CN115193155B - Tap water treatment mixing distributing well - Google Patents

Abstract

The application relates to a mixing water distribution well is handled to running water relates to pipe network engineering's technical field, including the cavity, the inlet tube, outlet pipe and rotary filter screen, the cavity passes through reinforced concrete construction and forms sealed cavity structure, the cavity includes the mixing chamber, a plurality of processing chamber and apopore, processing chamber one side and mixing chamber intercommunication, opposite side and apopore intercommunication, the inlet tube is provided with a plurality of, can accept different water sources simultaneously, inlet tube one end and water source intercommunication, the other end and mixing chamber's cavity intercommunication, outlet pipe one end and apopore's cavity intercommunication, rotary filter screen sets up to a plurality of, a rotary filter screen runs through the cavity outer wall and stretches into in the processing chamber, rotary filter screen upside is located outside the cavity, the downside sets up in the cavity, rotary filter screen is arranged in impurity in the filter chamber and drags out and vertically carries the cavity with impurity is automatic. This application has the effect of conveniently clearing up the solid impurity of piling up in the distributing well.

Description

Tap water treatment mixing distributing well

Technical Field

The application relates to the technical field of tap water treatment, in particular to a tap water treatment mixing distributing well.

Background

The mixed distributing well is a building structure applied to the field of pipe network engineering such as municipal water supply, and the like, constructors dig underground or pour the underground to form a cavity, water flow is injected into the cavity, so that a plurality of raw water with different water qualities can be uniformly mixed in the cavity, and then the mixed water flow with uniform components is led out, thereby being convenient for distributing water and carrying out dosing, mixing and sedimentation treatment.

The well body uses reinforced concrete to construct and forms the cavity, inlet tube one end and the cavity intercommunication of well body, through with inlet tube and different water source intercommunication, make different rivers can mix in the well body, outlet pipe and the cavity intercommunication of well body, the outlet pipe is arranged in supplying the water outflow in the well body, after the rivers of different sources mix in the well body, rivers can follow the outlet pipe and flow out, thereby make the water composition that flows out in the outlet pipe even, can guarantee that outlet pipe water pressure is more stable when the water pressure is inconsistent in two inlet tubes.

The related technical scheme has the following defects: when water flow enters the well body from the water inlet pipe, solid impurities such as sand, shells and algae are mixed, the sand, the shells and the algae are gradually increased in the well body, the water inlet pipe is required to be closed for cleaning the impurities in the well body, and inconvenience is caused.

Disclosure of Invention

In order to facilitate the cleaning of solid impurities accumulated in a water distribution well, the application provides a tap water treatment mixing water distribution well.

The application provides a tap water treatment mixing water distribution well adopts following technical scheme:

the utility model provides a tap water treatment mixes water distribution well, which comprises a cavity, the inlet tube, outlet pipe and rotary filter screen, the cavity is through reinforced concrete construction formation closed cavity structure, the cavity includes the hybrid chamber, a plurality of processing chamber and play water chamber, processing chamber one side and hybrid chamber intercommunication, the opposite side and play water chamber intercommunication, the inlet tube is provided with a plurality ofly, inlet tube one end and water source intercommunication, the other end and hybrid chamber's cavity intercommunication, outlet pipe one end and play water chamber's cavity intercommunication, rotary filter screen sets up to a plurality ofly, a rotary filter screen runs through the cavity outer wall and stretches into in the processing chamber, rotary filter screen top is located outside the cavity, the downside sets up in the cavity, rotary filter screen is arranged in filtering impurity in the cavity and drags out impurity and vertically carries to outside the cavity.

Through adopting above-mentioned technical scheme, through setting up inlet tube and outlet pipe in the cavity, make different water sources can mix in the cavity and supply water through the outlet pipe, through setting up rotary filter screen on the cavity, make the rotary filter screen can filter the rivers in the cavity, rotary filter screen can drag out impurity such as sand, shell, alga in the rivers outside the cavity through the gyration, the user can reach the effect of clearance accumulation solid impurity in the distributing well through clear up rotary filter screen outside the cavity.

