clarification plant.

Background

Most of the existing environmental protection equipment in the market is environmental protection equipment in the fresh water field, and few of the existing environmental protection equipment in the seawater field are adopted, and the equipment adopts the traditional, single and simplified traditional process, and is not updated along with the national development, so that the equipment is not only backward in technology and unsatisfactory and unobvious in environmental protection treatment effect, but also is not in accordance with the national environmental protection requirement at the present stage, not only cannot play the role of environmental protection treatment, but also can cause the adverse effect of environmental pollution; therefore, a large amount of backward equipment occupies the market, the price is high, the problem cannot be solved, economic waste is caused, and a large amount of market resources are occupied; although the unit price of the environmental protection equipment in the traditional field is cheap, the environmental protection equipment cannot keep pace with the steps developed by the country, cannot meet the environmental protection requirement of the country at the current stage, and has unreliable quality, so that the environmental protection equipment needs to be continuously replaced, and the economic investment is greatly increased.

Aiming at the problems, the equipment is designed, and the problems that the traditional environment-friendly equipment in the prior art cannot meet the requirement of the state on environment protection at the present stage, cannot keep pace with the national environment-friendly requirement, is large in economic investment, causes counter pollution and is lost in the market of the seawater purification environment-friendly equipment are solved.

SUMMERY OF THE UTILITY MODEL

To the above defect, the utility model provides a technical problem lies in, provides a sea water environmental protection clarification plant to solve the traditional environmental protection equipment that prior art exists, reach not reach the requirement of present stage country to the environmental protection, can not keep up with the pace that national environmental protection required, that traditional equipment economic investment is big, traditional equipment causes anti-pollution, the problem of sea water purification environmental protection equipment market disappearance.

The utility model provides a sea water environmental protection clarification plant, include:

the collision mixing pipe is used for preliminarily mixing the water body and the medicines, and is provided with a first release hole;

the mixing inner bin is communicated with the collision mixing pipe through the first release hole and wraps the collision mixing pipe, and a second release hole is formed in the mixing inner bin;

the sedimentation middle bin is communicated with the mixing inner bin through the second release hole and is arranged on one side, far away from the collision mixing pipe, of the mixing inner bin;

the recovery assembly is communicated with the mixing inner bin and the sedimentation middle bin simultaneously and is used for recovering sediments, the recovery assembly comprises a filter frame connected with the mixing inner bin and the sedimentation middle bin simultaneously, and the filter frame is arranged at one end, far away from the second release hole, of the sedimentation middle bin;

the sterilization outer bin is communicated with the recovery assembly and is arranged on one side of the precipitation middle bin, which is far away from the mixing inner bin, and the sterilization outer bin is connected with the filter frame;

the water inlet pipe sequentially penetrates through the sterilization outer bin, the sedimentation middle bin and the mixing inner bin and is connected with the colliding mixing pipe and used for conveying water and medicines into the colliding mixing pipe, the water inlet pipe is arranged at one end, close to the recovery assembly, of the colliding mixing pipe, the first release hole is formed in one end, far away from the water inlet pipe, of the colliding mixing pipe, and the second release hole is formed in one side, far away from the water inlet pipe, of the first release hole.

Preferably, the sedimentation intermediate bin comprises:

the middle bin body is connected with the filter frame and communicated with the recovery assembly;

the oxidation air guide pipe is arranged in the middle bin body and is of an annular structure, the mixing inner bin penetrates through the oxidation air guide pipe, and the oxidation air guide pipe and the mixing inner bin are arranged at intervals;

one end of the oxidation air inlet pipe is connected with the first air pumping device, and the other end of the oxidation air inlet pipe penetrates through the sterilization outer bin and the middle bin body in sequence to be connected with the oxidation air guide pipe and is used for conveying air into the oxidation air guide pipe;

the oxidizing gas release pipes are communicated with the oxidizing gas guide pipes, a plurality of oxidizing gas release pipes are arranged along the circumferential direction of the oxidizing gas guide pipes, and a plurality of gas outlet holes are symmetrically formed in any one oxidizing gas release pipe;

the first fixing frame is connected with the middle bin body and the mixed inner bin and used for fixing the middle bin body and the mixed inner bin.

Preferably, the sterilization outer bin comprises:

the outer bin body is connected with the filter frame and communicated with the recovery assembly;

the sterilizing air guide pipe is arranged in the outer bin body and is of a circular structure, the middle bin body penetrates through the sterilizing air guide pipe, and the sterilizing air guide pipe and the middle bin body are arranged at intervals;

one end of the sterilization air inlet pipe is connected with the second air pumping device, and the other end of the sterilization air inlet pipe penetrates through the outer bin body to be connected with the sterilization air guide pipe and is used for conveying air into the sterilization air guide pipe;

the sterilizing gas releasing pipe is communicated with the sterilizing gas guide pipe, and the sterilizing gas releasing pipe and the oxidizing gas releasing pipe have the same structure;

the filter assembly is arranged in the outer bin body and is simultaneously connected with the outer bin body and the middle bin body, and the filter assembly is arranged between the sterilizing air guide pipe and the filter frame;

and the water outlet pipe is communicated with the outer bin body and is arranged at one end, far away from the filtering component, of the outer bin body.

Preferably, the filter assembly comprises:

the filter is arranged in the outer bin body and is detachably connected with the outer bin body and the middle bin body at the same time, and a plurality of filters are arranged at intervals along the arrangement direction of the middle bin body;

the filter sets up in adjacent two between the filter, and simultaneously with outer storehouse body with well storehouse body can dismantle the connection, the filter with the filter is certain angle setting, adjacent two the filter is followed the filter symmetry sets up.

Preferably, the outer cartridge body comprises:

one end of the bin body is connected with the filter frame, and the bin body is of a cylindrical tubular structure;

the strengthening part is connected with the other end of the bin body, and the bin body is communicated with the outside through the strengthening part;

the buffer part is simultaneously connected with the bin body and the water outlet pipe and is arranged on one side of the bin body, which is far away from the sedimentation middle bin;

the water passing groove is connected with the bin body and arranged in the bin body, the water passing groove is communicated with the buffer part, the water passing groove is close to one end of the reinforcing part and is provided with a sawtooth-shaped groove, and the sawtooth-shaped groove is used for controlling the water flow speed and limiting the water level height.

