CN118978280A - A MABR process denitrification treatment equipment that is easy to desilt - Google Patents

Abstract

The invention discloses MABR (metal-activated carbon reactor) process denitrification treatment equipment convenient for dredging, which relates to the technical field of wastewater treatment and comprises a base and a disinfection chamber, wherein a treatment box is arranged at the top of the base, an adjusting chamber is arranged in the treatment box, a treatment assembly is arranged in the adjusting chamber, a discharging assembly is arranged below the treatment assembly, the right side of the adjusting chamber is provided with the treatment chamber, a filtering assembly is arranged in the treatment chamber, and the discharging assembly comprises a servo motor, a gear set, a rotating shaft, a functional plate, a heat conducting plate and a heating wire. The invention adopts the mutual matching arrangement of the components, not only can integrate a plurality of devices for wastewater treatment into a whole to greatly reduce the occupied area of the devices, but also can discharge sludge in a filter pressing way different from the traditional dredging measure, greatly reduce the blocking condition of the devices during dredging, and can reduce harmful substances in the wastewater by utilizing the filtration, and utilize the disinfection tank to carry out denitrification treatment on the wastewater.

Description

MABR technology denitrification treatment facility convenient to desilting

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to MABR (mechanical automatic mechanical brake) process denitrification treatment equipment convenient for dredging.

Background

With the development of economy, the living standard is continuously improved, daily water consumption and sewage drainage are also obviously increased, meanwhile, the utilization industry of seawater is greatly developed, sewage is generated under the development of the seawater utilization business, the sewage collection difficulty is high, the sewage treatment is difficult, the sewage is randomly discharged to the water resource environment to bring serious test, and meanwhile, the marine environment is also deteriorated, so that the denitrification treatment equipment is required to treat the seawater utilized sewage, and the environment is protected.

The existing MABR process denitrification treatment equipment is difficult to clean the sludge, so that the treatment cost is increased, the working intensity of workers is improved, and the condition of blocking a pipeline can be caused when the sludge is discharged, so that the sludge discharge efficiency is affected.

Accordingly, in view of the above, research and improvement are made on the existing structure and the existing defects, and an MABR process denitrification treatment device convenient for dredging is provided, so as to achieve the purpose of more practical value.

Disclosure of Invention

The invention aims to provide MABR process denitrification treatment equipment convenient for dredging so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a MABR technology denitrification treatment facility convenient to desilting, includes base and disinfection room, the processing box is installed at the base top, just processing box inside is provided with the regulating chamber, regulating chamber internally mounted has the processing module, just the processing module below is provided with the discharge subassembly, the regulating chamber right side is provided with the processing chamber, just the processing chamber inside is provided with filter equipment, the disinfection room install in the processing chamber right side, the discharge subassembly includes servo motor, gear train, pivot, function board, heat-conducting plate and heater strip, just the servo motor output is connected with the gear train, the gear train middle part wears to be equipped with the pivot, just the pivot surface is provided with the function board, the embedding of function board upper surface has the heat-conducting plate, just the heat-conducting plate bottom is provided with the heater strip.

Further, the processing assembly comprises a hydraulic telescopic rod, a waste collecting frame, a water inlet and a conical piece, the output end of the hydraulic telescopic rod is connected with the waste collecting frame, the upper surface of the waste collecting frame is provided with the collecting frame, the upper surface of the collecting frame is provided with the water inlet, and the inner clamping of the water inlet is connected with the conical piece.

Further, the treatment assembly further comprises a filter pressing plate, and the filter pressing plate is connected to the bottom of the waste cleaning frame.

Further, a driving component is arranged between the adjusting chamber and the processing chamber, and comprises a water inlet pipe, a first circulating pump, a water outlet pipe, a filtering piece and activated carbon fibers, wherein the outer end of the water inlet pipe is connected with the first circulating pump, the output end of the first circulating pump is connected with the water outlet pipe, the filtering piece is connected to the water inlet pipe at one end far away from the first circulating pump, and the activated carbon fibers are arranged inside the filtering piece.

Further, the filter component comprises a filter frame, an adsorption sleeve, a cleaning frame and a miniature telescopic rod, wherein the filter frame is internally provided with the adsorption frame, the adsorption sleeve is sleeved on the outer surface of the adsorption frame, the cleaning frame is arranged on the outer surface of the adsorption sleeve, and the miniature telescopic rods are arranged on two sides of the cleaning frame.

