CN113134303B - High-efficient environmental protection intelligence water purifier - Google Patents

Abstract

The invention provides a high-efficiency environment-friendly intelligent water filter, which comprises a purifying device; the purification device comprises a sewage input mechanism for inputting sewage, a filtering mechanism for filtering the sewage and a clear water output mechanism for outputting clear water; the clean water output mechanism comprises a clean water accommodating part and a clean water output part; the clear water accommodating part comprises a first accommodating cavity, the sewage input mechanism and the filtering mechanism are arranged in the first accommodating cavity, and the filtering mechanism is rotationally connected in the first accommodating cavity; the clear water output part comprises a second accommodating cavity for accommodating clear water and a clear water output port for outputting clear water, the clear water output part is connected to the outer wall of the clear water accommodating part, and the first accommodating cavity is communicated with the second accommodating cavity. According to the invention, the filtering component is spirally arranged around the sewage communicating pipe, so that the filtered water directly washes the first filtering membrane or the second filtering membrane, and a spray head for spraying water is not required to be added to wash the first filtering membrane and the second filtering membrane, so that the cost of the purifying device is reduced, and the processing procedures are reduced.

Description

High-efficient environmental protection intelligence water purifier

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a high-efficiency environment-friendly intelligent water filter.

Background

Conventional industries produce a large amount of sewage which flows into nature without being treated, and the sewage causes great damage to the natural environment, so that effective treatment measures for industrial sewage are required.

The current water filter is complicated in structure, the cleaning of dirt on the filtering membrane requires the water spraying nozzle to wash away the filtering membrane, and the replacement of the filtering membrane requires shutdown to replace, so that the water filtering efficiency is reduced.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide a high-efficiency environment-friendly intelligent water filter, which aims to solve the problems that the structure of the water filter in the background art is complicated, a nozzle for spraying water is required for cleaning dirt on a filtering membrane to wash the filtering membrane, and the filtering membrane can be replaced only by stopping the water filter for replacing the filtering membrane, so that the water filtering efficiency is reduced.

In order to achieve the purpose, the invention adopts the technical scheme that:

an efficient environment-friendly intelligent water filter comprises a purifying device for purifying sewage; the purification device comprises a sewage input mechanism for inputting sewage, a filtering mechanism for filtering the sewage and a clear water output mechanism for outputting clear water; the sewage input mechanism is communicated with the filtering mechanism, and the filtering mechanism is communicated with the clean water output mechanism; the clean water output mechanism comprises a clean water accommodating part and a clean water output part; the clear water accommodating part comprises a first accommodating cavity, the sewage input mechanism and the filtering mechanism are arranged in the first accommodating cavity, and the filtering mechanism is rotationally connected in the first accommodating cavity; the clear water output part comprises a second accommodating cavity for accommodating clear water and a clear water output port for outputting clear water, the clear water output part is connected to the outer wall of the clear water accommodating part, and the first accommodating cavity is communicated with the second accommodating cavity.

Further, the filtering mechanism comprises a filtering device and a sewage communicating pipe for inputting sewage into the filtering device.

Furthermore, the filtering device comprises a plurality of filtering components for filtering sewage, the filtering components are spirally arranged around the outer circumferential surface of the sewage communicating pipe along the axial direction of the sewage communicating pipe, the sewage communicating pipe is provided with a plurality of communicating ports which are in one-to-one correspondence with the filtering components, the filtering components are provided with sewage inlet ports into which sewage enters, and the sewage inlet ports are communicated with the communicating ports.

Further, the filter assembly includes a filter portion; the filtering part comprises a mounting part, a first filtering membrane, a second filtering membrane, a first dirt guide plate and a second dirt guide plate; the sewage inlet is formed at the bottom end of the mounting part, a third accommodating cavity is formed in the mounting part, a first circulation port through which clean water passes is formed at one end of the mounting part, and a second circulation port through which clean water passes is formed at the other end of the mounting part; the sewage inlet port of installation department is linked together with the intercommunication mouth that corresponds, first dirty board and the second of leading is located third holding intracavity and connect on the inside roof of installation department, first dirty board and the second of leading leads dirty board slope in opposite directions and sets up and extend towards the direction of sewage inlet port, first filtration membrane opens and locates on the first circulation mouth, second filtration membrane opens and locates on the second circulation mouth.