Preferably, the middle bin body comprises:

one end of the aeration part is connected with the filter frame and is arranged on one side of the mixing inner bin, which is far away from the clash mixing pipe, and the aeration part is of a cylindrical structure;

the air outlet part is integrally formed with the other end of the aeration part, the air outlet part is of a conical structure, and the oxidation air inlet pipe penetrates through the air outlet part and is connected with the oxidation air guide pipe;

and the air outlet is arranged on the air outlet part and used for discharging the air in the aeration part.

Preferably, the recovery assembly further comprises:

the sedimentation part is connected with the filter rack and has an inverted frustum-shaped structure, and is simultaneously communicated with the mixing inner bin, the sedimentation middle bin and the sterilization outer bin through the filter rack and used for receiving sediments;

the blow-off pipe is communicated with one end of the settling part far away from the filter rack, and a blow-off control valve is arranged on the blow-off pipe;

the supporting legs are connected with the precipitation part and arranged on one side of the precipitation part, which is far away from the sterilization outer bin.

Preferably, the impingement mixing tube comprises:

one end of the pipe body is connected with the water inlet pipe and is arranged in the mixing inner bin;

the guide plates are arranged in the tube body and fixedly connected with the tube body, and a plurality of guide plates are arranged along the circumferential direction of the tube body and used for guiding and mixing the water body and the medicines;

one end of the guide mixing pipe is connected with the other end of the pipe body;

the releasing port is connected with the other end of the guide mixing pipe, and the first releasing hole is formed in the releasing port.

Preferably, the mixing inner bin comprises:

one end of the bin body is connected with the filter frame, and the oxidation air guide pipe is arranged in the middle of the bin body;

the bin head is connected with the other end of the bin body, and the second release hole is formed in the bin head;

the partition plate is simultaneously connected with the bin body and the tube body, a biological cavity is formed between the partition plate and the bin body and simultaneously communicated with the collision mixing tube and the sedimentation intermediate bin, a plurality of biological balls are arranged in the biological cavity and used for rotating water flow and further mixing water with medicines, and a plurality of sedimentation holes used for separating sediments are formed in the partition plate;

and the second fixing frame is simultaneously connected with the bin body and the pipe body and is used for fixing the pipe body and the bin body.

Preferably, a distance and a flow control valve are arranged between one end of the water inlet pipe, which is far away from the colliding mixing pipe, and the sterilizing outer bin, and a dosing device is arranged at one end of the flow control valve, which is far away from the water inlet pipe.

According to the above technical scheme, the utility model provides a pair of sea water environmental protection clarification plant is a multi-functional integration sea water environmental protection clarification plant, a salt branch separates out in the sea water, the vacancy in sea water purification market has been filled, the field that sea sand purified has been opened up, the salinity and other precipitates of separating out, through a series of technology processing, can be used as building material, when reaching fine sea water purifying effect, accord with the environmental protection requirement of present stage country to this field, and the quality is reliable, can use for a long time, economic investment is little, the price/performance ratio is high. The clash mixing pipe plays the roles of regulating water flow, guiding and guiding water flow; the mixing inner bin has the functions of uniformly mixing water and added medicines, standardizing the flow direction of water flow and the like; the precipitation middle bin plays a role in static oxidation precipitation and the like; the sterilization outer bin has the effects of sterilization, disinfection, generation of reuse water meeting the reuse standard, generation of available precipitates and the like. The utility model discloses aim at solving traditional environmental protection equipment and not reaching the requirement of present stage country to the environmental protection, can not catch up with the pace that national environmental protection required, traditional equipment economic investment is big, traditional equipment causes anti-pollution, sea water purification environmental protection equipment market disappearance scheduling problem, and the effect is showing, is suitable for extensive popularization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a three-dimensional structure of an environmental-friendly seawater purification device provided by the present invention;

FIG. 2 isbase:Sub>A sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic structural view of a water passing tank of the seawater environmental protection and purification equipment provided by the utility model;

FIG. 4 is a schematic sectional view of the seawater environment-friendly purification device provided by the present invention except for the sterilization outer bin;

FIG. 5 is an enlarged view of the structure of FIG. 4 at D;

FIG. 6 is an enlarged view of the structure at C in FIG. 4;

fig. 7 is a schematic view of the three-dimensional structure of the oxidizing gas releasing pipe, the oxidizing gas inlet pipe and the oxidizing gas guiding pipe of the seawater environmental protection and purification equipment provided by the utility model.

In FIGS. 1-7:

1. colliding the mixing pipes; 2. mixing an inner bin; 3. settling and intermediate warehousing; 4. a recovery assembly; 5. sterilizing the outer bin; 6. a water inlet pipe; 7. a bio-sphere; 11. a tube body; 12. a guide plate; 13. guiding the mixed pipe; 14. a release port; 21. a bin body; 22. a bin head; 23. a separator plate; 24. a second fixing frame; 25. a biological cavity; 31. a middle bin body; 32. oxidizing the gas-guide tube; 33. oxidizing the air inlet pipe; 34. an oxidizing gas releasing pipe; 35. a first fixing frame; 41. a filter frame; 42. a settling section; 43. a sewage discharge pipe; 44. supporting legs; 45. a blowdown control valve; 51. an outer bin body; 52. sterilizing the air duct; 53. sterilizing an air inlet pipe; 54. a sterilizing gas releasing tube; 55. a filter assembly; 56. a water outlet pipe; 141. a first release hole; 221. a second release hole; 231. a sediment hole; 311. an aeration section; 312. an air outlet part; 313. an air outlet; 341. an air outlet; 511. a bin body; 512. a reinforcing portion; 513. a buffer section; 514. passing through a water tank; 515. a third fixing frame; 551. a filter; 552. a filter plate; 5141. a serrated groove; 5142. a recess.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 7, a description will be given of an embodiment of an environmental-friendly seawater purifying apparatus provided by the present invention. The seawater environment-friendly purification equipment comprises a collision mixing pipe 1, a mixing inner bin 2, a sedimentation middle bin 3, a recovery component 4, a sterilization outer bin 5 and a water inlet pipe 6, wherein the collision mixing pipe 1 is used for primarily mixing a water body with a medicament, and a first release hole 141 is formed in the collision mixing pipe 1; the mixing inner bin 2 is communicated with the colliding mixing pipe 1 through a first release hole 141 and is wrapped on the colliding mixing pipe 1 for further mixing the preliminarily mixed water body and the medicines, and a second release hole 221 is formed in the mixing inner bin 2; the sedimentation middle bin 3 is communicated with the mixing inner bin 2 through a second release hole 221, is arranged on one side of the mixing inner bin 2 far away from the colliding mixing pipe 1, and is used for carrying out primary sedimentation on the mixed liquid; the recovery component 4 is simultaneously communicated with the mixing inner bin 2 and the sedimentation middle bin 3 and is used for recovering sediments, the recovery component 4 comprises a filter frame 41 which is simultaneously connected with the mixing inner bin 2 and the sedimentation middle bin 3, and the filter frame 41 is arranged at one end of the sedimentation middle bin 3, which is far away from the second release hole 221; the sterilization outer bin 5 is communicated with the recovery component 4 and is arranged on one side of the precipitation middle bin 3, which is far away from the mixing inner bin 2, and the sterilization outer bin 5 is connected with the filter frame 41 and is used for further sterilizing and precipitating the liquid after preliminary precipitation; the inlet tube 6 runs through in proper order and disinfects outer storehouse 5, deposit in storehouse 3 and mix in storehouse 2 and be connected with colliding the hybrid tube 1 for carry water and medicine to colliding in the hybrid tube 1, inlet tube 6 sets up in colliding the one end that hybrid tube 1 is close to recovery subassembly 4, first release hole 141 sets up in colliding the one end that hybrid tube 1 kept away from inlet tube 6, second release hole 221 sets up in the one side that inlet tube 6 was kept away from to first release hole 141.

