CN215799048U - High-efficient muddy water intelligence purifier - Google Patents

Abstract

The utility model provides a high-efficiency intelligent muddy water purifying device, which comprises a water inlet pipe, a sludge reflux area, a mixed coagulation area, a flocculation reaction area, a sedimentation clarification area, a clear water gathering area and a water outlet pipe which are sequentially communicated, wherein inclined plate packing is arranged in the sedimentation clarification area, the inclined plate packing is provided with an inclined plate sedimentation channel, the lower end of the inclined plate sedimentation channel is communicated with the lower part of the sedimentation clarification area, the upper end of the inclined plate sedimentation channel is communicated with the clear water gathering area, the bottom of the sedimentation clarification area is provided with a sludge area, and the lower end of the inclined plate sedimentation channel is positioned above the sludge area. The water inlet pipe, the sludge reflux area, the mixing and condensing area, the flocculation reaction area, the sedimentation and clarification area and the clear water collecting area are convenient for putting in corresponding chemical agents. The added agents are two, one is a dielectric flocculating agent (PAC), the other is a polymeric flocculant (PAM), and the PAC agents can neutralize the surface charge of colloidal particles in water and compress the thickness of a diffusion layer.

Description

High-efficient muddy water intelligence purifier

Technical Field

The utility model relates to the technical field of environmental protection, in particular to a high-efficiency intelligent muddy water purifying device.

Background

The turbid water is the traditional turbid water body containing sludge sand stones.

Present purification treatment in-process to sewage, be not convenient for carry out the processing again after the suction with corresponding water, traditional processing procedure efficiency is lower, is unfavorable for realizing the hybrid processing to liquid, and the manual treatment effect is not good, can't improve the anti-treatment effeciency to sewage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient intelligent muddy water purifying device to solve the problems that the background technology is not favorable for realizing mixed treatment processing of liquid, the manual treatment effect is poor, and the reverse treatment efficiency of sewage cannot be improved.

In order to achieve the purpose, the utility model provides the following technical scheme: the high-efficiency turbid water intelligent purification device comprises a water inlet pipe, a sludge reflux area, a mixing and condensing area, a flocculation reaction area, a sedimentation and clarification area, a clear water condensing area and a water outlet pipe which are sequentially communicated;

the inclined plate filler is arranged in the sedimentation and clarification area and is provided with an inclined plate sedimentation channel which is obliquely arranged, the lower end of the inclined plate sedimentation channel is communicated with the lower part of the sedimentation and clarification area, and the upper end of the inclined plate sedimentation channel is communicated with the clear water gathering area;

the bottom of the sedimentation clarification zone is provided with a sludge zone, the lower end of the inclined plate sedimentation channel is positioned above the sludge zone, the sludge zone is communicated with the sludge reflux zone through a sludge reflux device, and the bottom of the sludge zone is provided with a drain pipe;

the sludge reflux area, the mixing and condensing area, the flocculation reaction area, the sedimentation and clarification area and the clear water gathering area are all closed structures.

The flocculation reaction district includes automatic exhaust mechanism, automatic exhaust mechanism includes the gas transmission pipe at middle part, the avris of gas transmission pipe is provided with automatic exhaust valve, automatic exhaust valve's middle part has inlayed and has had the rotation sleeve pipe, the avris that rotates the sleeve pipe still divides to be equipped with a plurality of connecting tube, a plurality of the gas vent has been seted up at connecting tube's middle part, the sealed intercommunication in top surface of gas vent has the pipe, the sealed intercommunication in bottom of pipe has the muddy water purifier who is used for storing the water, muddy water purifier includes the water processing storage tank with the sealed intercommunication in top of pipe.

In order to facilitate the overflow and pollution discharge of the corresponding polluted water body, the utility model is taken as a preferred scheme that: the water body processing storage tank is characterized in that a first cylindrical enclosing plate is arranged in the middle of the top end of the tank body of the water body processing storage tank, the middle of a groove position of the first cylindrical enclosing plate is hollow, a water distribution hopper is vertically inserted in the middle of the groove position of the first cylindrical enclosing plate, a trapezoidal filter plate used for lifting filtered liquid is arranged at the bottom of the water distribution hopper, a circular groove is formed in the middle of the surface of the trapezoidal filter plate, a gas outlet bolt used for gas outlet is inserted in the middle of the groove position of the first cylindrical enclosing plate, two automatic overflow pipes used for gas output are respectively inserted in two sides of the bottom of the gas outlet bolt, a clear water collection area is sleeved outside a pipe body of the two automatic overflow pipes, a plurality of gas guide pipes used for gas output are arranged at the edge of the clear water collection area, and inclined plate fillers are arranged at the edge of the gas guide pipes.