Optionally, be provided with a plurality of flow distribution plates in the mixing chamber, the flow distribution plate includes middle part flow distribution plate and avris flow distribution plate, and the flow distribution plate is along vertical direction interval arrangement, and the middle part flow distribution plate is fixed at the mixing chamber middle part, and the avris flow distribution plate becomes two sets of settings, and a set of flow distribution plate is fixed on the inner wall of one side of mixing chamber, and every inlet tube one side all sets up a set of avris flow distribution plate, and middle part flow distribution plate and avris flow distribution plate are crisscross the setting in vertical direction.

Through adopting above-mentioned technical scheme, through setting up a plurality of flow distribution plates in the mixing chamber, make middle part flow distribution plate and avris flow distribution plate crisscross setting, when rivers get into the mixing chamber from a plurality of inlet tubes, the rivers can mix each other in middle part flow distribution plate below to divide into two and pass through middle part flow distribution plate both sides, thereby increase the degree that the multistrand rivers mix each other, make the rivers homogeneous mixing in the cavity, the composition is stable.

Optionally, the processing chamber includes intake chamber, filter chamber and sedimentation chamber, intake chamber one side and mixing chamber intercommunication, opposite side and filter chamber intercommunication, and rotary filter screen sets up in the filter chamber, and one side that keeps away from the intake chamber on the filter chamber communicates with the sedimentation chamber, and the sedimentation chamber is used for making rivers stand and make solid impurity deposit, sedimentation chamber and play water chamber intercommunication.

Through adopting above-mentioned technical scheme, through setting up the precipitation chamber in the cavity, make filterable water in the filter chamber can flow to the precipitation chamber and deposit of standing, along with the ponding water level in the precipitation chamber rises gradually, can make ponding in the precipitation chamber flow to the play water chamber in, in the in-process that the water was stood and is deposited, can further make the solid impurity in the rivers deposit to the precipitation chamber bottom, reach filterable effect.

Optionally, a blow-down pipe is arranged in the sedimentation cavity, one end of the blow-down pipe is communicated with the bottom of the sedimentation cavity, the other end of the blow-down pipe extends out of the cavity, and the blow-down pipe is used for discharging accumulated water in the sedimentation cavity out of the cavity.

Through adopting above-mentioned technical scheme, through setting up the blow-down pipe in the sedimentation chamber, make the blow-down pipe can discharge the ponding in the sedimentation chamber outside the cavity, when the user closes the inlet tube and opens the blow-down pipe, rivers flow from the sedimentation chamber, and then make the accumulational solid impurity in sedimentation chamber bottom can discharge along with rivers.

Optionally, a plurality of shunt ports have been seted up in the mixing chamber, the mixing chamber passes through shunt ports intercommunication with the processing chamber, be provided with a plurality of flashboards in the mixing chamber, the flashboard includes framework, baffle and screw rod, the framework cover is established outside the shunt ports, baffle sliding connection is in the framework, the baffle is used for shutoff shunt ports, the screw rod runs through the framework and with framework sliding connection, screw rod tip and baffle rotate to be connected.

Through adopting above-mentioned technical scheme, through seting up a plurality of shunt ports in the hybrid chamber, set up the flashboard on every shunt port, the user can pass through the break-make of flashboard control shunt port, and then the different sedimentation chambers of convenience user clearance and rotary filter screen, the user still can work at the in-process other processing chamber of clearance processing chamber, guarantees the feedwater.

Optionally, be provided with the barricade in the sedimentation chamber, the barricade sets up in the sedimentation chamber middle part, and the barricade below forms the passageway that supplies rivers to pass through, and the barricade is used for blocking the rivers that flow into the sedimentation chamber from the filter chamber, makes rivers can pile up in the barricade downside and deposit.

Through adopting above-mentioned technical scheme, through setting up the barricade in the sedimentation chamber, make the barricade set up in sedimentation chamber middle part, when rivers flow from the filter chamber inflow sedimentation chamber, when the rivers velocity of flow is great, rivers have probability blowout to go out in the water cavity, through setting up the barricade, make the rivers that the velocity of flow is great can spray to the barricade on and flow down, and then make rivers accumulation in sedimentation chamber, reach the effect of standing the sediment.