For convenience of explanation, please refer to fig. 1, a rectangular coordinate system is established with any point in space as an origin, the setting direction of the sterilization outer bin 5 as a Z-axis, the setting direction of the water inlet pipe 6 as an X-axis, and a linear direction perpendicular to both the X-axis and the Z-axis as a Y-axis, wherein an XY plane is a horizontal plane, a direction indicated on the horizontal plane is a horizontal direction, and a direction indicated on the Z-axis is a vertical direction.

In this embodiment, the filter holder 41 is a stainless steel plate provided with a plurality of 8 cm diameter ordinary circular holes, the plate thickness is 8 cm, and the filter holder 41 functions as: firstly, a sedimentation middle bin 3, a mixing inner bin 2 and a sterilization outer bin 5 are supported; secondly, realizing the isolation of the precipitate and clear water; thirdly, regulating the motion track of the water flow. The water inlet pipe 6 is welded with the sterilization outer bin 5, the sedimentation middle bin 3 and the mixing inner bin 2 at the periphery of the penetrating contact position.

The medicines added in the device mainly comprise medicines such as lime aluminum, calcium hydroxide and flocculating agent, the medicines are mixed with seawater, natural air (or required gas) released by an oxidizing gas release pipe 34 of the sedimentation middle bin 3 accelerates the oxidation process, salt in the seawater is decomposed through a series of processes, the substances precipitated in a precipitate discharge area of the recovery assembly 4 mainly comprise salt in the seawater, the precipitates are discharged and then subjected to filter pressing by a filter pressing device, solids obtained by filter pressing are transported away and stored, the solids can be used as building materials after being processed by the process, and water after filter pressing flows back to a water circulation sedimentation tank to continuously participate in the whole water circulation system.

Compared with the prior art, this kind of sea water environmental protection clarification plant is used for separating out the salt branch in the sea water, has filled the vacancy in sea water purification market, has opened up the field that sea sand purifies, and the salinity and other sediments of isolating through a series of technology processing can be as building material, when reaching fine sea water purifying effect, accords with the environmental protection requirement of present stage country to this field, and the quality is reliable, can use for a long time, and economic input is little, and the price/performance ratio is high. The colliding mixing pipe 1 plays the roles of regulating water flow, guiding and guiding water flow; the mixing inner bin 2 has the functions of uniformly mixing water and added medicines, standardizing the flow direction of water flow and the like; the sedimentation middle bin 3 plays a role in static oxidation sedimentation and the like; the sterilization outer bin 5 has the functions of sterilization and disinfection, generating reuse water meeting the reuse standard, generating available precipitates and the like.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is basically the same as that in the above embodiment, and the difference is that the settling middle bin 3 comprises a middle bin body 31, an oxidation gas guide tube 32, an oxidation gas inlet tube 33, an oxidation gas release tube 34, and a first fixing frame 35, wherein the middle bin body 31 is connected with the filtering frame 41 and is communicated with the recovery assembly 4; the oxidation air duct 32 is arranged in the middle bin body 31, the oxidation air duct 32 is of a circular structure, the mixing inner bin 2 penetrates through the oxidation air duct 32, and the oxidation air duct 32 and the mixing inner bin 2 are arranged at intervals; one end of the oxidation air inlet pipe 33 is connected with the first air pumping device, and the other end of the oxidation air inlet pipe penetrates through the sterilization outer bin 5 and the middle bin body 31 in sequence and is welded and communicated with the oxidation air guide pipe 32, and is used for conveying gas (the gas can be natural air, oxygen or other required gas) into the oxidation air guide pipe 32; the oxidizing gas release pipes 34 are welded and communicated with the oxidizing gas guide pipes 32, a plurality of oxidizing gas release pipes 34 are arranged along the circumferential direction of the oxidizing gas guide pipes 32, and a plurality of gas outlets 341 are symmetrically arranged on any one oxidizing gas release pipe 34; storehouse 2 is connected in first mount 35 simultaneously and well storehouse body 31 and the mixture, and first mounting can be for well storehouse body 31 and mix the angle steel or the square steel of welding between the interior storehouse 2 for storehouse body 31 and the mixture in fixed. The oxidation gas-guide tube 32, the oxidation gas inlet tube 33 and the oxidation gas release tube 34 play a role in introducing natural air (or other required gas) between the mixing inner bin 2 and the middle bin body 31 to accelerate the oxidation process, improve the oxidation efficiency and the like.

In this embodiment, the oxidizing gas releasing pipe 34 is a tubular structure with one end communicated with the oxidizing gas guiding pipe 32 and the other end sealed, the oxidizing gas releasing pipe 34 is 10 cm long (a check valve for preventing liquid in the middle bin body 31 from flowing back is installed on the air outlet 341 as required), the air outlet 341 is circumferentially arranged on the side surface of the oxidizing gas releasing pipe 34, the air outlet 341 is a quincunx hole with a hole diameter of 1 cm, a hole interval of 3 cm, a large inside and a small outside, and the oxidizing gas releasing pipe 34 is made of stainless steel and has a model number of 20; the oxidation gas-guide tube 32 is made of stainless steel and has a model number of 50 tubes; the oxidation intake pipe 33 is for being vertical gesture setting, stainless steel's drum, and the model is 50 pipes, and the oxidation intake pipe 33 is located the position between storehouse 2 in well storehouse body 31 and the mixture, does not contact with storehouse 2 in the mixture. The oxidation gas inlet pipe 33 is connected with a gas pumping device outside the sterilization outer bin 5, the gas pumping device works and pumps natural gas (or other required gas) into the oxidation gas guide pipe 32, and the gas is released through an oxidation gas release pipe 34. The structure further enhances the oxidation reaction in the precipitation middle bin 3, shortens the oxidation reaction time and improves the oxidation reaction efficiency.