In order to facilitate the aeration sterilization of the water body inside, the utility model adopts a preferable scheme that: the utility model discloses a water processing storage tank, including the water processing storage tank, the water processing storage tank is provided with the aeration mechanism that is used for aeration, the aeration mechanism include with toper fill board avris fixed connection's water injection pipe, be located the avris of toper fill board still is provided with the L type aeration pipe that is used for aeration, the sealed intercommunication in bottom edge department in district is gathered with the clear water to the one end of L type aeration pipe, the end of giving vent to anger of L type aeration pipe is sealed the intercommunication with a plurality of exhaust gas guide respectively.

In order to facilitate the drying of the sludge on the outer side, the utility model is a preferable scheme that: and the drying mechanism comprises a discharge hose connected with the bottom of the conical hopper plate.

In order to facilitate the storage of the corresponding sludge, the utility model adopts a preferable scheme that: the one end of ejection of compact hose is provided with the drying pump, the pump body internally mounted of drying pump has the mud extraction end that is used for extracting mud, and wherein the top that is located mud extraction end is provided with mud and goes out dirty mouthful, mud goes out dirty mouthful mountable storage tank.

In order to pump the water body to be processed outside into the water pumping device, as a preferred scheme of the utility model: the one end of water injection pipe still sealed intercommunication have the sediment mechanism that is used for the water to store, sediment mechanism is including the S type water injection pipe that is used for pouring into the water, the one end of S type water injection pipe is provided with the preliminary treatment water tank.

In order to realize the injection of the outside liquid medicine, the utility model adopts a preferable proposal that: the box avris of preliminary treatment water tank still is provided with the agitator motor who is used for mixing the medicament, agitator motor's output is connected with the inside agitator transmission that sets up of preliminary treatment water tank, one side of preliminary treatment water tank is provided with the dosing pump.

In order to realize intelligent control, the utility model adopts a preferable scheme that: the outer wall of water processing storage tank still is provided with the PLC controller, automatic exhaust valve, drying pump, agitator motor and dosing pump all with PLC controller electric connection, PLC controller and external power supply electric connection.

Compared with the prior art, the utility model has the beneficial effects that:

1) the water inlet pipe, the sludge reflux area, the mixing and condensing area, the flocculation reaction area, the sedimentation and clarification area and the clear water collecting area are convenient for putting in corresponding chemical agents. Adding two agents, namely a dielectric flocculant (PAC) and a polymeric flocculant (PAM), wherein the PAC agent can neutralize the surface charge of colloidal particles in water, compress the thickness of a diffusion layer, reduce the electric potential of colloidal particles, and enable the colloidal particles to be electrically neutral so as to enable suspended matters to be mutually agglomerated;

2) the PAM medicament mixed in the dosing pump has linear colloid with a plurality of branched chains, has extremely strong adsorption and bridging capabilities to suspended particles and emulsified oil droplets, can lead fine particles formed by condensation to pass through the macromolecule adsorption and bridging functions, leads the particles to become larger gradually, forms compact and thick flocs again and settles down rapidly, and achieves the purpose of water purification.

Drawings

Fig. 1 is a schematic front view of embodiment 1 of the present invention;

FIG. 2 is a diagram illustrating the operation of example 1 of the present invention;

FIG. 3 is a schematic process flow diagram of embodiment 2 of the present invention.

In the figure: 1. an automatic exhaust mechanism; 11. a gas delivery pipe; 12. an automatic exhaust valve; 13. rotating the sleeve; 14. connecting a conduit; 15. an exhaust port; 16. a conduit; 2. a turbid water purification device; 21. a water body processing storage tank; 22. a first cylindrical shroud; 23. a water distributing hopper; 24. a trapezoidal filter plate; 25. air outlet plug; 26. an automatic overflow pipe; 27. a clear water collection zone; 28. an air outlet duct; 29. filling materials of the inclined plate; 291. a conical hopper plate; 3. an aeration mechanism; 31. a water injection conduit; 32. An L-shaped aeration pipe; 33. a circular sludge discharge port; 4. a drying mechanism; 41. a discharge hose; 42. a drying pump; 43. a sludge extraction end; 44. a sludge outlet; 5. a precipitation mechanism; 51. an S-shaped water injection conduit; 52. a pretreatment water tank; 53. a stirring motor; 54. a dosing pump.