Optionally, the rotary filter screen includes filter plate, power unit and aircraft bonnet, the filter plate is rectangular plate structure, a plurality of filter plates rotate each other and connect and form annular structure, the annular structure downside that the filter plate encloses is located the cavity, the upside is located the cavity outside, the aircraft bonnet sets up on the cavity outer wall and cover on the annular structure that the filter plate encloses, power unit is used for driving filter plate reciprocal rotation, homonymy all is provided with the layer board on every filter plate, the layer board is used for accepting solid impurity, the mechanism of decontaminating includes driving piece and scraper blade, the driving piece is fixed on the aircraft bonnet and stretches into in the aircraft bonnet, the scraper blade uses has elastic material to make, the scraper blade is fixed on the driving piece, the driving piece drives scraper blade reciprocating motion, the scraper blade is used for scraping out the aircraft bonnet with the solid impurity on the layer board.

Through adopting above-mentioned technical scheme, through making a plurality of filter plates rotate each other to be connected, make the filter plate enclose into annular structure, power unit rotates through driving a plurality of filter plates to the solid impurity that makes the filter plate filter out can move outside the cavity along with the filter plate upward, and the user can clear up the layer board in the outer aircraft bonnet department of cavity, and then reaches the effect of clearing up solid impurity in the cavity.

Optionally, a water inlet is formed between the water inlet cavity and the filter cavity, the water inlet is located in an annular structure surrounded by the filter plate, a water outlet is formed between the filter cavity and the sedimentation cavity, two water outlets are formed, and the water outlets are located on two sides of the annular structure surrounded by the filter plate respectively.

Through adopting above-mentioned technical scheme, through seting up the water inlet between inlet chamber and filter chamber, make the water inlet be arranged in the annular structure that the filter plate encloses, make unfiltered rivers be arranged in the annular structure that the filter plate encloses, when the rivers pass through the filter plate, solid impurity separates in the filter plate is inboard to reduce solid impurity and spill in the filter chamber and pile up the probability in the filter chamber bottom, can reduce the work of clearance filter chamber, promote the filter effect.

In summary, the beneficial technical effects of the application are:

1. through setting up inlet tube and outlet pipe in the cavity, make different water sources can mix in the cavity and supply water through the outlet pipe, through setting up the rotary screen on the cavity, make the rotary screen can filter the rivers in the cavity, the rotary screen can drag out the impurity such as sand, shell, alga in the rivers outside the cavity through gyration, the user can reach the effect of clearance solid impurity that piles up in the water distribution well through clear up the rotary screen outside the cavity;

2. through setting up the barricade in the sedimentation chamber, make the barricade set up in sedimentation chamber middle part, when rivers flow from the filter chamber flows into sedimentation chamber, when rivers velocity of flow is great, rivers are with probability blowout to go out in the water cavity, through setting up the barricade, make the rivers that velocity of flow is great can spray to the barricade and flow down, and then make rivers accumulate in sedimentation chamber, reach the effect of standing and sedimentation;

3. through seting up the water inlet between inlet chamber and filter chamber, make the water inlet be arranged in the annular structure that the filter plate encloses, make unfiltered rivers be arranged in the annular structure that the filter plate encloses, when the rivers pass through the filter plate, solid impurity separates in the filter plate is inboard to reduce solid impurity and spill in the filter chamber and pile up the probability in the filter chamber bottom, can reduce the work of clearance filter chamber, promote the filter effect.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of an embodiment of the present application.

Fig. 3 is a second schematic cross-sectional view of an embodiment of the present application.

Fig. 4 is a schematic cross-sectional view of a third embodiment of the present application.

Fig. 5 is a schematic structural view of a shutter according to an embodiment of the present application.

Fig. 6 is a schematic view of a rotary screen according to an embodiment of the present application.