The working principle of the sedimentation middle bin 3 is as follows: the liquid uniformly mixed in the mixing inner bin 2 is sprayed out through the second release holes 221 to reach the sedimentation middle bin 3 to start oxidation reaction. The liquid in the precipitation middle bin 3 accelerates the oxidation process under the work of releasing natural gas (or other required gas) from the oxidation gas release pipe 34, starts static oxidation precipitation, and generates gas, oxidation precipitate and water after oxidation. The natural gas (or other required gas) released by the oxidizing gas releasing pipe 34 and the gas generated after oxidation rise to the position of the gas outlet part 312, a downward pressure is generated on the liquid, the oxidized precipitate and the water in the precipitation middle bin 3, the liquid, the oxidized precipitate and the water in the precipitation middle bin 3 start to move along with the direction of the pressure, after the liquid, the oxidized precipitate and the water move through the filter rack 41, the precipitate is left in the precipitation part 42 according to the weight of the precipitate, and the water passing through the filter rack 41 continues to participate in the next procedure.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is basically the same as that in the above embodiment, and the difference is that the middle bin body 31 includes an aeration part 311, an air outlet part 312, and an air outlet 313, wherein one end of the aeration part 311 is welded to the filter frame 41 and is disposed on one side of the mixing inner bin 2 away from the colliding mixing pipe 1, and the aeration part 311 is a cylindrical structure with a diameter of 1.5 meters and is vertically disposed; the other end of the air outlet part 312 and the other end of the aeration part 311 are integrally formed, the air outlet part 312 is of a conical structure, the oxidation air inlet pipe 33 penetrates through the air outlet part 312 and is connected with the oxidation air guide pipe 32, and the periphery of the part where the air outlet part 312 and the oxidation air inlet pipe 33 penetrate and contact is welded and sealed; the air outlet 313 is arranged on the air outlet part 312, and the air outlet 313 is an electronic monitoring air outlet, and is automatically opened and closed to exhaust air after reaching a certain pressure, so that the air in the aeration part 311 is exhausted when the air needs to be exhausted. The middle bin body 31 is 2.5 meters high, 1.5cm thick and made of stainless steel.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is substantially the same as that in the above embodiment, and the difference is that the sterilization outer bin 5 comprises an outer bin body 51, a sterilization air duct 52, a sterilization air inlet pipe 53, a sterilization gas release pipe 54, a filter assembly 55, and a water outlet pipe 56, wherein the outer bin body 51 is connected with the filter frame 41 and is communicated with the recovery assembly 4; the sterilizing air duct 52 is arranged in the outer bin body 51, the sterilizing air duct 52 is of a circular structure, the middle bin body 31 penetrates through the sterilizing air duct 52, and the sterilizing air duct 52 and the middle bin body 31 are arranged at intervals; one end of the sterilizing air inlet pipe 53 is connected with the second air pumping device, and the other end of the sterilizing air inlet pipe passes through the outer bin body 51 and is connected with the sterilizing air guide pipe 52, so that air is conveyed into the sterilizing air guide pipe 52, and the conveyed air can be ozone for example; the sterilizing gas releasing pipe 54 is communicated with the sterilizing gas-guide pipe 52, the sterilizing gas releasing pipe 54 and the oxidizing gas releasing pipe 34 have the same structure and different sizes, the sterilizing gas releasing pipe 54 releases ozone to kill bacteria in the supernatant in the outer bin body 51, so that the sterilizing and disinfecting effects are achieved, and the supernatant reaches the standard of the environment-friendly requirement of recycling; the filter assembly 55 is arranged in the outer bin body 51 and is simultaneously connected with the outer bin body 51 and the middle bin body 31, and the filter assembly 55 is arranged between the sterilizing air duct 52 and the filter frame 41; the water outlet pipe 56 is communicated with the outer bin body 51 and is arranged at one end, far away from the filtering component 55, of the outer bin body 51, and the water outlet pipe 56 is made of stainless steel and is 200 pipes in model number. The sterilizing air duct 52 has the same structure and different size with the oxidizing air duct 32; the sterilizing air inlet pipe 53 has the same structure as the oxidizing air inlet pipe 33 and has a different size. It is within the scope of the present disclosure to provide the above-described performance benefits of antiseptic airway 52 and oxidized airway 32.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is substantially the same as that in the above embodiment, and the difference is that the filtering assembly 55 includes a filter 551 and a filtering plate 552, wherein the filter 551 is disposed in the outer bin body 51 and detachably connected to the outer bin body 51 and the middle bin body 31, the filter 551 is disposed perpendicular to the middle bin body 31 and is spaced apart from the middle bin body 31 along the direction of disposition of the middle bin body 31, the filter 551 close to the recovering assembly 4 filters large-particle substances, and the filter 551 far from the recovering assembly 4 filters small-particle substances, i.e. from bottom to top, a filtering mechanism from large to small; the filter plate 552 sets up between two adjacent filters 551, and can dismantle with outer storehouse body 51 and well storehouse body 31 simultaneously and be connected, and filter plate 552 is certain angle setting with filter 551, and two adjacent filter plates 552 sets up along filter 551 symmetry, and filter 551 sets up in the extreme point department of filter plate 552.