Furthermore, the filtering component still includes connecting portion, the bottom laminating of connecting portion is connected in the outer periphery of sewage communicating pipe, connecting portion have fourth holding chamber, the fourth holding intracavity is located to the filtering part, and the one end of connecting portion forms first connector, and the other end of connecting portion forms the second connector, and the bottom of connecting portion forms the sewage water inlet corresponding with the sewage inlet mouth, the shape of first connector and the shape phase-match of the longitudinal section of installation department, first circulation mouth and first connector are linked together, and second circulation mouth and second connector are linked together, are equipped with on the diagonal of connecting portion one end and carry out spacing first locating part and second locating part to the installation department, first locating part and second locating part all rotate with connecting portion and are connected.

Furthermore, the filtering mechanism also comprises a rotation driving device for driving the sewage communicating pipe to rotate.

Further, the sewage input mechanism comprises a sewage input pipe, the sewage input pipe is sleeved in the sewage communicating pipe, and the inner wall of the sewage communicating pipe is rotatably connected with the outer wall of the sewage input pipe; a plurality of sewage output parts are formed on the sewage input pipe and are arranged at equal intervals along the axial direction of the sewage input pipe.

Further, sewage output portion includes a plurality of sewage delivery outlets, and a plurality of sewage delivery outlets equidistant are formed on the outer periphery of sewage input pipe, sewage delivery outlet and intercommunication mouth are linked together.

Further, the upper part of the sewage input pipe is inwards sunken to form a sewage discharge part for accommodating sewage.

Further, blowdown portion includes filth input port and filth storage tank, the axial extension of filth input port edge sewage input tube sets up, filth input port and sewage inlet port are linked together, filth storage tank and filth input port are linked together.

Further, the filtering mechanism further comprises an adsorption device for adsorbing impurities.

Further, the adsorption device comprises a plurality of magnetic rods for adsorbing impurities, a first rotating ring and a second rotating ring; the clear water accommodating part also comprises a first water baffle plate positioned at one end of the first accommodating cavity and a second water baffle plate positioned at the other end of the first accommodating cavity; a first rotating groove is formed on the first water baffle, a second rotating groove is formed on the second water baffle, a fixing piece is arranged in a third accommodating cavity of each mounting part of the plurality of filtering assemblies, and the fixing piece is connected between the inner side wall of the mounting part and the first dirt guide plate; the first rotating ring is rotatably connected to the first rotating groove, the second rotating ring is rotatably connected to the second rotating groove, the plurality of magnetic rods are arranged around the rotating axis of the sewage communicating pipe at equal intervals, and the magnetic rods penetrate through the first rotating ring, the fixing piece and the second rotating ring.

Further, the fixing member includes a first fixing tube, a second fixing tube, a first fixing plate and a second fixing plate; the axial of the first fixed pipe and the second fixed pipe and the axis of the sewage communicating pipe are arranged in parallel, the first fixed pipe and the second fixed pipe are located between the first fixed plate and the second fixed plate, and the magnetic rod penetrates through the first fixed pipe and the second fixed pipe.

The device further comprises a first protection body for protecting one end of the magnetic rod and a second protection body for protecting the other end of the magnetic rod; the first protection body is detachably connected with the magnetic rod, and the second protection body is detachably connected with the magnetic rod.

After adopting the structure, the invention relates to a high-efficiency environment-friendly intelligent water filter, which has the following beneficial effects:

inputting sewage into a filtering mechanism through a sewage input mechanism, filtering the sewage by the filtering mechanism, inputting the filtered sewage into a first accommodating cavity of a clean water accommodating part of a clean water output mechanism, enabling clean water in the first accommodating cavity to flow into a second accommodating cavity of the clean water output part and to be output from a clean water output port, and finishing purification treatment on the sewage; the plurality of filtering components are spirally arranged around the outer circumferential surface of the sewage communicating pipe, and the sewage communicating pipe drives the plurality of filtering components to rotate when rotating, so that the filtering components above the sewage communicating pipe contact with clean water in the first clean water containing part when rotating downwards to cause certain impact to wash the first filtering membrane or the second filtering membrane, and dirt on the first filtering membrane and the second filtering membrane is flushed down from the first filtering membrane and the second filtering membrane and falls into the sewage discharge part; according to the invention, the filtering component is spirally arranged around the sewage communicating pipe, so that the filtered water directly washes the first filtering membrane or the second filtering membrane, and a spray head for spraying water is not required to be added to wash the first filtering membrane and the second filtering membrane, so that the cost of the purifying device is reduced, and the processing procedures are reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of an efficient environment-friendly intelligent water filter according to the present invention;