Fig. 7 is a schematic view of the mounting structure of the cleaning mechanism of the embodiment of the present application.

Reference numerals: 1. a chamber; 11. a mixing chamber; 111. a diverter plate; 112. a shunt port; 12. a water inlet cavity; 13. a filter chamber; 131. a water inlet; 132. a water outlet; 14. a sedimentation chamber; 141. a retaining wall; 142. blow-down pipe; 15. a water outlet cavity; 151. a closing flow port; 2. a water inlet pipe; 3. a water outlet pipe; 4. a flashboard; 41. a frame; 42. a baffle plate; 43. a screw; 5. rotating the filter screen; 51. a filter plate; 511. a supporting plate; 52. a power mechanism; 53. a hood; 531. a sewage outlet; 6. a cleaning mechanism; 61. a driving member; 62. a scraper.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses a tap water treatment mixing water distribution well. Referring to fig. 1 and 2, the building structure comprises a chamber 1, two water inlet pipes 2 and a water outlet pipe 3, wherein the chamber 1 is constructed by reinforced concrete to form a building structure with a closed cavity, the water inlet pipes 2 are respectively communicated with the inner space of the chamber 1, and one end of the water outlet pipe 3 is communicated with the inner space of the chamber 1. The user is through leading into the cavity 1 with the rivers of different sources respectively through inlet tube 2 in, makes the rivers of different sources can mix in cavity 1 and flow from outlet pipe 3, and the rivers composition that flow from outlet pipe 3 is even, and the water pressure is stable, makes things convenient for the user to carry out drainage and feedwater.

Referring to fig. 2 and 3, the chamber 1 includes a mixing chamber 11, a plurality of treatment chambers and a water outlet chamber 15, the water inlet pipe 2 is communicated with the mixing chamber 11, two water inlet pipes 2 are respectively arranged on two opposite side walls of the mixing chamber 11, and the diameters and the length directions of the two water inlet pipes 2 are coincident. The mixing chamber 11 is used for mixing the water flowing in from the two inlet pipes 2. The mixing chamber 11 is provided with a plurality of shunt ports 112, one shunt port 112 is communicated with one treatment chamber, and the mixed water flows into the treatment chamber for filtering treatment. The water outlet cavity 15 is provided with a plurality of merging ports 151, one merging port 151 is communicated with one treatment cavity, and water passing through the treatment cavity flows into the water outlet cavity 15 from the merging port 151. The water outlet cavity 15 is communicated with the water outlet pipe 3, the water outlet cavity 15 is used for mixing filtered water, when the filtering effects of the plurality of treatment cavities are different, the water treated by the different treatment cavities is mixed in the water outlet cavity 15, so that the water components flowing out of the water outlet pipe 3 are uniform, and the water quality is ensured.

Referring to fig. 4, a plurality of flow dividing plates 111 are horizontally arranged in the mixing chamber 11, the flow dividing plates 111 comprise a middle flow dividing plate and side flow dividing plates, the flow dividing plates 111 are arranged at intervals along the vertical direction, the middle flow dividing plates are fixed at the middle part of the mixing chamber 11, the side flow dividing plates 111 are arranged in two groups, one group of flow dividing plates 111 are fixed on one side inner wall of the mixing chamber 11, one side of each water inlet pipe 2 is provided with one group of side flow dividing plates, and the middle flow dividing plates and the side flow dividing plates are sequentially staggered in the vertical direction. The dividing plate 111 is provided on the upper side of the water inlet pipe 2. When two water flows are arranged in the two water inlet pipes 2, the two water flows are opposite to each other and are mixed in the mixing cavity 11, the water flow level in the mixing cavity 11 needs to flow in the channel separated by the dividing plate 111 in the rising process, the water flows flow out of two sides of the middle dividing plate when passing through the middle dividing plate, and when the two water flows flow from two sides of the middle dividing plate, the two water flows are further mixed with each other, so that the water flows entering from the water inlet pipes 2 can be uniformly mixed.