In this embodiment, the filter plate 552 is a perforated stainless steel plate with a thickness of 1.5cm, a circle of the filter plate 552 surrounds between the outer bin body 51 and the sedimentation middle bin 3, i.e. the filter plate is arranged in a circular truncated cone shape or an inverted circular truncated cone shape, the diameter of the perforations on the filter plate 552 is 4 cm, and the pitch of the perforations is 3 cm; the filter plate 552 and the filter 551 are all connected together by bolts and the like, and the filter 551 and the filter plate 552 can be conveniently repaired and replaced by the detachable connection. The water oxidized from the mixing middle bin reaches the outer bin body 51 through the layers of filter plates 552 and the layers of filters 551 according to the force of air pressure, water flow power and the like, the ozone released by the sterilizing gas release pipe 54 in the outer bin body 51 sterilizes the liquid, and the sterilized water participates in the whole water circulation process through the water outlet pipe 56.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is substantially the same as that in the above embodiment, and the difference is that the outer bin body 51 comprises a bin body 511, a reinforcement part 512, a buffer part 513, and a water passing tank 514, wherein one end of the bin body 511 is welded with the filter frame 41, the bin body 511 has a height of 3.5 m, a width of 2.2 m, and a thickness of 1.5cm, and a cylindrical tube made of stainless steel plate is vertically arranged, an ozone tube air inlet is opened at a proper position on the left side of the upper end in the bin body 511, and the ozone tube air inlet and the sterilization air inlet tube 53 are welded and sealed all around the through-contact position; the strengthening part 512 is connected with the other end of the bin body 511, the bin body 511 is communicated with the outside through the strengthening part 512, and the strengthening part 512 can be a 'Chinese character jing' -shaped frame body structure; the buffer part 513 is welded and communicated with the bin body 511 and the water outlet pipe 56 at the same time and is arranged on one side of the bin body 511 far away from the sedimentation middle bin 3; the water passing groove 514 is connected with the cabin body 511 and is arranged in the cabin body 511, the water passing groove 514 is communicated with the buffer part 513, one end of the water passing groove 514 close to the reinforcing part 512, namely one end departing from the interior of the cabin body 511, is provided with a saw-toothed groove 5141, namely the upper top edge of the left side of the water passing groove 514 is downwards opened for a certain distance, and the saw-toothed groove 5141 is used for controlling the water flow speed and limiting the water level height.

In this embodiment, a third fixing frame 515 is disposed between the bin body 511 and the middle bin body 31, and the third fixing frame 515 may be an angle steel for fixing the bin body 511 and the middle bin body 31; the bottom of the water passing groove 514 is lower than the bottom of the buffer part 513, for example, the bottom of the water passing groove 514 is lower than the bottom of the buffer part 513 by 10 cm, and the water passing groove 514 can be an annular stainless steel groove with the length of 30cm and the height of 30cm, and is welded around the inner circle at the upper end of the bin body 511; the top of the buffer part 513 is higher than the top of the water passing tank 514; the cross section of the buffer part 513 is of a C-shaped structure, the buffer part 513 is welded at the position of 10 cm downward from the top end of the outer wall at the right side of the upper part of the cabin body 511, the buffer part 513 can be a stainless steel square box with the length of 40 cm, the width of 35 cm and the height of 40 cm, the position of 10 cm downward from the top at the right side of the cabin body 511 is a water outlet of the cabin body 511, the left side surface of the buffer part 513 is the same as and coincided with the size of the water outlet of the cabin body 511, the water outlet of the cabin body 511 is covered by the buffer part 513, and the diagonal center point of the left side surface of the buffer part 513 is coincided with the diagonal center point of the water outlet of the cabin body 511; the water outlet pipe 56 is welded to the bottom of the buffer 513. The water passing groove 514 is a circular ring-shaped square groove, and a notch 5142 for communicating with the buffer part 513 is provided on the water passing groove 514. The sterilized and disinfected water in the cabin 511 flows into the water tank 514, and flows into the buffer part 513 after a certain period of water storage, and then flows into the water outlet pipe 56. The water passing tank 514 and the buffer part 513 jointly play a role of limiting the water level of the outlet water and control the water flow speed and the water outlet amount of the outlet water; standardizing the flow direction of water; preventing water overflow due to over-full water.

The working principle of the sterilization outer bin 5 is as follows: from depositing in storehouse 3 down through the water and some light in weight oxidation sediment behind filter holder 41, it is backward current upwards to pass through gaseous pressure, these water that upwards is backward current and light in weight oxidation sediment, after several layers of filter 552 and several layers of filter 551, the material after the filtration, through self weight, fall back to precipitation portion 42, the water after the filtration rises to storehouse body 511 upper portion, simultaneously, sterilizing gas release pipe 54 releases ozone sterilization, the water after the sterilization gets into behind the outlet pipe 56 of buffer 513 bottom through water groove 514, participate in among the whole water circulation system. The sediments in the sterilizing outer bin 5, the precipitating middle bin 3 and the mixing inner bin 2 all fall into the precipitating part 42, and when the sediments are accumulated to a dischargeable amount, the sediments are discharged through a drain pipe 43 provided with a drain control valve 45 (when the drain control valve 45 senses that the sediments are accumulated to a certain amount, the sediments can be automatically opened and closed) to the bag-shaped wide-plate filter pressing device.

As another embodiment of the present invention, the structure of the seawater environmental-friendly purification apparatus is substantially the same as that in the above embodiment, and the difference is that the recovery assembly 4 further comprises a precipitation part 42, a drain pipe 43, and a supporting leg 44, wherein the precipitation part 42 is connected with the filter rack 41 and is simultaneously communicated with the mixing inner bin 2, the precipitation middle bin 3, and the sterilization outer bin 5 through the filter rack 41, the precipitation part 42 has a height of 1 meter and a thickness of 1.5cm, and is made of stainless steel, and has an inverted cone or inverted truncated cone-shaped structure, i.e., a precipitate discharge area, for receiving precipitates; the sewage discharge pipe 43 is welded and communicated with one end of the precipitation part 42 far away from the filter frame 41, a sewage discharge control valve 45 is arranged on the sewage discharge pipe 43, and the sewage discharge control valve 45 is an electronic control valve; supporting legs 44 are connected with precipitation portion 42, and set up in precipitation portion 42 and keep away from the one side of disinfecting outer bin 5, and the one end of support frame sets up in the position of precipitation portion 42 and storehouse body 511 welding point, and supporting legs 44 is certain angle setting with the rotation axis of precipitation portion 42, and exemplarily, supporting legs 44 are equipped with four along precipitation portion 42 circumference, and supporting legs 44 is 1.5 meters from the vertical distance of welding point to ground.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is basically the same as that in the above embodiment, and the difference is that the colliding mixing pipe 1 comprises a pipe body 11, a guide plate 12, a guiding mixing pipe 13, and a release port 14, wherein one end of the pipe body 11 is connected with the water inlet pipe 6 and is arranged in the mixing inner bin 2; the guide plates 12 are arranged in the tube body 11 and fixedly connected with the tube body 11, a plurality of guide plates 12 are arranged along the circumference of the tube body 11 and used for guiding and mixing the water body and the medicines, and the guide plates 12 are of a semi-spiral structure with a thin top and a thick bottom; one end of the guide mixing pipe 13 is connected with the other end of the pipe body 11, the guide mixing pipe 13 is made of stainless steel and is a mixing area of water and the medicine single items, and the guide mixing pipe 13 is a circular pipe and is structurally arranged to further deepen the uniform mixing of the water and the medicine; the release hole 14 is connected with the other end of the guide mixing pipe 13, the first release hole 141 is arranged on the release hole 14, the first release hole 141 is a quincuncial hole with a large inside and a small outside, the first release hole 141 is provided with a plurality of different specifications, the structure of the first release hole 141 can further enhance the jet power of water flow, the motion trail of water flow jet is standardized, and the design of holes with different specifications is to enhance the stability of a central water flow jet area.