Further, the filter component further comprises cleaning pieces and carding teeth, the cleaning pieces are distributed on the surface of the cleaning frame in a circular array shape, and the carding teeth are arranged on the inner wall of the cleaning pieces.

Further, the discharging assembly further comprises an electric telescopic rod and a clamping block, the electric telescopic rod is installed inside the functional board, and the output end of the electric telescopic rod is connected with the clamping block.

Further, a second circulating pump is arranged on the right side of the top of the treatment chamber, and the treatment chamber is communicated with the disinfection chamber through the second circulating pump.

Further, the denitrification component is arranged in the disinfection chamber and comprises a stirring motor, a stirring shaft and a stirring paddle, the output end of the stirring motor is connected with the stirring shaft, and the bottom of the stirring shaft is connected with the stirring paddle.

Furthermore, the functional board is mutually attached to the bottom of the adjusting chamber, and the front side and the back side of the functional board are both in convex structures.

The invention provides MABR process denitrification treatment equipment convenient for dredging, which has the following beneficial effects: according to the MABR (metal-organic-inorganic composite) process denitrification treatment equipment convenient for dredging, the plurality of components are matched, so that the occupied area of the equipment is greatly reduced, the equipment can be different from the traditional dredging measure, the sludge is discharged in a filter pressing manner, the blocking condition of the equipment during dredging is greatly reduced, harmful substances in the wastewater can be reduced by utilizing filtering, and the wastewater is denitrified by utilizing a disinfection tank;

1. The invention is arranged by the mutual matching between the processing component and the regulating chamber; the clear useless frame in the processing component installs in the inside of regulating chamber, utilizes the hydraulic telescoping rod can drive clear useless frame and stretches out and draws back from top to bottom in the inside of regulating chamber to when clear useless frame gets into regulating chamber inside, because the tension of water, make the waste water bring the water inlet at the top of holding the frame to get into holding the frame with the dirty water that floats of surface, and utilize the setting of cone, make the dirty water can not leak along with waste water gets into in holding the frame, realize the purpose of getting rid of waste water surface of water floater.

2. According to the invention, through the mutual matching arrangement between the discharging assembly and the processing assembly, the discharging assembly and the processing assembly are both arranged in the regulating chamber, the waste cleaning frame can be driven to be pressed down in the regulating chamber by utilizing the hydraulic telescopic rod, so that the sludge in the regulating chamber is flattened and attached in the heat conducting plate on the upper surface of the functional plate, and the heat conducting plate is heated by utilizing the heating wire to remove the moisture in the sludge, so that the purpose of rapid shaping of the sludge is achieved.

3. According to the invention, the clamping block is driven to shrink by the electric telescopic rod, so that the functional board is separated from the regulating chamber, the gear set and the rotating shaft synchronously rotate under the drive of the servo motor, and then the functional board is turned over, the front and back surfaces of the functional board are of the same structural design, the formed silt can be discharged by the functional board, the bottom of the regulating chamber is blocked by the other surface of the functional board, the purpose of continuous operation is achieved, and the dredging process of equipment is facilitated.

4. According to the invention, the regulating chamber is connected with the treatment chamber through the driving assembly, the wastewater precipitated in the regulating chamber is pumped into the treatment chamber by the first circulating pump, and the outer end of the water inlet pipe of the driving assembly is connected with the filtering piece, so that the wastewater in the regulating chamber can be pumped into the treatment chamber after being filtered, and the wastewater treatment effect is improved.

5. According to the invention, by means of the arrangement of the filtering component, in the process of sucking the wastewater into the treatment chamber, the wastewater is contacted with the adsorption frame in the filtering frame, the adsorption sleeve is arranged in the adsorption frame and is made of adsorption materials such as activated carbon, non-woven fabrics and the like, the wastewater is filtered again by the adsorption sleeve, the cleaning frame can be pushed to move in the filtering frame under the driving of the miniature telescopic rod, and the cleaning piece and the carding teeth in the cleaning frame are attached to the outer surface of the adsorption sleeve in the moving process of the filtering frame, so that the adsorbed dirt is cleaned and accommodated in the cleaning piece.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an MABR process denitrification treatment apparatus for facilitating dredging according to the present invention;