Referring to fig. 5, a plurality of shutters 4 are provided in the chamber 1, one shutter 4 is used for blocking one of the split openings 112, the shutter 4 includes a frame 41, a barrier 42 and a screw 43, the frame 41 is of a rectangular frame structure, the frame 41 is covered on the split opening 112, and the frame 41 is fixed in the mixing chamber 11. The upper side of the frame 41 penetrates the outer wall of the chamber 1 and protrudes outside the chamber 1. The baffle plate 42 is slidably connected to the frame 41, and the direction in which the baffle plate 42 slides in the frame 41 is vertical, so that the baffle plate 42 can slide to block the shunt port 112. The screw 43 penetrates the frame 41 and is in threaded connection with the frame 41, the length direction of the screw 43 is parallel to the sliding direction of the baffle plate 42, the upper end of the screw 43 extends out of the chamber 1, and the lower end of the screw 43 is in rotary connection with the baffle plate 42. By rotating the screw 43, the user can reciprocate the screw 43 on the frame 41, thereby achieving the effect of controlling the reciprocating movement of the barrier plate 42.

Referring to fig. 2 and 3, the treatment chamber includes a water inlet chamber 12, a filter chamber 13 and a settling chamber 14, the mixing chamber 11 is communicated with the water inlet chamber 12 through a shunt port 112, the water inlet chamber 12 is communicated with the filter chamber 13, the filter chamber 13 is communicated with the settling chamber 14, and the settling chamber 14 is communicated with the water outlet chamber 15 through a combining port 151. A water inlet 131 is formed in one side, close to the filter cavity 13, of the water inlet cavity 12, and water flow in the water inlet cavity 12 can gradually lift the liquid level and flow into the filter cavity 13 from the water inlet 131. A water outlet 132 is formed in one side, far away from the water inlet cavity 12, of the filter cavity 13, the water outlet 132 is communicated with the sedimentation cavity 14, a rotary filter screen 5 is arranged in the filter cavity 13, the rotary filter screen 5 filters water flow, the filtered water flows into the sedimentation cavity 14, and finally the water is discharged through the water outlet cavity 15.

Referring to fig. 6 and 7, the rotary screen 5 includes a plurality of filter plates 51, a power mechanism 52 and a hood 53, the hood 53 is fixed at the top outside the chamber 1, an opening is formed at the top of the chamber 1, the filter plates 51 are rotatably connected with each other to form a chain-shaped annular structure, the annular structure formed by the filter plates 51 rotatably connected with each other is disposed in the filter chamber 13 through the opening, and the annular structure surrounded by the filter plates 51 is located in the hood 53. The power mechanism 52 can be a motor, the power mechanism 52 is fixed on the hood 53, the hood 53 is rotationally connected with a rotating shaft, an annular structure surrounded by the filter plates 51 is hung on the rotating shaft, the power mechanism 52 drives the rotating shaft to rotate, and the power mechanism 52 is used for driving the annular structure surrounded by the filter plates 51 to rotate. The annular structure enclosed by the filter plate 51 is covered outside the water inlet 131, two water outlets 132 are arranged, and the two water outlets 132 are positioned outside the filter plate 51. When water flows from the water inlet cavity 12 into the filter cavity 13, the water flows in the middle of the filter plate 51, flows out through the filter plate 51 and flows into the sedimentation cavity 14 from the water outlet 132, and solid impurities in the water flow accumulate inside the annular structure surrounded by the filter plate 51.

Referring to fig. 2 and 3, a retaining wall 141 is disposed in the settling chamber 14, the retaining wall 141 is vertically disposed, the retaining wall 141 is located between the water outlet 132 and the confluence port 151, a space for water to pass through is formed at the lower side of the retaining wall 141, and when the filtered water flow enters the settling chamber 14, the water stands in the settling chamber 14, so that impurities in the water are further settled. The closing port 151 is opened at the upper side of the sedimentation chamber 14, and after the liquid level in the sedimentation chamber 14 is raised, the water in the sedimentation chamber 14 can gradually flow out into the water outlet chamber 15, so that the impurities in the water can be accumulated at the lower bottom of the sedimentation chamber 14. The sedimentation chamber 14 is provided with a blow-down pipe 142, the blow-down pipe 142 is horizontally arranged at the bottom of the sedimentation chamber 14, one end of the blow-down pipe 142 is communicated with the sedimentation chamber 14, and the other end of the blow-down pipe 142 penetrates through the bottom plate of the chamber 1 and extends out of the chamber 1. The end of the blow-down pipe 142 outside the chamber 1 is provided with a water valve, and when a user closes the shutter 4 and opens the water valve, water accumulated in the sedimentation chamber 14 can be discharged, so that impurities at the bottom of the sedimentation chamber 14 can flow out along with the water.

