CN219239448U - Intelligent water treatment device and system with microfiltration mechanism - Google Patents

Abstract

The utility model discloses an intelligent water treatment device and system with a micro-filtration mechanism, wherein the intelligent water treatment device comprises a reaction tank, a micro-filtration machine, a dosing device and a sedimentation tank; a water inlet mechanism for sewage to enter and a water discharge mechanism for emptying the reaction tank are arranged at the reaction tank; the dosing device is arranged at the reaction tank and used for quantitatively adding a water treatment agent for coagulation or flocculation into the reaction tank; the micro-filter is in butt joint with the drainage mechanism and is used for carrying out solid-liquid separation on flocculated/coagulated sewage output from the reaction tank; the micro-filter is provided with a clear outlet and a slag discharging outlet; the outlet of the micro-filter is in butt joint with the sedimentation tank; also comprises a controller; the water inlet mechanism, the water outlet mechanism, the dosing device and the micro-filter are controlled by the processor. The intelligent water treatment device and the system with the microfiltration mechanism can conduct quantitative intelligent treatment on sewage, are easy to implement, low in cost and high in stability.

Description

Intelligent water treatment device and system with microfiltration mechanism

Technical Field

The utility model particularly relates to an intelligent water treatment device and system with a microfiltration mechanism.

Background

Among the current water treatment system, comparatively advanced is that adopt the filter core of going up and down to realize solid-liquid separation to the sewage after the coagulation, see a filter core lifting assembly and water treatment facilities of publication No. 215310446U, application number: 202121460208.3 there is provided a cartridge lifting assembly and water treatment apparatus therefor, wherein the cartridge lifting assembly comprises a lifting platform and at least two sets of lifting electric drive mechanisms; the end of the lifting platform is fixedly connected with the lifting electric driving mechanism, the lifting platform is also connected with the filter element assembly, and all the lifting electric driving mechanisms are uniformly distributed along the peripheral wall of the container. Compared with the prior art, the filter element lifting assembly is provided with the lifting electric driving mechanism for lifting the filter element, so that the filter element can be conveniently assembled and disassembled, and meanwhile, the height of the filter element in a container can be adjusted in a lifting manner during working, so that the filter element can achieve the optimal filtering effect conveniently; and moreover, a plurality of lifting electric driving mechanisms are uniformly distributed along the peripheral wall of the container, so that the balance and stability during lifting can be ensured, the situation of blocking and the like during lifting is avoided, and the practicability is high. This approach has good filtering effect, but has the disadvantage of having a lifting mechanism, typically hydraulically driven, which is costly, less reliable and prone to failure. Therefore, there is a need for a more reliable, less costly water treatment apparatus system and method.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an intelligent water treatment device and system with a micro-filtration mechanism, which can intermittently treat sewage, and are easy to implement and low in cost.

The technical proposal of the utility model is as follows:

an intelligent water treatment device with a microfiltration mechanism comprises a reaction tank, a microfiltration machine, a dosing device and a sedimentation tank; a water inlet mechanism for sewage to enter and a water discharge mechanism for emptying the reaction tank are arranged at the reaction tank; the water inlet mechanism is a water inlet pump or a water inlet pipe with a charge valve; the drainage mechanism is a drainage pump or a drainage pipe with a power supply valve; the dosing device is arranged at the reaction tank and used for quantitatively adding a water treatment agent for coagulation or flocculation into the reaction tank; PAC, PAM, etc.;

the micro-filter is in butt joint with the drainage mechanism and is used for carrying out solid-liquid separation on flocculated/coagulated sewage output from the reaction tank; the micro-filter is provided with a clear outlet and a slag discharging outlet; the outlet of the micro-filter is in butt joint with the sedimentation tank;

also comprises a controller; the water inlet mechanism, the water outlet mechanism, the dosing device and the micro-filter are controlled by the processor.

The micro-filter is a roller type micro-filter.

The intelligent water treatment device adopts a box-type structure, the reaction tank is positioned at the upper part of the box body, the sedimentation tank is positioned at the lower part of the box body, the micro-filter is positioned at the middle part of the box body, and the micro-filter is positioned between the reaction tank and the sedimentation tank. The device can also adopt a split type structure, namely, each part adopts an independent structure.

A stirring mechanism is arranged in the reaction tank; the stirring mechanism is controlled by a controller. The stirring mechanism can be omitted, and sewage enters the reaction vessel in an impact mode when water is fed, so that the stirring mechanism has a certain stirring effect.