FIG. 2 is a schematic view of the connection structure of the sewage input mechanism and the filtering mechanism of the present invention;

FIG. 3 is a schematic structural view of the sewage communicating pipe of the present invention;

FIG. 4 is a schematic view showing a coupling structure of a filter part and a fixing member according to the present invention;

FIG. 5 is a schematic view of the connection structure of the connection part, the filter part and the fixing member according to the present invention;

FIG. 6 is a schematic view of the structure of the sewage inlet pipe according to the present invention.

In the figure: the sewage treatment device comprises a sewage input mechanism 1, a filtering mechanism 2, a clean water output mechanism 3, a clean water containing part 31, a clean water output part 32, a clean water output port 321, a filtering device 21, a sewage communicating pipe 22, a filtering component 211, a communicating port 221, a filtering part 4, a mounting part 41, a first sewage guide plate 42, a second sewage guide plate 43, a sewage inlet port 411, a connecting part 5, a sewage inlet 51, a first limiting part 52, a second limiting part 53, a rotation driving device 23, a sewage input pipe 11, a sewage output part 111, a sewage output port 1111, a sewage discharge part 112, a sewage input port 1121, a sewage containing groove 1122, an adsorption device 24, a magnetic rod, a first rotating ring 242, a first water baffle 311, a fixing part 6, a first fixing pipe 61, a second fixing pipe 62, a first fixing plate 63, a second fixing plate 64 and a first protection body 25.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 6, the efficient environment-friendly intelligent water filter of the present invention comprises a purifying device for purifying sewage; the purification device comprises a sewage input mechanism 1 for inputting sewage, a filtering mechanism 2 for filtering the sewage and a clear water output mechanism 3 for outputting clear water; the sewage input mechanism 1 is communicated with the filtering mechanism 2, and the filtering mechanism 2 is communicated with the clear water output mechanism 3; the clean water output mechanism 3 comprises a clean water accommodating part 31 and a clean water output part 32; the clean water containing part 31 comprises a first containing cavity, the sewage input mechanism 1 and the filtering mechanism 2 are arranged in the first containing cavity, and the filtering mechanism 2 is rotationally connected in the first containing cavity; the clean water output part 32 comprises a second accommodating cavity for accommodating clean water and a clean water output port 321 for outputting clean water, the clean water output part 32 is connected to the outer wall of the clean water accommodating part 31, and the first accommodating cavity is communicated with the second accommodating cavity.

In this way, the sewage is input into the filtering mechanism 2 through the sewage input mechanism 1, the filtering mechanism 2 filters the sewage, and inputs the filtered sewage into the first accommodating cavity of the clean water accommodating part 31 of the clean water output mechanism 3, and the clean water in the first accommodating cavity flows into the second accommodating cavity of the clean water output part 32 and is output from the clean water output port 321, so that the sewage purification treatment is completed; the plurality of filtering components 211 are spirally arranged around the outer circumferential surface of the sewage communicating pipe 22, the sewage communicating pipe 22 drives the plurality of filtering components 211 to rotate when rotating, so that the filtering components 211 above rotate downwards to contact with the clean water in the first clean water containing part 31 to cause certain impact, the first filtering membrane or the second filtering membrane is washed, and the dirt on the first filtering membrane and the second filtering membrane is washed off from the first filtering membrane and the second filtering membrane and falls into the sewage discharge part 112; according to the invention, the filtering component 211 is spirally arranged around the sewage communicating pipe 22, so that the filtered water directly washes the first filtering membrane or the second filtering membrane, a spray head for spraying water is not required to be added to wash the first filtering membrane and the second filtering membrane, the cost of the purification device is reduced, and the processing procedures are reduced. Specifically, the height of the sidewall of one side of the clean water containing part 31 is smaller than the height of the sidewall of the other side of the clean water containing part 31, and the clean water output part 32 is connected to the outer wall of the end with the smaller height, so that the clean water flows into the clean water output part 32 from the side with the smaller height; also comprises a dustproof cover body which is covered on the clean water output mechanism 3.