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. 1-2, the present invention provides a technical solution: the high-efficiency turbid water intelligent purification device comprises a water inlet pipe, a sludge return zone, a mixing and condensing zone, a flocculation reaction zone, a sedimentation and clarification zone, a clear water accumulation zone 27 and a water outlet pipe which are sequentially communicated;

the inclined plate packing 29 is arranged in the sedimentation and clarification area, the inclined plate packing 29 is provided with an inclined plate sedimentation channel, the lower end of the inclined plate sedimentation channel is communicated with the lower part of the sedimentation and clarification area, and the upper end of the inclined plate sedimentation channel is communicated with the clear water gathering area 27;

the bottom of the sedimentation clarification zone is provided with a sludge zone, the lower end of the inclined plate sedimentation channel is positioned above the sludge zone, the sludge zone is communicated with the sludge reflux zone through a sludge reflux device, and the bottom of the sludge zone is provided with a blow-off pipe;

the sludge return zone, the mixing and coagulating zone, the flocculation reaction zone, the sedimentation and clarification zone and the clear water gathering zone 27 are all closed structures.

Flocculation reaction zone includes automatic exhaust mechanism 1, automatic exhaust mechanism 1 includes the gas transmission pipe 11 at middle part, the avris of gas transmission pipe 11 is provided with automatic exhaust valve 12, automatic exhaust valve 12's middle part scarf joint has rotating sleeve pipe 13, rotating sleeve pipe 13's avris still divides and is equipped with a plurality of connecting tube 14, gas vent 15 has been seted up at a plurality of connecting tube 14's middle part, the sealed intercommunication in top surface of gas vent 15 has pipe 16, the sealed intercommunication in bottom of pipe 16 has muddy water purifier 2 that is used for storing the water, muddy water purifier 2 includes the water processing storage tank 21 with the sealed intercommunication in top of pipe 16.

The automatic exhaust valve 12, the rotating sleeve 13 and the exhaust port 15 are arranged, so that gas at one end can be conveniently conveyed.

In this embodiment: the middle part of the top end of the tank body of the water body processing storage tank 21 is provided with a first cylindrical enclosing plate 22, the middle part of the tank position of the first cylindrical enclosing plate 22 is hollow, a water distribution hopper 23 is vertically inserted in the middle part of the tank position of the first cylindrical enclosing plate 22, the bottom of the water distribution hopper 23 is provided with a trapezoidal filter plate 24 used for lifting filtered liquid, the middle part of the plate surface of the trapezoidal filter plate 24 is provided with a circular groove, the middle part of the tank position of the first cylindrical enclosing plate 22 is inserted with a gas outlet bolt 25 used for discharging gas, two sides of the bottom of the gas outlet bolt 25 are respectively inserted with two automatic overflow pipes 26 used for outputting gas, the outer part of the pipe bodies of the two automatic overflow pipes 26 is sleeved with a clear water collecting area 27, the outer wall edge of the clear water collecting area 27 is provided with a plurality of gas guide pipes 28 used for outputting gas, and the edge parts of the plurality of gas guide pipes 28 are provided with an inclined plate filler 29.

Through the first cylindrical enclosing plate 22 and the water distribution hopper 23, the external air can be conveniently discharged.

When in specific use: firstly, debugging and checking whether control valves and electric appliance control circuits of main equipment and corollary equipment are correctly and normatively installed; and checking whether the equipment management connection is correct and smooth.