FIG. 2 is a schematic top view of a waste removal rack of an MABR process denitrification treatment facility for facilitating dredging according to the present invention;

FIG. 3 is a schematic diagram of a discharge assembly of an MABR process denitrification treatment apparatus for facilitating dredging according to the present invention;

FIG. 4 is a schematic diagram showing a three-dimensional structure of a block of a denitrification treatment apparatus for an MABR process for facilitating dredging according to the present invention;

FIG. 5 is a schematic diagram of a filter assembly of an MABR process denitrification treatment apparatus for facilitating dredging according to the present invention;

FIG. 6 is a schematic top view of a cleaning rack of an MABR process denitrification treatment apparatus for facilitating dredging according to the present invention;

FIG. 7 is a schematic perspective view of a cleaning member of an MABR process denitrification treatment apparatus for facilitating dredging according to the present invention;

FIG. 8 is a schematic diagram of a driving assembly of an apparatus for denitrification treatment in an MABR process for facilitating dredging according to the present invention.

In the figure: 1. a base; 2. a treatment box; 3. a conditioning chamber; 4. a processing assembly; 401. a hydraulic telescopic rod; 402. a waste removing frame; 403. a storage rack; 404. a water inlet; 405. a conical member; 406. a filter pressing plate; 5. a discharge assembly; 501. a servo motor; 502. a gear set; 503. a rotating shaft; 504. a function board; 505. a heat conductive plate; 506. a heating wire; 507. an electric telescopic rod; 508. a clamping block; 6. a filter assembly; 601. a filter frame; 602. an adsorption frame; 603. an adsorption sleeve; 604. a cleaning frame; 605. a miniature telescopic rod; 606. a cleaning member; 607. carding teeth; 7. a sterilization chamber; 8. a drive assembly; 801. a water inlet pipe; 802. a first circulation pump; 803. a water outlet pipe; 804. a filter; 805. activated carbon fiber; 9. a processing chamber; 10. a second circulation pump; 11. a denitrification assembly; 1101. a stirring motor; 1102. a stirring shaft; 1103. stirring paddles.

Detailed Description

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a MABR technology denitrification treatment facility convenient to desilting, including base 1 and disinfection room 7, base 1 installs processing box 2 in the top, and processing box 2 inside is provided with regulating chamber 3, regulating chamber 3 internally mounted has processing subassembly 4, and processing subassembly 4 below is provided with discharge subassembly 5, regulating chamber 3 right side is provided with processing chamber 9, and processing chamber 9 inside is provided with filter unit 6, disinfection room 7 installs in processing chamber 9 right side, discharge subassembly 5 includes servo motor 501, gear train 502, pivot 503, function board 504, heat-conducting plate 505 and heater strip 506, and servo motor 501 output is connected with gear train 502, the pivot 503 has been worn in the middle part of gear train 502, and pivot 503 surface is provided with function board 504, function board 504 upper surface embeds heat-conducting plate 505, and the heat-conducting plate 505 bottom is provided with heater strip 506, processing chamber 9 top right side is installed second circulating pump 10, and processing chamber 9 is linked together with disinfection room 7 through second circulating pump 10, denitrification subassembly 11 is installed to the inside of processing chamber 7, denitrification subassembly 11 includes agitator motor 1101, agitator shaft 1102 and agitator shaft 1102, agitator shaft 1102 is connected with agitator shaft 1102 bottom 1101 and agitator shaft 1102 is connected with agitator shaft 1102 bottom 1102;

the specific operation is as follows, through the setting of denitrification component 11, this subassembly sets up in the last stage of treatment box, adds the denitrification medicament in disinfection room 7 inside after carrying out the layer upon layer to waste water and drives (mixing) shaft 1102 and stirring rake 1103 and fully mixes denitrification medicament and waste water at agitator motor 1101 to realize the denitrification treatment of waste water.