In the embodiment, the collision mixing component 1 is made of stainless steel and is a 200-model stainless steel pipe, and exemplarily, the collision mixing component 1 is a special pipe with an outer profile of a tubular structure with a total length of 1.5 meters and is placed in a vertical posture; the diameter of the precipitation hole 231 is a circular hole of 8 cm, the distance between the holes is 3 cm, and the isolation plate 23 is made of stainless steel. The dosing device can be used for feeding various needed medicines at one time, the medicines are mixed with water when being fed, when the dosing device is in operation, the water and the medicines are mixed at the same time and are input to the flow control valve through a water outlet of a dosing pump of the dosing device, the flow control valve conveys the water and the medicines to the colliding mixing assembly 1 through the water inlet pipe 6, the colliding mixing assembly 1 is used for mixing and processing and then releasing mixed liquid into the mixing inner bin 2, the mixing inner bin 2 is used for further mixing and purifying the mixed liquid, and the water inlet and outlet mode in the process is that the water enters from the lower part and goes out from the upper part.

In the embodiment, the water inlet pipe 6 is connected with the pipe body 11 through a flange reducing elbow; the connection between the pipe body 11 and the guide mixing pipe 13 can be realized by welding or flange reducing elbow connection and the like; the connection between the guiding mixing pipe 13 and the release port 14 can be through welding or flanged reducer elbow connection, etc. The guide mixing tube 13 is a tubular structure with a length of 20 cm, and is made of stainless steel materials, so that water and medicines are further mixed uniformly.

In this embodiment, the tube 11 is a cylindrical tubular structure, and the guide plate 12 can regulate the running track of the water flow and control the reaction time of the mixture; the design of thickness variation can enhance the pressure of water flow, thereby enhancing the power of the water flow, having strong power, not causing blockage in the pipe body 11, and enabling the output and the track of the water flow to stably meet the actual requirements; the use of stainless steel for the deflector 12 increases the life. Operating principle of the impinging mixing assembly 1: through the power of dosing pump water pump, water and medicine inhale the water pump simultaneously, and the water pump is through a series of connections with water, in medicine mixture gets into body 11 through inlet tube 6, deflector 12 mixes and leads the water medicine mixture in 11 to the body, and the water of power reinforcing, medicine mixture rotate out fast and get into direction hybrid tube 13 rotatory mixing, produce the water and spout after the vortex to mixed interior storehouse 2 through release 14.

As another embodiment of the present invention, the structure of the seawater environmental-friendly purification device is substantially the same as that in the above embodiment, and the difference is that the mixed inner bin 2 includes a bin body 21, a bin head 22, a partition plate 23, and a second fixing frame 24, wherein one end of the bin body 21 is welded to the filtering frame 41, the oxidation gas-guide tube 32 is disposed in the middle position of the bin body 21, the bin body 21 is of a cylindrical structure and is placed vertically, the diameter of the bin body 21 is 60cm, the bin body 21 is provided with a putting hole for putting in the biological ball 7, the putting hole is disposed between the bin head 22 and the partition plate 23, the putting hole is provided with a sealing cover for sealing, and the sealing cover is made of stainless steel; the bin head 22 is welded with the other end of the bin body 21, the bin head 22 is in a conical structure, the second release hole 221 is formed in the bin head 22, and the second release hole 221 is a quincunx hole with a large inside and a small outside; the partition plate 23 is simultaneously connected with the bin body 21 and the tube body 11, a biological cavity 25 is formed between the partition plate 23 and the bin body 21 and the bin body 511, the biological cavity 25 is simultaneously communicated with the collision mixing tube 1 and the sedimentation middle bin 3, a plurality of biological balls 7 are arranged in the biological cavity 25, the biological balls 7 are used for rotating water flow and further mixing water with medicines, and a plurality of sedimentation holes 231 for separating sediments are arranged on the partition plate 23; the second fixing frame 24 is connected to both the chamber body 21 and the tube 11, and is used for fixing the tube 11 to the chamber body 21. The second fixing frame 24 can be angle steel or square steel, and the second fixing frame 24 is welded at a proper position of the bin body 21 and the tube body 11 to play a role in fixing and supporting; the whole mixing inner bin is 2m high and the wall thickness is 1.5cm. After the mixed liquid enters the mixed inner bin 2, the mixed liquid is uniformly mixed in the biological cavity 25, the uniformly mixed liquid enters the sediment middle bin 3 through the second release holes 221, and a part of the mixed liquid falls into the recovery assembly 4 under the action of the self weight, the flow direction of water flow and the like.

In this embodiment, the release opening 14 is a conical structure, the distance from the bottom circle to the center point of the top surface is 30cm, the stainless steel material is adopted, and the thickness is 5cm; the second release holes 221 are quincuncial holes with a large inside and a small outside, the second release holes 221 are arranged in the middle of the top of the bin head 22, and the punching area is one third of the whole body of the conical outer surface. Here, it is within the scope of the present disclosure as long as the above-mentioned performance functions related to the first and second release holes 141 and 221 can be achieved.

In this embodiment, the partition plate 23 is a circular truncated cone-shaped structure made of stainless steel, and the cross section combination of the partition plate 23 and the release opening 14 after connection is in a "W" shape. The periphery of the smaller diameter end of the partition plate 23 is welded to the peripheral welding points on the outer surface of the bottom surface of the release port 14, and the periphery of the other end of the partition plate is welded to a proper position on the inner wall of the bin body 21. The purpose of the partition 23 is to: first, a placing area is provided for the bio-ball 7, and the placing area is also a bio-mixing area where water and medicine are mixed; second, the settling hole 231 is intended to regulate the falling trajectory of the oxidation sludge, separating the clean water from the sludge, and has an advantage in that the falling speed of the oxidation sludge can be increased.