In a matched dosing device, dosing agents are prepared according to requirements for standby, water inlet and outlet valves of the device are opened, sludge discharge (manual and electric) is closed, and a manual exhaust valve is opened slightly; starting a water inlet pump, gradually adjusting the water inlet flow to a designed treatment capacity, starting water outlet of the equipment, opening water outlet valves (including manual valves and automatic valves) of all the equipment, and closing slightly opened exhaust manual valves; the measuring pump is started to add medicine (adjusted to theoretical calculation adding amount), a control change-over switch of the local control cabinet is changed into an automatic gear (the manual gear is changed if manual operation is carried out), the equipment enters normal operation, the equipment automatically (or manually) discharges mud once after operating for 8-12 hours (the time can be adjusted according to the water quality condition), and the mud is discharged for 1-2 minutes (the time can be adjusted according to the mud discharging concentration) every time through an electric appliance automatic control system. The discharged activated sludge flows to a sludge tank through a sludge discharge ditch, the sludge and the iron scale are grabbed out by a sludge grab bucket and then are conveyed out together with the coarse-grained iron scale, when the equipment is normally shut down, the dosing metering pump and the water inlet pump (or the water inlet valve) are closed, and the control system is closed simultaneously, the water outlet valve is normally open, and when the equipment is shut down for a long time (without maintenance), the dosing metering pump and the water inlet pump (or the water inlet valve) are closed firstly; and then, manually discharging the sludge, wherein the sludge is discharged about 1 hour after the water inlet of the equipment is stopped, the sludge discharging time is not limited, the sludge can be stopped when the clear water is discharged for 1-2 minutes to a sludge discharging outlet, and the sludge is manually discharged after about 40 minutes (the time and the method are the same as 2.2.1) to prevent sludge sediment from silting (the sludge is not smoothly discharged when the equipment normally runs, so that the treatment effect is influenced).

When the equipment is interrupted and the downtime exceeds 24 hours, the dosing metering pump is firstly closed, the water inlet pump (or the water inlet valve) is then manually discharged, so that the sludge is prevented from depositing and silting, the sludge is not smoothly discharged when the equipment is normally operated, and the treatment effect is influenced.

Adding a polyaluminum chloride (PAC) medicament into a static pipeline mixer arranged before water enters a hydraulic mixing device, and summarizing and adding a polymeric flocculant (PAM) into the static pipeline mixer arranged on a pipeline between the hydraulic mixing device and the high-efficiency turbid circulating water intelligent purification device, wherein the static pipeline mixer and the static pipeline mixer can not be reversed to realize wrong connection.

The manual and electric butterfly valves for discharging sludge are required to be regularly (irregularly) checked whether the manual and electric butterfly valves are sensitive in action, leakage or failure exists.

When the electric valve or the electric control system has a fault, manual and manual sludge discharge (the sludge discharge period and time are the same as those of automatic sludge discharge) is still required to be performed timely and accurately, so that the sludge discharge system is prevented from being blocked by sludge sediment accumulation until the automatic (or manual) operation is recovered after the fault is removed.

When treating oily sewage, polyacrylamide must be used in combination with a dielectric flocculant (such as polyaluminium chloride). The electrolyte coagulant is added into the oily sewage firstly, then the polyacrylamide is added, the sequence cannot be reversed, the polyacrylamide and the electrolyte coagulant cannot be mixed together, and the polyacrylamide must be matched with the electrolyte coagulant (such as polyaluminium chloride) for use when the oily sewage is treated. Firstly adding electrolyte coagulant into the oil-containing sewage, and then adding polyacrylamide, wherein the sequence cannot be reversed, and the electrolyte coagulant and the polyacrylamide cannot be mixed together for adding.

The dosage of the flocculating agent is moderate, too little flocculating effect is poor, too much flocculating effect is poor due to intermolecular dispersion stabilization, and the optimal dosage is determined according to the water quality condition. The flocculating agent should not be contacted with skin for a long time, if the flocculating agent is contacted with skin carelessly, the flocculating agent is cleaned with clear water, and rubber gloves should be worn during operation. (the ratio of the dosage amount and the dosage concentration of the matched dosing device is based on the parameters provided by a medicament manufacturer, the adding concentration of the general PAC is 10ppm, the proportioning concentration of the medicament is 4% -5%, the adding concentration of the PAM is 0.5ppm, and the proportioning concentration of the medicament is 0.1%).