The controller can be a singlechip or a relay control mechanism based on devices such as a relay, a delay relay and the like.

The stirring device is a submerged pump or a stirring impeller driven by a motor.

The micro-filter is a self-cleaning drum-type (rotary) micro-filter. The self-cleaning is preferably carried out by arranging a high-pressure spray head in the self-cleaning device, and cleaning is carried out once by spraying water every time when the self-cleaning device works for a period of time (such as 10-15 minutes). Other self-cleaning modes can be adopted, and the self-cleaning method is the prior art.

The sedimentation tank preferably adopts a inclined tube sedimentation tank, and the inclined tube sedimentation can well prevent water from stirring in the sedimentation tank, so that sedimentation is accelerated, and a better sedimentation effect is achieved.

An emergency tank (or called an adjusting tank or a standby tank) is also included for storing the clear liquid discharged from the sedimentation tank. Can be pumped or self-flowing by turning over the wall.

An intelligent water treatment device system comprises an intelligent water treatment device, a front-stage filtering device, an ultrafiltration device and a reverse osmosis membrane filtering device which are connected in sequence;

the front-stage filtering device is at least one of a quartz sand filtering device and an active carbon filtering device;

the intelligent water treatment device adopts the intelligent water treatment device with the micro-filtration mechanism.

The front-stage filter, the ultrafiltration device and the reverse osmosis membrane filter are arranged in a box body.

An intelligent water treatment device method adopts the intelligent water treatment device;

intermittently treating the sewage in batches under the control of the controller;

the processing process comprises the following steps:

step 1: coagulation/flocculation reactions;

quantitatively adding sewage and a water treatment agent into the reaction tank, and optionally starting stirring to enhance the reaction effect;

step 2: microfiltration of

Carrying out solid-liquid separation on the mixed water of coagulation/flocculation reaction by adopting a micro-filter; solid slag is discharged, and clear liquid enters a sedimentation tank serving as the next stage;

step 3: precipitation

The clear liquid enters a sedimentation tank for sedimentation, and the clear liquid after sedimentation is subjected to the next treatment;

the next treatment includes at least one of biochemical treatment (aeration, anaerobic treatment, etc.), pre-stage filtration treatment (the pre-stage filtration device is at least one of a quartz sand filtration device and an activated carbon filtration device), ultrafiltration treatment, and reverse osmosis membrane treatment.

The solid-liquid separation device (i.e. the micro-filter) is internally provided with a back flushing mechanism, and an external spray head is adopted to regularly back flush the filter cylinder of the solid-liquid separation device. Prevent the blocking of holes. Such as back flushing once after 15 minutes, or 30 minutes or 2 hours of operation.

And (3) carrying out further filtration treatment on the clear liquid after solid-liquid separation by adopting an ultrafiltration membrane or a reverse osmosis membrane. So as to realize the discharge of purified water.

And adding an ammonia nitrogen remover into the clear liquid after solid-liquid separation to further reduce the ammonia nitrogen index in the sewage. Realizing standard discharge, and the adding amount is the prior mature technology.

The sewage is breeding wastewater, such as pig manure water and the like.

The rotating speed of the solid-liquid separator is low and is controlled within hundreds or even tens of turns, so that flocculate is prevented from being scattered and is unfavorable for filtration, the solid-liquid separator is provided with a back flushing module, and the controller is connected with a communication module and is used for communicating with a cloud server and uploading data to the cloud server for storage.

The container is also provided with a monitoring camera for monitoring the site. So as to be arranged on the container, and also can be arranged on a supporting rod beside the container.

The controller is connected with MMI. Display screen, keyboard, touch screen, etc. for setting parameters, etc.

The beneficial effects are that:

the intelligent water treatment device and system with the microfiltration mechanism provided by the utility model have the advantages that the stirring mechanism is arranged in the reaction container, and the liquid medicine and sewage can be sufficiently stirred. Moreover, the container has a simple inner structure, is not provided with a lifting filtering mechanism and the like, is easy to implement, adopts intelligent control, and can further realize remote control.

The solid-liquid separation device can filter out flocculate (lump flocculate) in the sewage.

The box-type structure is adopted, the transportation is easy, the existing installation is realized, the structure is compact, and the product consistency can be very good.

The micro-filter is the existing mature equipment, the whole system has high reliability, no complex mechanical structure (such as a lifting mechanism and the like) is adopted, the corresponding equipment is easy to manufacture and maintain, the cost is low, the reliability is high, and the micro-filter is suitable for popularization and implementation.