Referring to fig. 6 and 7, a cleaning mechanism 6 is provided on the hood 53, and the cleaning mechanism 6 is used to clean out impurities located in an annular structure surrounded by the filter plates 51. The support plate 511 is fixedly connected to the filter plate 51, the support plate 511 is located on the inner side of the filter plate 51, and when the filter plate 51 rotates to a vertical state through the power mechanism 52, the support plate 511 can receive impurities on the inner side of the filter plate 51, and the filter plate 51 can be further moved upwards to enable the support plate 511 to drag out the impurities. The hood 53 is provided with a drain outlet 531, the drain outlet 531 is arranged on the side wall of the hood 53, and the drain outlet 531 is positioned on the inner side of the annular structure surrounded by the filter plates 51. The cleaning mechanism 6 includes a driving member 61 and a scraper 62, the driving member 61 may be an electric push rod, and the driving member 61 is mounted on the outer side wall of the hood 53. The longitudinal direction of the driver 61 is parallel to the filter sheet 51. The driving member 61 is inserted into the hood 53 through the drain 531. One end of the driving member 61 located outside the hood 53 is fixedly connected to the hood 53, and the other end is connected to a scraper 62, and the scraper 62 is located inside the hood 53 and on the side of the filter plate 51 on which the blade 511 is mounted. The driving member 61 can scrape the foreign substances on the pallet 511 out of the hood 53 by periodically reciprocating. The scraper 62 is made of a material having elasticity, and when the filter sheet 51 is moved by the power mechanism 52, the scraper 62 can abut against the pallet 511 and deform, so that the scraper 62 can scrape off foreign substances on the moved pallet 511.

The implementation principle of the embodiment of the application is as follows: through offer mixing chamber 11, processing chamber and play water chamber 15 in cavity 1, make two rivers that get into cavity 1 from two inlet tubes 2 can intensive mixing in mixing chamber 11, through set up rotary screen 5 in filter chamber 13, make rivers pass through rotary screen 5 and discharge, reach the effect of filtering solid impurity in the rivers, make the rivers after the uniform mixing can follow outlet pipe 3 with stable water pressure and flow.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (5)