Example 2

Referring to FIG. 3: in order to further improve the subsequent treatment effect of the sludge, the difference features of the embodiment 1 are as follows: in this embodiment: the bottom of the water body processing storage tank 21 is provided with a conical hopper plate 291, the middle of the conical hopper plate 291 is provided with an aeration mechanism 3 for aeration, the aeration mechanism 3 comprises a water injection conduit 31 fixedly connected with the edge of the conical hopper plate 291, an L-shaped aeration pipe 32 for aeration is further arranged on the edge of the conical hopper plate 291, one end of the L-shaped aeration pipe 32 is hermetically communicated with the edge of the bottom of the clear water gathering area 27, and the air outlet end of the L-shaped aeration pipe 32 is hermetically communicated with a plurality of exhaust conduits 28.

The injection of the external air is facilitated by the tapered funnel 291 and the L-shaped aeration tube 32.

In this embodiment: the round sludge discharge port 33 is formed in the middle of the bottom end of the conical hopper plate 291, the drying mechanism 4 for sludge treatment is arranged at one end of the round sludge discharge port 33, and the drying mechanism 4 comprises a discharge hose 41 connected with the bottom of the conical hopper plate 291.

The delivery and discharge of external sludge are facilitated through the arranged discharge hose 41.

In this embodiment: one end of the discharge hose 41 is provided with a drying pump 42, a sludge pumping end 43 for pumping sludge is installed inside a pump body of the drying pump 42, a sludge outlet 44 is arranged at the top end of the sludge pumping end 43, and a storage tank can be installed at the sludge outlet 44.

The sludge outlet 44 is arranged to facilitate the discharge of sludge.

When the device is used, firstly, a user can pump sewage to be treated into the pretreatment water tank 52 under the pumping action of the pump body, the internal stirrer is driven to rotate under the driving action of the output end of the stirring motor 53, then, in order to ensure that a part of pumped water is disinfected, a plurality of medicaments on the outer side are filled under the power-on action of the medicament feeding pump 54 on the outer side, then the sewage is pumped into the pretreatment water tank 52 to realize the processing treatment of liquid, the stirrer inside of the pretreatment water tank 52 is driven to rotate by the output end of the stirring motor 52, further, the liquid medicaments are fully mixed, then, the liquid is pumped out by the S-shaped water injection conduit 51 and is output along the direction of the S-shaped water injection conduit 51, and then, the liquid is conveyed to the clear water collecting area 27 by the liquid outlet end of the S-shaped water injection conduit 51, corresponding gas and silt are discharged under the exhaust action of a plurality of gas outlet pipes 28 arranged outside the clear water gathering area 27, then the gas is conveyed to the trapezoidal filter plate 24 along the upper part of the gas outlet pipe 26, then the gas is stored from the top of the first cylindrical enclosing plate 22 of the trapezoidal filter plate 24, then the gas is taken from the water body under the action of the first cylindrical enclosing plate 22 and is reversely discharged to the lower part, at the moment, the gas is discharged from the top of the gas conveying pipe 11 above, when the pressure reaches a certain threshold value, the automatic exhaust valve 12 is electrified to realize the discharge of the gas, corresponding silt is discharged under the action of the gas outlet pipe 28, at the moment, the silt is taken under the action of the conical bucket plate 291, then the sludge is separated, the sludge is stored below and then conveyed to the sludge extraction end 43 along the discharge hose 41 through the sludge extraction port 34 below, and then delivered into the sludge outlet 44.

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, modifications, equivalents, and improvements may be made without departing from the spirit and scope of the utility model.

Claims (8)

1. The high-efficiency intelligent muddy water purifying device is characterized by comprising a water inlet pipe, a sludge return zone, a mixing and condensing zone, a flocculation reaction zone, a sedimentation and clarification zone, a clear water condensing zone (27) and a water outlet pipe which are sequentially communicated;

an inclined plate filler (29) is arranged in the sedimentation and clarification zone, the inclined plate filler (29) is provided with an inclined plate sedimentation channel, the lower end of the inclined plate sedimentation channel is communicated with the lower part of the sedimentation and clarification zone, and the upper end of the inclined plate sedimentation channel is communicated with the clear water accumulation zone (27);

the bottom of the sedimentation clarification zone is provided with a sludge zone, the lower end of the inclined plate sedimentation channel is positioned above the sludge zone, the sludge zone is communicated with the sludge reflux zone through a sludge reflux device, and the bottom of the sludge zone is provided with a drain pipe;

the sludge return zone, the mixing and condensing zone, the flocculation reaction zone, the sedimentation and clarification zone and the clear water gathering zone (27) are all closed structures;