Drawings

FIG. 1 is a layout view (side view) of a smart water treatment system with a microfiltration mechanism;

FIG. 2 is a layout view (top view) of a smart water treatment system with a microfiltration mechanism;

FIG. 3 is a water treatment flow chart;

FIG. 4 is a schematic view of the overall structure of the inclined solid-liquid separation device;

FIG. 5 is a schematic illustration of the relative positioning of a cleaning mechanism having a brush with a filter cartridge;

FIG. 6 is a schematic illustration of the relative position of a cleaning mechanism with a scraper (wiper strip) and a filter cartridge;

fig. 7 is a schematic diagram of the overall structure of the solid-liquid separation device based on the screw pushing mechanism.

Description of the reference numerals: 31-rotating shafts, 32-connecting rods, 33-filter cartridges and 34-filter holes; 35-a clear liquid container and 36-a slag fixing container; 37-scraping plate, 38-hairbrush and 39-bracket; 40-spiral pushing mechanism, 41-cleaning component, 42-water permeable hole.

Detailed Description

The utility model will be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments are shown, for the purpose of illustrating the utility model, but the scope of the utility model is not limited to the specific embodiments.

Unless defined otherwise, all technical and scientific terms used hereinafter have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the scope of the present utility model.

Example 1: an intelligent water treatment device with a microfiltration mechanism comprises a reaction tank, a microfiltration machine, a dosing device and a sedimentation tank; a water inlet mechanism for sewage to enter and a water discharge mechanism for emptying the reaction tank are arranged at the reaction tank; the water inlet mechanism is a water inlet pump or a water inlet pipe with a charge valve; the drainage mechanism is a drainage pump or a drainage pipe with a power supply valve; the dosing device is arranged at the reaction tank and used for quantitatively adding a water treatment agent for coagulation or flocculation into the reaction tank; PAC, PAM, etc.; the micro-filter is in butt joint with the drainage mechanism and is used for carrying out solid-liquid separation on flocculated/coagulated sewage output from the reaction tank; the micro-filter is provided with a clear outlet and a slag discharging outlet; the outlet of the micro-filter is in butt joint with the sedimentation tank; also comprises a controller; the water inlet mechanism, the water outlet mechanism, the dosing device and the micro-filter are controlled by the processor. The micro-filter is a roller type micro-filter. The intelligent water treatment device adopts a box-type structure, the reaction tank is positioned at the upper part of the box body, the sedimentation tank is positioned at the lower part of the box body, the micro-filter is positioned at the middle part of the box body, and the micro-filter is positioned between the reaction tank and the sedimentation tank.

A stirring mechanism is arranged in the reaction tank; the stirring mechanism is controlled by a controller. The stirring device is a submerged pump or a stirring impeller driven by a motor.

The controller can be a singlechip (such as a DSP and the like) or a relay control mechanism based on a relay, a delay relay and the like.

The micro-filter is a self-cleaning drum-type (rotary) micro-filter. The self-cleaning is preferably carried out by arranging a high-pressure spray head in the self-cleaning device, and cleaning is carried out once by spraying water every time when the self-cleaning device works for a period of time (such as 10-15 minutes). Other self-cleaning modes can be adopted, and the self-cleaning method is the prior art.

The sedimentation tank preferably adopts a inclined tube sedimentation tank, and the inclined tube sedimentation can well prevent water from stirring in the sedimentation tank, so that sedimentation is accelerated, and a better sedimentation effect is achieved.

An emergency tank (or called an adjusting tank or a standby tank) is also included for storing the clear liquid discharged from the sedimentation tank. Preferably, the emergency pool is accessed by adopting a wall-turning self-flowing mode.

An intelligent water treatment device system comprises an intelligent water treatment device, a front-stage filtering device, an ultrafiltration device and a reverse osmosis membrane filtering device which are connected in sequence;

the front-stage filtering device is at least one of a quartz sand filtering device and an active carbon filtering device;

the intelligent water treatment device adopts the intelligent water treatment device with the micro-filtration mechanism.

The front-stage filter, the ultrafiltration device and the reverse osmosis membrane filter are arranged in a box body. The whole box body comprises all modules, and is convenient to produce and transport.