Preferably, the filter mechanism 2 includes a filter device 21, and a sewage communicating pipe 22 for inputting sewage into the filter device 21. The sewage input mechanism 1 inputs the sewage into the sewage communicating pipe 22, and inputs the sewage into the filtering device 21 through the sewage communicating pipe 22 to filter the sewage; specifically, one end of the clean water accommodating portion 31 has a first rotating hole through which the sewage communicating pipe 22 passes, and the rotation driving device 23 drives the sewage communicating pipe 22 to rotate in the first rotating hole.

Preferably, the filtering apparatus 21 includes a plurality of filtering assemblies 211 for filtering the sewage, the plurality of filtering assemblies 211 are spirally disposed around the outer circumferential surface of the sewage communicating pipe 22 along the axial direction of the sewage communicating pipe 22, the sewage communicating pipe 22 is formed with a plurality of communicating ports 221 in one-to-one correspondence to the respective filtering assemblies 211, the filtering assemblies 211 have a sewage inlet port 411 through which the sewage enters, and the sewage inlet port 411 and the communicating ports 221 are communicated. The plurality of filter assemblies 211 improve water filtration efficiency, and the plurality of filter assemblies 211 are fixedly connected to the outer circumferential surface of the sewage communicating pipe 22, so that each communicating port 221 is always communicated with the sewage inlet 411 of the corresponding filter assembly 211 in the rotating process of the sewage communicating pipe 22; the sizes of the sewage inlet 411 and the communication port 221 are matched.

Preferably, the filter assembly 211 comprises a filter portion 4; the filter unit 4 includes an attachment portion 41, a first filter membrane, a second filter membrane, a first dirt guide plate 42, and a second dirt guide plate 43; the sewage inlet 411 is formed at the bottom end of the mounting portion 41, a third accommodating cavity is formed in the mounting portion 41, a first circulation port through which clean water passes is formed at one end of the mounting portion 41, and a second circulation port through which clean water passes is formed at the other end of the mounting portion 41; the sewage inlet 411 of the mounting portion 41 is communicated with the corresponding communication port 221, the first dirt guide plate 42 and the second dirt guide plate 43 are arranged in the third accommodating cavity and connected to the top wall inside the mounting portion 41, the first dirt guide plate 42 and the second dirt guide plate 43 are arranged in an opposite inclined mode and extend towards the sewage inlet 411, the first filtering membrane is arranged on the first circulation port, and the second filtering membrane is arranged on the second circulation port. Sewage enters the third accommodating cavity of the mounting part 41, and is filtered by the first filtering membrane and the second filtering membrane, so that the sewage is filtered after passing through the first filtering membrane and the second filtering membrane, and the sewage is adsorbed on the inner side surfaces of the third accommodating cavity of the first filtering membrane and the second filtering membrane; the filter assembly 211 is spirally arranged, in the rotating process, the filter assembly 211 on the clean water surface rotates towards the clean water surface, after the filter assembly is contacted with the clean water surface, the clean water impacts the first filter membrane or the second filter membrane to flush dirt from the first filter membrane or the second filter membrane, and after the dirt is contacted with the first dirt guide plate 42 and the second dirt guide plate 43, the first dirt guide plate 42 and the second dirt guide plate 43 guide the dirt, so that the dirt flows into the dirt discharge part 112 from the sewage inlet 411; when clockwise turning, when carrying out filterable to sewage, erode second filtration membrane, when anticlockwise turning, when carrying out filterable to sewage, erode first filtration membrane, remove the assembly water spray water jet equipment from, reduce purifier's manufacturing cost.