In this embodiment, the bio-ball 7 is a porous structure, the bio-ball 7 is provided with through-holes around the body, the through-holes are impacted by the power of the liquid released from the release port 14 to drive the whole bio-ball 7 to rotate, after the bio-balls 7 rotate, a rotating water flow is generated in the bio-cavity 25, the mixed liquid of water and the medicine is further uniformly mixed in the rotating water flow and the through-holes of the bio-ball 7, after the uniform mixing, most of the liquid is sprayed out from the water outlet holes 211 of the mixing inner bin 2 along the water flow to continuously participate in the oxidation and precipitation reaction, and a small part of the mixed precipitate is precipitated downwards through the partition plate 23 and finally reaches the precipitation part 42 through the filter rack 41.

As another embodiment of the present invention, the structure of the seawater environmental protection and purification equipment is substantially the same as that in the above embodiment, and the difference is that one end of the inlet pipe 6 away from the colliding mixing pipe 1 and the outer sterilization bin 5 are provided with a distance therebetween and a flow control valve, and the end of the flow control valve away from the inlet pipe 6 is provided with a chemical adding device. The inclination angle, thickness, number of sets and the like of the guide plate 12 can be changed according to actual requirements; all the punching sizes at the punching holes, the placement positions, the shapes, the sizes and the like of all the components can be changed according to actual requirements, and the sizes are only used for convenience of explanation and are not used as specific constraints on the structure in the application.

In this embodiment, the device further includes a plurality of electronic on-line monitoring control devices, which are implemented in the utility model discloses integrated, functional and automatic means, such as control gas outlet 313: when the mixing inner chamber 2 reaches a certain pressure, the air outlet 313 can be automatically opened and closed to release the pressure; controlling the blowdown control valve 45: when the sediment in the sediment part 42 reaches a certain amount, the blowdown control valve 45 can be automatically opened and closed to discharge the sediment; the flow control valve can control the flow of water and the added medicine according to whether the required mixed liquid in each bin reaches the required amount or not.

The device has the specific working principle that: after water and added drugs are preliminarily added and mixed by a special drug adding device, the water and the added drugs are input into the clash mixing pipe 1 through the water inlet pipe 6, and the mixed liquid is further mixed by the clash mixing pipe 1 and then is sprayed out from the first release hole 141; the sprayed mixed liquid enters the biological cavity 25, the biological ball 7 starts to rotate under the action of the spraying power, the water and the medicines are uniformly mixed by the rotating power, the uniformly mixed liquid is sprayed out through the second release hole 221 and enters the precipitation middle bin 3, and a small part of oxidation precipitates fall into the recovery component 4 according to the power of water, gas and self weight; the liquid entering the middle sedimentation bin 3 starts to perform standing oxidation reaction, the oxidation gas release pipe 34 releases required gas to accelerate the oxidation process, gas, water and oxidation sediments are generated after oxidation, the gas flows upwards and downwards to generate gas pressure to push the water flow to flow, and the water and the oxidation sediments generated after oxidation reach the sedimentation part 42 through the filter frame 41 according to the pressure power generated by the gas and the weight power of the oxidation sediments; the oxidation precipitate that reaches precipitation portion 42 stops in precipitation portion 42 according to self weight, water and the lighter oxidation precipitate of a part of self weight, according to water power and gas pressure, backward flow advances the outer storehouse 5 that disinfects, through the filtration of several layers of filter 552 and several layers of filter 551, the material after the filtration, through self weight, fall back precipitation portion 42, the water after the filtration rises to storehouse body 511 upper portion, the gaseous release pipe 54 that disinfects releases ozone sterilization, water after the sterilization passes through behind the outlet pipe 56 that basin 514 got into buffer 513 bottom, participate in among the whole water circulating system. It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other. Details not described in the embodiments of the present invention belong to the prior art known to those skilled in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An environmental protection seawater purification device, comprising:

the colliding mixing pipe (1) is used for primarily mixing the water body and the medicines, and a first release hole (141) is formed in the colliding mixing pipe (1);

the mixing inner bin (2) is communicated with the colliding mixing pipe (1) through the first release hole (141) and is arranged by wrapping the colliding mixing pipe (1), and a second release hole (221) is formed in the mixing inner bin (2);

the sedimentation middle bin (3) is communicated with the mixing inner bin (2) through the second release hole (221) and is arranged on one side, far away from the colliding mixing pipe (1), of the mixing inner bin (2);

the recycling assembly (4) is communicated with the mixing inner bin (2) and the sedimentation middle bin (3) simultaneously and is used for recycling sediments, the recycling assembly (4) comprises a filter rack (41) which is connected with the mixing inner bin (2) and the sedimentation middle bin (3) simultaneously, and the filter rack (41) is arranged at one end, far away from the second release hole (221), of the sedimentation middle bin (3);

the sterilization outer bin (5) is communicated with the recovery component (4) and is arranged on one side, away from the mixing inner bin (2), of the sedimentation middle bin (3), and the sterilization outer bin (5) is connected with the filter frame (41);

the water inlet pipe (6) penetrates through the sterilization outer bin (5), the sedimentation middle bin (3) and the mixing inner bin (2) and is connected with the colliding mixing pipe (1) in sequence, the water body and the medicines are conveyed into the colliding mixing pipe (1), the water inlet pipe (6) is arranged at one end, close to the recovery assembly (4), of the colliding mixing pipe (1), the first release hole (141) is arranged at one end, far away from the water inlet pipe (6), of the colliding mixing pipe (1), and the second release hole (221) is arranged at one side, far away from the water inlet pipe (6), of the first release hole (141).

2. An environmental protection purification equipment for seawater according to claim 1, characterized in that the sedimentation middle bin (3) comprises:

the middle bin body (31) is connected with the filter frame (41) and communicated with the recovery assembly (4);

the oxidation gas-guide tube (32) is arranged in the middle bin body (31), the oxidation gas-guide tube (32) is of a circular structure, the mixing inner bin (2) penetrates through the oxidation gas-guide tube (32), and the oxidation gas-guide tube (32) and the mixing inner bin (2) are arranged at intervals;

one end of the oxidation air inlet pipe (33) is connected with the first air pumping device, and the other end of the oxidation air inlet pipe penetrates through the sterilization outer bin (5) and the middle bin body (31) in sequence to be connected with the oxidation air guide pipe (32) and is used for conveying air into the oxidation air guide pipe (32);

the oxidizing gas release pipes (34) are communicated with the oxidizing gas guide pipes (32), a plurality of oxidizing gas release pipes (34) are arranged along the circumferential direction of the oxidizing gas guide pipes (32), and a plurality of gas outlet holes (341) are symmetrically formed in any one oxidizing gas release pipe (34);

the first fixing frame (35) is connected with the middle bin body (31) and the mixed inner bin (2) and used for fixing the middle bin body (31) and the mixed inner bin (2).