An intelligent water treatment device method adopts the intelligent water treatment device;

intermittently treating the sewage in batches under the control of the controller;

the processing process comprises the following steps:

step 1: coagulation/flocculation reactions;

quantitatively adding sewage and a water treatment agent into the reaction tank, and optionally starting stirring to enhance the reaction effect;

step 2: microfiltration of

Carrying out solid-liquid separation on the mixed water of coagulation/flocculation reaction by adopting a micro-filter; solid slag is discharged, and clear liquid enters a sedimentation tank serving as the next stage;

step 3: precipitation

The clear liquid enters a sedimentation tank for sedimentation, and the clear liquid after sedimentation is subjected to the next treatment;

the next treatment includes at least one of biochemical treatment (aeration, anaerobic treatment, etc.), pre-stage filtration treatment (the pre-stage filtration device is at least one of a quartz sand filtration device and an activated carbon filtration device), ultrafiltration treatment, and reverse osmosis membrane treatment.

The solid-liquid separation device (i.e. the micro-filter) is internally provided with a back flushing mechanism, and an external spray head is adopted to regularly back flush the filter cylinder of the solid-liquid separation device. Prevent the blocking of holes. Such as back flushing once after 15 minutes, or 30 minutes or 2 hours of operation.

And (3) carrying out further filtration treatment on the clear liquid after solid-liquid separation by adopting an ultrafiltration membrane or a reverse osmosis membrane. So as to realize the discharge of purified water.

And adding an ammonia nitrogen remover into the clear liquid after solid-liquid separation to further reduce the ammonia nitrogen index in the sewage. Realizing standard discharge, and the adding amount is the prior mature technology.

The sewage is breeding wastewater, such as pig manure water and the like.

The rotating speed of the solid-liquid separator is low and is controlled within hundreds or even tens of turns, so that flocculate is prevented from being scattered and is unfavorable for filtration, the solid-liquid separator is provided with a back flushing module, and the controller is connected with a communication module and is used for communicating with a cloud server and uploading data to the cloud server for storage.

The container is also provided with a monitoring camera for monitoring the site. So as to be arranged on the container, and also can be arranged on a supporting rod beside the container.

The controller is connected with MMI. Display screen, keyboard, touch screen, etc. for setting parameters, etc.

The reverse osmosis membrane is preferably an ST reverse osmosis membrane.

The wastewater is generally treated every 10 to 15 minutes.

The micro-filter adopts the existing micro-filter product or adopts the inclined solid-liquid separation device as shown in fig. 4-6, and comprises a power mechanism, a filtering mechanism and a cleaning mechanism;

the power mechanism is used for driving the filtering mechanism and the cleaning mechanism to rotate relatively;

the filtering mechanism comprises a tilted filter cartridge 33; the filter cylinder is obliquely arranged relative to the horizontal plane; the inclination angle is a, a is more than 5 and less than 60; the high end of the filter cartridge is provided with a sewage inlet channel, and the low end of the filter cartridge is provided with a solid slag discharge channel; the channel can be an opening, so that solid slag can be discharged conveniently;

after the mixed sewage enters the filter cartridge from the high end of the filter cartridge, clear liquid flows out of the filter holes 34 on the filter cartridge; solid slag is discharged from the lower end of the filter cylinder; the cleaning mechanism is used for removing solid slag adhered to the inner wall of the filter cylinder;

also comprises a rotating shaft 31; the cleaning mechanism is arranged on the rotating shaft; the cleaning mechanism comprises a cleaning component; the cleaning component is directly arranged on the rotating shaft, or the cleaning component is arranged on the rotating shaft through the mounting component;

and also includes a clear liquid container 35 disposed below the filter cartridge.

The power mechanism is in transmission connection with the rotating shaft; the filter cartridge is fixed or kept in a free state; the free state type movable type is maintained, and no connection relation is formed between the free state type movable type and the power mechanism, wherein the cleaning mechanism moves, and the filter cylinder is static or follows to a certain extent, such as slight rotation under the drive of the scraping plate. The cartridge may be ball bearing mounted on the shaft.

The power mechanism is in transmission connection with the filter cylinder; the cleaning mechanism is fixed or kept in a free state; the remaining free state is movable without any connection to the power mechanism in such a way that the cartridge rotates while the cleaning mechanism is stationary or slightly following, e.g. slightly rotating, by the cartridge. The cartridge may be ball bearing mounted on the shaft. The power mechanism drives the filter cylinder to rotate through gears or belt pulleys and the like.

The angle of inclination is preferably less than 30 degrees. Preferably 15 degrees, 7.5 degrees, etc.