1. A tap water treatment mixing water distribution well is characterized in that: the device comprises a chamber (1), a water inlet pipe (2), a water outlet pipe (3) and a rotary filter screen (5), wherein the chamber (1) forms a closed cavity structure through reinforced concrete construction, the chamber (1) comprises a mixing cavity (11), a plurality of processing cavities and a water outlet cavity (15), one side of the processing cavity is communicated with the mixing cavity (11), the other side of the processing cavity is communicated with the water outlet cavity (15), the water inlet pipe (2) is provided with a plurality of water inlets, one end of the water inlet pipe (2) is communicated with a water source, the other end of the water inlet pipe is communicated with the cavity of the mixing cavity (11), one end of the water outlet pipe (3) is communicated with the cavity of the water outlet cavity (15), the rotary filter screen (5) is arranged in a plurality, one rotary filter screen (5) penetrates through the outer wall of the chamber (1) and stretches into the processing cavity, the upper side of the rotary filter screen (5) is positioned outside the chamber (1), the lower side of the rotary filter screen (5) is arranged in the chamber (1), impurities in the chamber (1) are fished out and vertically conveyed outside the chamber (1), a plurality of flow dividing plates (111) are arranged in the mixing cavity (11), the flow dividing plates (111) comprise partial flow dividing plates and side dividing plates (111) which are arranged in the flow dividing plates and side dividing plates (111) are arranged along the vertical direction of the mixing cavity (11) and are fixedly arranged on one side of the mixing plates (11), each water inlet pipe (2) is provided with a group of side flow dividing plates on one side, the middle flow dividing plates and the side flow dividing plates are arranged in a staggered manner in the vertical direction, the treatment cavity comprises a water inlet cavity (12), a filter cavity (13) and a sedimentation cavity (14), one side of the water inlet cavity (12) is communicated with the mixing cavity (11), the other side of the water inlet cavity is communicated with the filter cavity (13), a rotary filter screen (5) is arranged in the filter cavity (13), one side, far away from the water inlet cavity (12), of the filter cavity (13) is communicated with the sedimentation cavity (14), the sedimentation cavity (14) is used for enabling water to stand and enabling solid impurities to be settled, the sedimentation cavity (14) is communicated with a water outlet cavity (15), the rotary filter screen (5) comprises a filter plate (51), a power mechanism (52) and a hood (53), the filter plate (51) is of a rectangular plate structure, a plurality of filter plates (51) are mutually connected in a rotating manner to form an annular structure, the lower side of the annular structure surrounded by the filter plate (51) is positioned in the cavity (1), the upper side of the annular structure is positioned outside the cavity (1), the filter plate (53) is arranged on the outer wall of the filter plate (1) and covers the filter plate (51) on the outer wall of the annular structure, the filter plate (51) and is used for driving the filter plate (511) to rotate together with the filter plate (511), the cleaning mechanism (6) comprises a driving piece (61) and a scraping plate (62), wherein the driving piece (61) is fixed on the hood (53) and stretches into the hood (53), the scraping plate (62) is made of elastic materials, the scraping plate (62) is fixed on the driving piece (61), the driving piece (61) drives the scraping plate (62) to reciprocate, and the scraping plate (62) is used for scraping solid impurities on the supporting plate (511) out of the hood (53).

2. A tap water treatment mixing well as defined in claim 1 wherein: the sedimentation cavity (14) is internally provided with a blow-down pipe (142), one end of the blow-down pipe (142) is communicated with the bottom of the sedimentation cavity (14), the other end of the blow-down pipe extends out of the cavity (1), and the blow-down pipe (142) is used for discharging accumulated water in the sedimentation cavity (14) out of the cavity (1).

3. A tap water treatment mixing well as defined in claim 1 wherein: a plurality of shunt ports (112) are formed in the mixing cavity (11), the mixing cavity (11) is communicated with the processing cavity through the shunt ports (112), a plurality of flashboards (4) are arranged in the mixing cavity (11), each flashboard (4) comprises a frame body (41), a baffle plate (42) and a screw rod (43), the frame body (41) is covered outside the shunt ports (112), the baffle plate (42) is slidably connected in the frame body (41), the baffle plate (42) is used for sealing the shunt ports (112), the screw rods (43) penetrate through the frame body (41) and are slidably connected with the frame body (41), and the end parts of the screw rods (43) are rotatably connected with the baffle plate (42).

4. A tap water treatment mixing well as defined in claim 1 wherein: the sedimentation cavity (14) is internally provided with a retaining wall (141), the retaining wall (141) is arranged in the middle of the sedimentation cavity (14), a channel for water to pass through is formed below the retaining wall (141), and the retaining wall (141) is used for retaining water flowing into the sedimentation cavity (14) from the filter cavity (13), so that the water can be accumulated on the lower side of the retaining wall (141) and sediment.

5. A tap water treatment mixing well as defined in claim 1 wherein: a water inlet (131) is formed between the water inlet cavity (12) and the filter cavity (13), the water inlet (131) is located in an annular structure surrounded by the filter plates (51), a water outlet (132) is formed between the filter cavity (13) and the sedimentation cavity (14), two water outlets (132) are formed, and the water outlets (132) are respectively located at two sides of the annular structure surrounded by the filter plates (51).