Referring to fig. 1-2, the processing component 4 includes a hydraulic expansion link 401, a waste removing frame 402, a storage frame 403, a water inlet 404 and a conical member 405, wherein the output end of the hydraulic expansion link 401 is connected with the waste removing frame 402, the storage frame 403 is arranged on the upper surface of the waste removing frame 402, the water inlet 404 is arranged on the upper surface of the storage frame 403, the conical member 405 is clamped and connected in the water inlet 404, the processing component 4 further includes a filter pressing plate 406, and the filter pressing plate 406 is connected to the bottom of the waste removing frame 402;

The specific operation is as follows, through the mutual cooperation between the processing assembly 4 and the regulating chamber 3; the clear useless frame 402 in the processing component 4 is installed in the inside of regulating chamber 3, utilize hydraulic telescoping rod 401 can drive clear useless frame 402 and stretch out and draw back from top to bottom in regulating chamber 3's inside to when clear useless frame 402 gets into regulating chamber 3 inside, because the tension of water for the dirty entering of float of waste water bringing the surface is accomodate in frame 403 from the water inlet 404 at frame 403 top, and utilize the setting of cone 405, make dirty can not spill along with waste water entering accomodate in the frame 403, realize the purpose to waste water surface floater removal.

Referring to fig. 1-5, the discharging assembly 5 includes a servo motor 501, a gear set 502, a rotating shaft 503, a functional plate 504, a heat conducting plate 505 and a heating wire 506, wherein the output end of the servo motor 501 is connected with the gear set 502, the middle part of the gear set 502 is provided with the rotating shaft 503 in a penetrating way, the outer surface of the rotating shaft 503 is provided with the functional plate 504, the upper surface of the functional plate 504 is embedded with the heat conducting plate 505, the bottom of the heat conducting plate 505 is provided with the heating wire 506, the discharging assembly 5 further includes an electric telescopic rod 507 and a clamping block 508, the electric telescopic rod 507 is installed inside the functional plate 504, the output end of the electric telescopic rod 507 is connected with the clamping block 508, the functional plate 504 is mutually attached to the bottom of the regulating chamber 3, and the front and back surfaces of the functional plate 504 are in a convex structure;

The device specifically comprises a discharging assembly 5 and a processing assembly 4, wherein the discharging assembly 5 and the processing assembly 4 are mutually matched, the discharging assembly 5 and the processing assembly 4 are both arranged in a regulating chamber 3, a waste cleaning frame 402 can be driven to be pressed down in the regulating chamber 3 by utilizing a hydraulic telescopic rod 401, sludge in the regulating chamber 3 is flattened and attached to a heat conducting plate 505 on the upper surface of a functional plate 504, the heat conducting plate 505 is heated by utilizing a heating wire 506 to remove moisture in the sludge, the sludge achieves the purpose of quick shaping, a clamping block 508 is driven to shrink by an electric telescopic rod 507, the functional plate 504 is separated from the regulating chamber 3, and the gear set 502 and a rotating shaft 503 are synchronously rotated under the driving of a servo motor 501, so that the functional plate 504 is overturned, the front side and the back sides of the functional plate 504 are of the same structural design, the formed sludge can be discharged by the functional plate 504, the bottom of the regulating chamber 3 is blocked by the other side of the functional plate 504, the purpose of continuous operation is achieved, and the dredging process of the device is facilitated;

Referring to fig. 1, 5, 6 and 7, the filter assembly 6 includes a filter frame 601, an adsorption frame 602, an adsorption sleeve 603, a cleaning frame 604 and a micro telescopic rod 605, wherein the adsorption frame 602 is installed inside the filter frame 601, the adsorption sleeve 603 is sleeved on the outer surface of the adsorption frame 602, the cleaning frame 604 is arranged on the outer surface of the adsorption sleeve 603, the micro telescopic rods 605 are arranged on two sides of the cleaning frame 604, the filter assembly 6 further includes cleaning pieces 606 and carding teeth 607, the cleaning pieces 606 are distributed on the surface of the cleaning frame 604 in a circular array shape, and the carding teeth 607 are arranged on the inner wall of the cleaning pieces 606;

The specific operation is as follows, utilize filter unit 6's setting, in the in-process of waste water suction treatment room 9, waste water and the inside adsorption frame 602 contact of filter frame 601, and the inside of adsorption frame 602 is provided with adsorption sleeve 603, this adsorption sleeve 603 comprises absorbent such as active carbon, non-woven fabrics fibre, utilize adsorption sleeve 603 to filter waste water again, and can promote the cleaning frame 604 and remove in filter frame 601 inside under the drive of miniature telescopic link 605, and in the inside cleaning member 606 of filter frame 601 removal in-process cleaning frame 604 and carding tooth 607 laminating removal at the surface of adsorption sleeve 603, thereby clean the inside of accomodating of cleaning member 606 with the dirty clear of absorptive.