The installation component is the connecting rod, connecting plate or connection frame.

The cleaning member is a scraper 37 or a brush 38. A blade made of silica gel is preferable.

The cleaning components are multiple and are symmetrically arranged relative to the rotating shaft. For example, 2, or more than 3, are symmetrically arranged and circumferentially distributed equally.

And also includes a slag fixing receptacle 36 disposed below the outlet at the lower end of the cartridge.

The power mechanism comprises a motor and a speed reducing mechanism. Such as a reduction gear, preferably rotates at a low speed, such as less than 100 revolutions per minute. The speed reducing mechanism is used for reducing the rotating speed.

The filter cartridge is characterized by further comprising a back flushing mechanism which is arranged on the outer side of the filter cartridge and is used for back flushing the filter cartridge from the outer side, wherein the back flushing mechanism comprises a plurality of high-pressure water spray heads, water is sprayed to the filter cartridge from the outer side, and at the moment, the filter cartridge is preferably rotated to clear plugs in filter holes, and back flushing can be performed once after a period of working, for example, back flushing is performed once after 10 minutes of working.

The filter mechanism is supported by a bracket 39.

Description of working modes: sewage (preferably flocculated water) enters the high end of the filter cartridge through the liquid pump, the filter cartridge and the scraping plate rotate relatively at a low speed, clean water flows out through the filtering holes on the outer wall of the filter cartridge, enters the clear liquid container 35 to be collected, solid slag and the like move to the lower end of the filter cartridge under the action of the cleaning mechanism (scraping plate and the like) and the action of gravity, and falls into the solid slag container 36 to work circularly and continuously. And the filter cartridge is backwashed after being operated for a period of time (for example, 15 minutes at regular time or abnormal water level rise in the clear liquid container is detected, if the water level is lower than the expected change rate, the hole is blocked), and a backwater mechanism is started.

The clear water in the clear liquid container is processed in the next step (such as reverse osmosis treatment, etc.), and the solid slag in the solid slag container is further processed, such as spiral shell stacking machine treatment, etc.

Referring to fig. 7, a solid-liquid separation device (which can replace a micro-filter) based on a spiral pushing mechanism comprises the spiral pushing mechanism and a filtering mechanism;

the spiral pushing mechanism is driven by a power mechanism, such as a hydraulic mechanism, a motor and the like.

The filtering mechanism comprises a filter cartridge 33; the filter cartridge is fixed or kept in a free state; the filter cartridge is characterized in that the filter cartridge is in a free state, is free from being directly driven by external force, and can be driven by a cleaning mechanism to passively rotate to a certain extent, so that the filter cartridge has the advantage that the filter holes above the filter cartridge can be utilized. The cartridge may be ball bearing mounted on the shaft.

The front end of the filter cylinder is provided with a water inlet pipe which is used for guiding sewage into the filter cylinder; the inlet pipe may be arranged outside the filter cartridge to inject water into the filter cartridge, preferably the inlet pipe extends into the filter cartridge, so that break up of flocs is avoided. At the same time, the spiral pushing mechanism also rotates slowly, such as within 100 minutes.

The wall of the filter cartridge is provided with a plurality of filter holes 34; after the mixed sewage enters the filter cartridge from the front end of the filter cartridge, clear liquid flows out from the filter holes on the wall of the filter cartridge; solid slag is discharged from the rear end of the filter cylinder;

the outer edge of the spiral body of the spiral pushing mechanism is provided with a cleaning component; the cleaning component is contacted with the inner wall of the filter cylinder and is used for cleaning the inner wall of the filter cylinder;

and also includes a clear liquid container 35 disposed below the filter cartridge. The cleaning component is made of wear-resistant materials, preferably silica gel strips.

The diameter of the front end of the filter cartridge is greater than the diameter of the rear end. That is, the filter cylinder has a certain taper, and the extrusion and cleaning pushing effects are better.

The front end of the filter cylinder is provided with an inner edge for preventing water from flowing backwards. Is equivalent to a step and prevents sewage from flowing backwards.

The rear end of the cartridge has a slag securing receptacle 36.

The filter mechanism is mounted on the bracket. Is mounted by a bearing or other mechanism.

The spiral body of the spiral pushing mechanism is provided with a water permeable channel. Such as through holes 42 or through slits.

The device also comprises a controller, and the pushing mechanism and the water inlet valve on the water inlet pipe are controlled by the controller. The controller is MCU, singlechip, etc. The controller is used for controlling the rotating speed, the start and stop, and the like.