Preferably, in order to facilitate replacement of the first filtering membrane and the second filtering membrane, the filtering assembly 211 further includes a connecting portion 5, the bottom end of the connecting portion 5 is attached to the outer circumferential surface of the sewage communicating pipe 22, the connecting portion 5 has a fourth accommodating cavity, the filtering portion 4 is disposed in the fourth accommodating cavity, one end of the connecting portion 5 forms a first connecting port, the other end of the connecting portion 5 forms a second connecting port, the bottom end of the connecting portion 5 forms a sewage inlet 51 corresponding to the sewage inlet 411, the shape of the first connecting port matches with the shape of the longitudinal section of the mounting portion 41, the first circulating port is communicated with the first connecting port, the second circulating port is communicated with the second connecting port, a first limiting member 52 and a second limiting member 53 for limiting the mounting portion 41 are disposed on a diagonal line of one end of the connecting portion 5, and both the first limiting member 52 and the second limiting member 53 are rotatably connected with the connecting portion 5. The first limiting member 52 and the second limiting member 53 rotate, the old filter part 4 is taken out from the fourth accommodating cavity, the new filter part 4 is assembled in the fourth accommodating cavity, and the first limiting member 52 and the second limiting member 53 rotate to limit the mounting part 41; the machine does not need to be stopped in the process of replacing the filtering part 4, so that the purifying device always purifies the sewage, and the filtering part 4 is convenient to replace and ensures stable water filtering efficiency; specifically, the size of the sewage inlet 51 matches the size of the sewage inlet 411.

Preferably, the filter mechanism 2 further includes a rotation driving device 23 for driving the sewage communication pipe 22 to rotate. The sewage communicating pipe 22 is driven to rotate by the rotation driving device 23, the filtering device 21 on the sewage communicating pipe 22 is driven to rotate, and the sewage is filtered; specifically, the rotation driving device 23 is motor-driven.

Preferably, the sewage input mechanism 1 comprises a sewage input pipe 11, the sewage input pipe 11 is sleeved in a sewage communicating pipe 22, and the inner wall of the sewage communicating pipe 22 is rotatably connected with the outer wall of the sewage input pipe 11; a plurality of sewage discharge portions 111 are formed on the sewage input pipe 11, and the plurality of sewage discharge portions 111 are arranged at equal intervals in the axial direction of the sewage input pipe 11. The sewage is input into the sewage input pipe 11, and the sewage output part 111 of the sewage input pipe 11 inputs the sewage into the communication port 221 of the sewage communication pipe 22, and finally flows into the filter module 211 corresponding to the communication port 221 to filter the sewage.

Preferably, in order to improve the efficiency of discharging sewage from the sewage input pipe 11, the sewage discharge part 111 includes a plurality of sewage discharge ports 1111, the plurality of sewage discharge ports 1111 are formed at equal intervals on the outer circumferential surface of the sewage input pipe 11, and the sewage discharge ports 1111 communicate with the communication port 221. Specifically, the sizes of the sewage outlet 1111 and the communication port 221 are matched.

Preferably, in order to facilitate the collection and removal of the filth, an upper portion of the filth input pipe 11 is recessed inwardly to form a filth-receiving filth discharge portion 112.

Preferably, the dirt discharging portion 112 includes a dirt input port 1121 and a dirt receiving groove 1122, the dirt input port 1121 extends along the axial direction of the dirt input pipe 11 and is disposed upward, the dirt input port 1121 is communicated with the dirt inlet opening 411, and the dirt receiving groove 1122 is communicated with the dirt input port 1121. The sewage flows out of the sewage inlet port 411 to the sewage inlet port 1121 and flows into the sewage accommodating groove 1122, and the sewage in the sewage accommodating groove 1122 is pumped and discharged by the sewage pump; the width of the dirt input port 1121 is equal to the width of the communication opening 221, so that the dirt flows out of the dirt input port 1121 through the dirt inlet opening 411.

Preferably, in order to enhance the effect of filtering the sewage, the filtering mechanism 2 further includes an adsorption device 24 for adsorbing the impurities.