Referring to fig. 1 and 8, a driving component 8 is disposed between a conditioning chamber 3 and a processing chamber 9, the driving component 8 includes a water inlet pipe 801, a first circulation pump 802, a water outlet pipe 803, a filter 804 and activated carbon fibers 805, the outer end of the water inlet pipe 801 is connected with the first circulation pump 802, the output end of the first circulation pump 802 is connected with the water outlet pipe 803, the filter 804 is connected to one end of the water inlet pipe 801 far away from the first circulation pump 802, and the activated carbon fibers 805 are disposed inside the filter 804;

The device specifically comprises a driving component 8, a regulating chamber 3 and a treatment chamber 9, wherein the first circulating pump 802 is used for pumping the wastewater precipitated in the regulating chamber 3 into the treatment chamber 9, and a filtering piece 804 is connected to the outer end of a water inlet pipe 801 of the driving component 8, so that the wastewater in the regulating chamber 3 can be pumped into the treatment chamber 9 after being filtered, and the wastewater treatment effect is improved.

In summary, when the MABR process denitrification treatment device convenient for dredging is used, firstly, wastewater is introduced into the regulating chamber 3 in the treatment box 2 from the water inlet end, the waste cleaning frame 402 can be driven to extend up and down in the regulating chamber 3 by the hydraulic telescopic rod 401, when the waste cleaning frame 402 enters the regulating chamber 3, floating dirt on the surface of the wastewater enters the containing frame 403 from the water inlet 404 at the top of the containing frame 403 due to the tension of water, the dirt can not leak out along with the wastewater entering the containing frame 403 by the conical member 405, the purpose of removing the floating matters on the wastewater surface is realized, then the wastewater precipitated in the regulating chamber 3 is pumped into the treatment chamber 9 by the first circulating pump 802 by opening the first circulating pump 802, the outer end of the water inlet 801 of the driving assembly 8 is connected with the filtering member 804, the wastewater in the regulating chamber 3 can be filtered and pumped into the treatment chamber 9, after the waste water in the regulating chamber 3 is pumped out, the hydraulic telescopic rod 401 is opened, the waste removal frame 402 can be driven to press down in the regulating chamber 3 by utilizing the hydraulic telescopic rod 401, further, the sludge in the regulating chamber 3 is flattened and attached to the heat conducting plate 505 on the upper surface of the functional plate 504, the heat conducting plate 505 is heated by utilizing the heating wire 506 to remove the moisture in the sludge, the purpose of rapid shaping of the sludge is achieved, the clamping block 508 is driven to shrink by utilizing the electric telescopic rod 507, the functional plate 504 is separated from the regulating chamber 3, the gear set 502 and the rotating shaft 503 are synchronously rotated under the driving of the servo motor 501, the functional plate 504 is turned over, the front and back sides of the functional plate 504 have the same structural design, the functional plate 504 can discharge the shaped sludge, the other side of the functional plate 504 blocks the bottom of the regulating chamber 3, the purpose of continuous operation is achieved, the waste water in the treatment chamber 9 is arranged by utilizing the filter assembly 6, the waste water is in contact with the adsorption frame 602 in the filter frame 601 in the process of being pumped into the treatment chamber 9, the adsorption frame 602 is internally provided with the adsorption sleeve 603, the adsorption sleeve 603 is made of adsorption materials such as activated carbon, non-woven fabrics and the like, the waste water is filtered again by utilizing the adsorption sleeve 603, the cleaning frame 604 can be pushed to move in the filter frame 601 under the driving of the micro telescopic rod 605, and the cleaning piece 606 and the carding teeth 607 in the cleaning frame 604 are attached to the outer surface of the adsorption sleeve 603 in the moving process of the filter frame 601, so that the adsorbed dirt is cleaned and contained in the cleaning piece 606, finally, the second circulating pump 10 is started, the waste water in the treatment chamber 9 is pumped into the disinfection chamber 7 by utilizing the second circulating pump 10, and after the waste water is treated layer by layer, the denitrification agent is added in the disinfection chamber 7, and the stirring shaft 1102 and the stirring paddle 1103 are driven by the stirring shaft 1102 to fully mix the denitrification agent with the waste water, so that the denitrification treatment of the waste water is achieved.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a MABR technology denitrification treatment facility convenient to desilting, its characterized in that, including base (1) and disinfection room (7), processing box (2) are installed at base (1) top, just processing box (2) inside is provided with regulating chamber (3), regulating chamber (3) internally mounted has processing module (4), just processing module (4) below is provided with row material subassembly (5), regulating chamber (3) right side is provided with processing chamber (9), just processing chamber (9) inside is provided with filtering module (6), disinfection room (7) install in processing chamber (9) right side, row material subassembly (5) include servo motor (501), gear train (502), pivot (503), function board (504), heat conduction board (505) and heater strip (506), just servo motor (501) output is connected with gear train (502), gear train (502) middle part wears to have pivot (503), just pivot (503) surface is provided with function board (504), function board (505) are installed on the surface heat conduction board (505) and heat conduction board (506).