flocculation reaction zone includes automatic exhaust mechanism (1), automatic exhaust mechanism (1) is including gas transmission pipe (11) at middle part, the avris of gas transmission pipe (11) is provided with automatic exhaust valve (12), the middle part of automatic exhaust valve (12) has inlayed and has rotated sleeve pipe (13), the avris of rotating sleeve pipe (13) still divides to be equipped with a plurality of connecting tube (14), a plurality of gas vent (15) have been seted up at the middle part of connecting tube (14), the sealed intercommunication in top surface of gas vent (15) has pipe (16), the sealed intercommunication in bottom of pipe (16) has muddy water purifier (2) that are used for storing the water, muddy water purifier (2) include water processing storage tank (21) with the sealed intercommunication in top of pipe (16).

2. The high-efficiency intelligent turbid water purification device according to claim 1, characterized in that: the water body processing storage tank is characterized in that a first cylindrical enclosing plate (22) is arranged in the middle of the top end of a tank body of the water body processing storage tank (21), a water distribution hopper (23) is vertically inserted in the middle of the tank position of the first cylindrical enclosing plate (22), a trapezoidal filter plate (24) used for lifting filtered liquid is arranged at the bottom of the water distribution hopper (23), a circular groove is formed in the middle of the plate surface of the trapezoidal filter plate (24), an air outlet bolt (25) used for air outlet is inserted in the middle of the tank position of the first cylindrical enclosing plate (22), two automatic overflow pipes (26) used for gas output are respectively inserted in two side sides of the bottom of the air outlet bolt (25), a clear water collecting area (27) is sleeved outside the pipe bodies of the two automatic overflow pipes (26), and a plurality of air outlet guide pipes (28) used for gas output are arranged at the edge of the outer wall of the clear water collecting area (27), the edges of the plurality of air outlet guide pipes (28) are provided with inclined plate packing (29).

3. The high-efficiency intelligent turbid water purification device according to claim 1, characterized in that: toper fill board (291) is installed to the jar body bottom of water processing storage tank (21), toper fill board (291) middle part is provided with aeration mechanism (3) that are used for the aeration, aeration mechanism (3) include with toper fill board (291) avris fixed connection's water injection pipe (31), are located the avris of toper fill board (291) still is provided with L type aeration pipe (32) that are used for the aeration, the sealed intercommunication in bottom edge of district (27) is gathered with the clear water to the one end of L type aeration pipe (32), the end of giving vent to anger of L type aeration pipe (32) is sealed the intercommunication with a plurality of air pipes (28) of discharging respectively.

4. The high-efficiency intelligent turbid water purification device according to claim 3, wherein: the round sludge discharge hole (33) is formed in the middle of the bottom end of the conical hopper plate (291), the drying mechanism (4) for sludge treatment is arranged at one end of the round sludge discharge hole (33), and the drying mechanism (4) comprises a discharge hose (41) connected with the bottom of the conical hopper plate (291).

5. The high-efficiency intelligent turbid water purification device according to claim 4, wherein: one end of the discharging hose (41) is provided with a drying pump (42), a sludge extraction end (43) for extracting sludge is mounted inside a pump body of the drying pump (42), a sludge outlet (44) is formed in the top end of the sludge extraction end (43), and a storage tank can be mounted in the sludge outlet (44).

6. The high-efficiency intelligent turbid water purification device according to claim 3, wherein: the one end of water injection pipe (31) still sealed intercommunication have be used for the water to store deposit mechanism (5), deposit mechanism (5) including S type water injection pipe (51) that are used for injecting into the water, the one end of S type water injection pipe (51) is provided with preliminary treatment water tank (52).

7. The efficient intelligent turbid water purification device according to claim 6, wherein: the box avris of preliminary treatment water tank (52) still is provided with agitator motor (53) that are used for mixing the medicament, the output of agitator motor (53) is connected with the inside agitator transmission that sets up of preliminary treatment water tank (52), one side of preliminary treatment water tank (52) is provided with dosing pump (54).

8. The high-efficiency intelligent turbid water purification device according to claim 7, characterized in that: the outer wall of water processing storage tank (21) still is provided with the PLC controller, automatic exhaust valve (12), drying pump (42), agitator motor (53) and dosing pump (54) all with PLC controller electric connection, PLC controller and external power supply electric connection.

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