Preferably, the adsorption means 24 includes a plurality of magnetic rods 241 adsorbing impurities, a first rotating ring 242 and a second rotating ring; the clean water containing part 31 further comprises a first water baffle 311 at one end of the first containing cavity and a second water baffle at the other end of the first containing cavity; a first rotating groove is formed on the first water baffle 311, a second rotating groove is formed on the second water baffle, a fixing piece 6 is arranged in a third accommodating cavity of each mounting part 41 of the plurality of filtering components 211, and the fixing piece 6 is connected between the inner side wall of the mounting part 41 and the first dirt guide plate 42; the first rotating ring 242 is rotatably connected to the first rotating tank, the second rotating ring is rotatably connected to the second rotating tank, the plurality of magnetic rods 241 are arranged around the rotation axis of the sewage communication pipe 22 at equal intervals, and the magnetic rods 241 penetrate through the first rotating ring 242, the fixing member 6 and the second rotating ring. The plurality of magnetic bars 241 penetrate through the corresponding filtering components 211 and rotate along with the rotation of the filtering components 211, so that when sewage entering the third accommodating cavity is filtered by the first filtering membrane and the second filtering membrane, impurities containing magnetism or iron in the sewage are adsorbed and removed by the magnetic bars 241 in the third accommodating cavity, and the filtering effect is enhanced.

Preferably, the fixing member 6 includes a first fixing tube 61, a second fixing tube 62, a first fixing plate 63, and a second fixing plate 64; the axial directions of the first and second fixing pipes 61 and 62 are arranged in parallel with the axis of the sewage communication pipe 22, the first and second fixing pipes 61 and 62 are positioned between the first and second fixing plates 63 and 64, and the magnetic rod 241 passes through the first and second fixing pipes 61 and 62. When the impurities adsorbed on the magnetic bar 241 reach a certain thickness, the magnetic bar 241 is pulled to move along the axial direction, so that the magnetic bar 241 in the third accommodating cavity rubs against the first fixing pipe 61 and the second fixing pipe 62, the impurities fall off from the magnetic bar 241 and flow out of the sewage inlet 411 to flow into the sewage accommodating cavity 1122.

Preferably, a first shield 25 for shielding one end of the magnetic bar 241 and a second shield for shielding the other end of the magnetic bar 241 are further included; the first protection body 25 is detachably connected with the magnetic bar 241, and the second protection body is detachably connected with the magnetic bar 241. Through the first protection body 25 and the second protection body, the two ends of the magnetic bar 241 exposed outside are protected, the magnetic bar 241 is prevented from being damaged, and the service life of the magnetic bar 241 is prolonged.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (10)

1. An efficient environment-friendly intelligent water filter comprises a purification device for purifying sewage; the method is characterized in that: the purification device comprises a sewage input mechanism for inputting sewage, a filtering mechanism for filtering the sewage and a clear water output mechanism for outputting clear water; the sewage input mechanism is communicated with the filtering mechanism, and the filtering mechanism is communicated with the clear water output mechanism; the clean water output mechanism comprises a clean water accommodating part and a clean water output part; the clear water accommodating part comprises a first accommodating cavity, the sewage input mechanism and the filtering mechanism are arranged in the first accommodating cavity, and the filtering mechanism is rotationally connected in the first accommodating cavity; the clean water output part comprises a second accommodating cavity for accommodating clean water and a clean water output port for outputting clean water, the clean water output part is connected to the outer wall of the clean water accommodating part, and the first accommodating cavity is communicated with the second accommodating cavity;

the filtering mechanism comprises a filtering device and a sewage communicating pipe for inputting sewage into the filtering device; the filtering device comprises a plurality of filtering components for filtering sewage, the filtering components are spirally arranged around the outer circumferential surface of the sewage communicating pipe along the axial direction of the sewage communicating pipe, the sewage communicating pipe is formed with a plurality of communicating ports which are in one-to-one correspondence with the filtering components, the filtering components are provided with sewage inlet openings into which the sewage enters, and the sewage inlet openings are communicated with the communicating ports;

the filter assembly comprises a filter part; the filtering part comprises a mounting part, a first filtering membrane, a second filtering membrane, a first dirt guide plate and a second dirt guide plate; the sewage inlet is formed at the bottom end of the mounting part, a third accommodating cavity is formed in the mounting part, a first circulation port through which clean water passes is formed at one end of the mounting part, and a second circulation port through which clean water passes is formed at the other end of the mounting part; the sewage inlet of the mounting part is communicated with the corresponding communication port, the first dirt guide plate and the second dirt guide plate are arranged in the third accommodating cavity and connected to the top wall inside the mounting part, the first dirt guide plate and the second dirt guide plate are oppositely arranged in an inclined mode and extend towards the direction of the sewage inlet, the first filtering membrane is arranged on the first circulation port, and the second filtering membrane is arranged on the second circulation port;