2. The MABR process denitrification treatment device convenient for dredging according to claim 1, wherein the treatment assembly (4) comprises a hydraulic telescopic rod (401), a waste removal frame (402), a storage frame (403), a water inlet (404) and a conical piece (405), the output end of the hydraulic telescopic rod (401) is connected with the waste removal frame (402), the storage frame (403) is arranged on the upper surface of the waste removal frame (402), the water inlet (404) is formed in the upper surface of the storage frame (403), and the conical piece (405) is connected with the water inlet (404) in a clamping manner.

3. The apparatus for the denitrification treatment of an MABR process for facilitating dredging according to claim 2, wherein the treatment assembly (4) further comprises a filter press plate (406), and the filter press plate (406) is connected to the bottom of the waste removal frame (402).

4. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein a driving component (8) is arranged between the regulating chamber (3) and the treatment chamber (9), the driving component (8) comprises a water inlet pipe (801), a first circulating pump (802), a water outlet pipe (803), a filter (804) and activated carbon fibers (805), the outer end of the water inlet pipe (801) is connected with the first circulating pump (802), the output end of the first circulating pump (802) is connected with the water outlet pipe (803), the filter (804) is connected to one end, far away from the first circulating pump (802), of the water inlet pipe (801), and the activated carbon fibers (805) are arranged inside the filter (804).

5. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein the filtering component (6) comprises a filtering frame (601), an adsorption frame (602), an adsorption sleeve (603), a cleaning frame (604) and a miniature telescopic rod (605), the adsorption frame (602) is installed in the filtering frame (601), the adsorption sleeve (603) is sleeved on the outer surface of the adsorption frame (602), the cleaning frame (604) is arranged on the outer surface of the adsorption sleeve (603), and the miniature telescopic rods (605) are arranged on two sides of the cleaning frame (604).

6. The MABR process denitrification treatment equipment convenient for dredging according to claim 5, wherein the filter assembly (6) further comprises cleaning pieces (606) and carding teeth (607), the cleaning pieces (606) are distributed on the surface of the cleaning frame (604) in a circular array, and the carding teeth (607) are arranged on the inner wall of the cleaning pieces (606).

7. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein the discharging assembly (5) further comprises an electric telescopic rod (507) and a clamping block (508), the electric telescopic rod (507) is installed inside the functional plate (504), and the output end of the electric telescopic rod (507) is connected with the clamping block (508).

8. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein a second circulating pump (10) is installed on the right side of the top of the treatment chamber (9), and the treatment chamber (9) is communicated with the disinfection chamber (7) through the second circulating pump (10).

9. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein a denitrification component (11) is installed in the disinfection chamber (7), the denitrification component (11) comprises a stirring motor (1101), a stirring shaft (1102) and a stirring paddle (1103), the output end of the stirring motor (1101) is connected with the stirring shaft (1102), and the bottom of the stirring shaft (1102) is connected with the stirring paddle (1103).

10. The MABR process denitrification treatment equipment convenient for dredging according to claim 1, wherein the functional plate (504) is mutually attached to the bottom of the regulating chamber (3), and the front and the back of the functional plate (504) are in convex structures.