The controller is connected with a communication module. Such as 3g,4g modules, etc.

The solid-liquid separation device based on the spiral pushing mechanism further comprises a camera, preferably a network camera, for on-site video monitoring.

Preferably, the filter cartridge is arranged obliquely, and the filter cartridge is arranged obliquely relative to the horizontal plane; the inclination angle is a, a is more than 5 and less than 60; the high end of the filter cartridge is provided with a sewage inlet channel, and the low end of the filter cartridge is provided with a solid slag discharge channel; the channel can be an opening, so that solid slag can be discharged conveniently. With this inclination, the water is facilitated to flow naturally toward the lower end.

The filter cartridge is characterized by further comprising a back flushing mechanism for back flushing the filter cartridge by the external spray head.

Description of working modes: sewage (preferably flocculated water) enters the high end of the filter cartridge through the liquid pump, the filter cartridge rotates at a relatively low speed with the spiral body, clean water flows out through the filter holes on the outer wall of the filter cartridge, enters the clear liquid container 35 for collection, solid slag and the like move towards the lower end of the filter cartridge under the action of a cleaning mechanism (scraping plate and the like) and the action of gravity, and falls into the solid slag container 36 to work circularly and continuously. And the filter cartridge is backwashed after being operated for a period of time (for example, 15 minutes at regular time or abnormal water level rise in the clear liquid container is detected, if the water level is lower than the expected change rate, the hole is blocked), and a backwater mechanism is started.

The clear water in the clear liquid container is processed in the next step (such as reverse osmosis treatment, etc.), and the solid slag in the solid slag container is further processed, such as spiral shell stacking machine treatment, etc.

Claims (9)

1. An intelligent water treatment device with a microfiltration mechanism is characterized by comprising a reaction tank, a microfiltration machine, a dosing device and a sedimentation tank;

a water inlet mechanism for sewage to enter and a water discharge mechanism for emptying the reaction tank are arranged at the reaction tank; the water inlet mechanism is a water inlet pump or a water inlet pipe with a charge valve; the drainage mechanism is a drainage pump or a drainage pipe with a power supply valve;

the dosing device is arranged at the reaction tank and used for quantitatively adding a water treatment agent for coagulation and/or flocculation into the reaction tank; the micro-filter is in butt joint with the drainage mechanism and is used for carrying out solid-liquid separation on flocculated/coagulated sewage output from the reaction tank; the micro-filter is provided with a clear outlet and a slag discharging outlet; the outlet of the micro-filter is in butt joint with the sedimentation tank;

also comprises a controller; the water inlet mechanism, the water outlet mechanism, the dosing device and the micro-filter are controlled by the processor.

2. The intelligent water treatment device with a microfiltration mechanism according to claim 1 wherein the microfiltration machine is a roller type microfiltration machine.

3. The intelligent water treatment device with the micro-filtration mechanism according to claim 1, wherein the intelligent water treatment device adopts a box type structure, the reaction tank is positioned at the upper part of the box body, the sedimentation tank is positioned at the lower part of the box body, the micro-filtration machine is positioned at the middle part of the box body, and the micro-filtration machine is positioned between the reaction tank and the sedimentation tank.

4. The intelligent water treatment device with the microfiltration mechanism according to claim 1, wherein a stirring mechanism is arranged in the reaction tank; the stirring mechanism is controlled by a controller.

5. The intelligent water treatment device with a micro-filtration mechanism according to claim 4, wherein the stirring device is a submerged pump or a stirring impeller driven by a motor.

6. The intelligent water treatment device with a microfiltration mechanism according to claim 1 wherein the microfiltration machine is a self cleaning roll type microfiltration machine.

7. The intelligent water treatment device with a microfiltration mechanism according to any one of claims 1-6 further comprising an emergency tank for storing the supernatant discharged from the sedimentation tank.

8. An intelligent water treatment device system is characterized by comprising an intelligent water treatment device, a pre-stage filtering device, an ultrafiltration device and a reverse osmosis membrane filtering device which are connected in sequence;

the front-stage filtering device is at least one of a quartz sand filtering device and an active carbon filtering device;

the intelligent water treatment device employing the intelligent water treatment device with a microfiltration mechanism according to any one of claims 1 to 7.

9. The intelligent water treatment apparatus system according to claim 8, wherein the pre-stage filtration apparatus, the ultrafiltration apparatus, and the reverse osmosis membrane filtration apparatus are housed in a case.

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