the filter assembly still includes connecting portion, the bottom laminating of connecting portion is connected in the outer periphery of sewage communicating pipe, connecting portion have fourth holding chamber, fourth holding intracavity is located to the filter house, and the one end of connecting portion forms first connector, and the other end of connecting portion forms the second connector, and the bottom of connecting portion forms the sewage water inlet corresponding with the sewage inlet mouth, the shape of first connector and the shape phase-match of the longitudinal section of installation department, first circulation mouth and first connector are linked together, and second circulation mouth and second connector are linked together, are equipped with on the diagonal of connecting portion one end and carry out spacing first locating part and second locating part to the installation department, first locating part and second locating part all rotate with connecting portion and are connected.

2. An efficient environment-friendly intelligent water filter as claimed in claim 1, wherein: the filtering mechanism further comprises a rotation driving device for driving the sewage communicating pipe to rotate.

3. An efficient environment-friendly intelligent water filter as claimed in claim 2, wherein: the sewage input mechanism comprises a sewage input pipe, the sewage input pipe is sleeved in the sewage communicating pipe, and the inner wall of the sewage communicating pipe is rotationally connected with the outer wall of the sewage input pipe; a plurality of sewage output parts are formed on the sewage input pipe and are arranged at equal intervals along the axial direction of the sewage input pipe.

4. An efficient environment-friendly intelligent water filter as claimed in claim 3, wherein: the sewage output portion comprises a plurality of sewage output ports, the plurality of sewage output ports are formed in the outer circumferential surface of the sewage input pipe at equal intervals, and the sewage output ports are communicated with the communication port.

5. An efficient environment-friendly intelligent water filter as claimed in claim 4, wherein: the upper part of the sewage input pipe is inwards sunken to form a sewage discharge part for accommodating sewage.

6. An efficient environment-friendly intelligent water filter as claimed in claim 5, wherein: the blowdown portion includes filth input port and filth storage tank, the axial extension of filth input tube is followed to the filth input port and sets up, filth input port and sewage inlet port are linked together, filth storage tank and filth input port are linked together.

7. An efficient environment-friendly intelligent water filter as claimed in claim 6, wherein: the filtering mechanism further comprises an adsorption device for adsorbing impurities.

8. An efficient environment-friendly intelligent water filter as claimed in claim 7, wherein: the adsorption device comprises a plurality of magnetic rods for adsorbing impurities, a first rotating ring and a second rotating ring; the clear water accommodating part also comprises a first water baffle plate positioned at one end of the first accommodating cavity and a second water baffle plate positioned at the other end of the first accommodating cavity; a first rotating groove is formed on the first water baffle, a second rotating groove is formed on the second water baffle, a fixing piece is arranged in a third accommodating cavity of each mounting part of the plurality of filtering assemblies, and the fixing piece is connected between the inner side wall of the mounting part and the first dirt guide plate; the first rotating ring is rotatably connected to the first rotating groove, the second rotating ring is rotatably connected to the second rotating groove, the plurality of magnetic rods are arranged around the rotating axis of the sewage communicating pipe at equal intervals, and the magnetic rods penetrate through the first rotating ring, the fixing piece and the second rotating ring.

9. An efficient environment-friendly intelligent water filter as claimed in claim 8, wherein: the fixing piece comprises a first fixing tube, a second fixing tube, a first fixing plate and a second fixing plate; the axial of the fixed pipe of first fixed pipe and second and the axis parallel arrangement of sewage communicating pipe, the fixed pipe of first fixed pipe and second is in between first fixed plate and the second fixed plate, the bar magnet passes the fixed pipe of first fixed pipe and second.

10. An efficient environment-friendly intelligent water filter as claimed in claim 9, wherein: the first protection body is used for protecting one end of the magnetic rod, and the second protection body is used for protecting the other end of the magnetic rod; the first protection body is detachably connected with the magnetic rod, and the second protection body is detachably connected with the magnetic rod.

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