3. An environmental-friendly purification equipment for seawater according to claim 2, wherein the sterilizing outer bin (5) comprises:

an outer bin body (51) connected with the filter frame (41) and communicated with the recovery assembly (4);

the sterilizing air guide pipe (52) is arranged in the outer bin body (51), the sterilizing air guide pipe (52) is of a circular ring-shaped structure, the middle bin body (31) penetrates through the sterilizing air guide pipe (52), and the sterilizing air guide pipe (52) and the middle bin body (31) are arranged at intervals;

one end of the sterilizing air inlet pipe (53) is connected with the second air pumping device, and the other end of the sterilizing air inlet pipe penetrates through the outer bin body (51) to be connected with the sterilizing air guide pipe (52) and is used for conveying air into the sterilizing air guide pipe (52);

the sterilizing gas releasing pipe (54) is communicated with the sterilizing gas guide pipe (52), and the sterilizing gas releasing pipe (54) and the oxidizing gas releasing pipe (34) have the same structure;

the filter assembly (55) is arranged in the outer bin body (51) and is simultaneously connected with the outer bin body (51) and the middle bin body (31), and the filter assembly (55) is arranged between the sterilization air guide pipe (52) and the filter frame (41);

and the water outlet pipe (56) is communicated with the outer bin body (51) and is arranged at one end, far away from the filtering component (55), of the outer bin body (51).

4. An environmental purification apparatus for seawater according to claim 3, wherein the filtering component (55) comprises:

the filter (551) is arranged in the outer bin body (51) and is detachably connected with the outer bin body (51) and the middle bin body (31) at the same time, and a plurality of filters (551) are arranged at intervals along the arrangement direction of the middle bin body (31);

filter (552), set up adjacent two between filter (551), and simultaneously with outer storehouse body (51) with well storehouse body (31) can dismantle the connection, filter (552) with filter (551) are certain angle setting, adjacent two filter (552) are followed filter (551) symmetry sets up.

5. An environmental protection and purification equipment for seawater according to claim 3, characterized in that the outer bin body (51) comprises:

one end of the bin body (511) is connected with the filter rack (41), and the bin body (511) is of a cylindrical tubular structure;

the reinforcement part (512) is connected with the other end of the bin body (511), and the bin body (511) is communicated with the outside through the reinforcement part (512);

the buffer part (513) is simultaneously connected with the bin body (511) and the water outlet pipe (56) and is arranged on one side of the bin body (511) far away from the sedimentation middle bin (3);

a water passing groove (514) connected with the cabin body (511) and arranged in the cabin body (511), wherein the water passing groove (514) is communicated with the buffer part (513), one end of the water passing groove (514) close to the reinforcing part (512) is provided with a sawtooth-shaped groove (5141), and the sawtooth-shaped groove (5141) is used for controlling the water flow speed and limiting the water level height.

6. An environmental-friendly purification equipment for seawater according to claim 2, wherein the middle bin body (31) comprises:

the aeration part (311) is connected with the filter frame (41) at one end and is arranged on one side, away from the colliding mixing pipe (1), of the mixing inner bin (2), and the aeration part (311) is of a cylindrical structure;

the air outlet part (312) is integrally formed with the other end of the aeration part (311), the air outlet part (312) is of a conical structure, and the oxidation air inlet pipe (33) penetrates through the air outlet part (312) and is connected with the oxidation air guide pipe (32);

and the air outlet (313) is arranged on the air outlet part (312) and is used for discharging the air in the aeration part (311).

7. An environmental protection and purification equipment for seawater according to claim 1, wherein the recovery module (4) further comprises:

the sedimentation part (42) is connected with the filter rack (41) and has an inverted circular truncated cone-shaped structure, and the sedimentation part (42) is simultaneously communicated with the mixing inner bin (2), the sedimentation middle bin (3) and the sterilization outer bin (5) through the filter rack (41) and is used for receiving sediments;

the sewage discharge pipe (43) is communicated with one end, far away from the filter rack (41), of the settling part (42), and a sewage discharge control valve (45) is arranged on the sewage discharge pipe (43);

the supporting legs (44) are connected with the settling part (42) and arranged on one side of the settling part (42) far away from the sterilizing outer bin (5).

8. An environmental purification equipment for seawater according to claim 5, wherein the colliding mixing pipe (1) comprises:

one end of the pipe body (11) is connected with the water inlet pipe (6) and is arranged in the mixing inner bin (2);

the guide plates (12) are arranged in the pipe body (11) and fixedly connected with the pipe body (11), and a plurality of guide plates (12) are arranged along the circumferential direction of the pipe body (11) and used for guiding and mixing water and medicines;

one end of the guide mixing pipe (13) is connected with the other end of the pipe body (11);

and the release port (14) is connected with the other end of the guide mixing pipe (13), and the first release hole (141) is arranged on the release port (14).

9. An environmental-friendly purification equipment for seawater according to claim 8, wherein the mixing inner bin (2) comprises:

one end of the bin body (21) is connected with the filter frame (41), and the oxidation air guide pipe (32) is arranged in the middle of the bin body (21);

the bin head (22) is connected with the other end of the bin body (21), and the second release hole (221) is formed in the bin head (22);

the partition plate (23) is connected with the bin body (21) and the tube body (11) at the same time, a biological cavity (25) is formed between the partition plate (23) and the bin body (21) and the bin body (511), the biological cavity (25) is communicated with the clash mixing tube (1) and the sedimentation middle bin (3) at the same time, a plurality of biological balls (7) are arranged in the biological cavity (25), the biological balls (7) are used for rotating water flow and further mixing the water body with medicines, and a plurality of sedimentation holes (231) used for separating sediments are formed in the partition plate (23);

and the second fixing frame (24) is connected with the bin body (21) and the pipe body (11) at the same time and is used for fixing the pipe body (11) and the bin body (21).

10. An environment-friendly seawater purification apparatus as claimed in any one of claims 1 to 9, wherein a distance is provided between one end of the water inlet pipe (6) far away from the colliding mixing pipe (1) and the sterilizing outer bin (5), and a flow control valve is provided, and a chemical adding device is provided at one end of the flow control valve far away from the water inlet pipe (6).

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