CN211141631U - Decanter pool surface spraying system - Google Patents

Abstract

The utility model discloses a decanter pool face spraying system, including pool face spraying system spray the unit with be used for controlling the control system who sprays the unit, spray the unit including set up in four group's spray set and the aeration butterfly valve of biological pond inner wall, spray set all is connected with water delivery branch pipe, water delivery branch pipe keeps away from the one end of spray set all with water delivery house steward intercommunication, water delivery house steward's one end is provided with the water pump, water delivery house steward is gone up and is located one side that the water pump is close to biological pond and has set gradually electromagnetism main valve and booster pump, electromagnetism main valve is located between booster pump and the water pump, water delivery house steward is gone up and is located booster pump and fourth and spray and be provided with the manometer between the equipment, control system includes manual control unit. Has the advantages that: not only can accomplish the washing to the dross in biological pond surface through high-efficient reasonable mode of spraying, but also be convenient for the smooth of dross clearance work go on.

Description

Decanter pool surface spraying system

Technical Field

The utility model relates to a water treatment system technical field particularly, relates to a water decanter pool surface spraying system.

Background

In the sewage treatment process, sewage containing different substances has different treatment processes. Sewage with organic pollutants needs to be treated with a biological pond. The biological pond is intake nitrogen, phosphorus content is higher, is formed with the attachment easily at biochemical pond pool wall, and the pond face also easily appears the scum for stickness dregs, in the biological pond of CASS technology, because the pond face is broad, the pond face dross is more obvious, is the distribution of full pond face moreover. The existing cleaning pool wall mainly depends on manual brushing, which is time-consuming and labor-consuming and difficult to maintain the continuous effect; and the scum on the pool surface is removed by manual salvage, so that great operation difficulty and safety risk exist.

Patent No. CN206886784U discloses a biochemical pool wall cleaning and pool surface scum collecting system, which effectively solves the problems of difficult cleaning of the existing pool wall and difficult collection of the pool surface scum, but has the following problems in operation: 1. because the four groups of sprayers are arranged on two sides of the interior of the pool wall cleaning pipeline and are symmetrically arranged about the central axis of the pool wall cleaning pipeline, each group of sprayers can spray scum to each direction of the sides of the pool during washing, so that workers need to clean at a plurality of positions during cleaning, and the work of the workers is inconvenient to be carried out smoothly; 2. the system can not realize remote monitoring and control functions, can not adjust the spraying amount of the sprayer according to the condition of the scum on the pool surface and the current wind direction and wind speed, and can not efficiently and reasonably use water resources.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To the not enough of prior art, the utility model provides a strain hydrophone pool face spraying system possesses reasonable efficient operation water resource and is convenient for carry out the advantage of clearing up to pool face dross, and then solves the problem among the background art.

(II) technical scheme

For the above-mentioned advantage that possesses reasonable efficient operation water resource and be convenient for clear up pond face dross, the utility model discloses a concrete technical scheme as follows:

a decanter pool surface spray system comprises a spray unit and a control system for controlling the spray unit;

the spraying unit comprises four groups of spraying equipment and aeration butterfly valves which are arranged on the inner wall of the biological pond, the spraying equipment is connected with water delivery branch pipes, the water delivery branch pipes are provided with electromagnetic branch valves, and one ends of the water delivery branch pipes, which are far away from the spraying equipment, are communicated with a water delivery main pipe;

the four groups of spraying equipment comprise first spraying equipment, second spraying equipment, third spraying equipment and fourth spraying equipment, wherein the third spraying equipment is arranged on a water inlet well of the biological pool, the first spraying equipment and the second spraying equipment are respectively arranged at one end of the biological pool and positioned on two sides of the water inlet well, and the fourth spraying equipment is arranged on the inner wall of one side of the biological pool;

a water pump is arranged at one end of the water delivery main pipe, an electromagnetic main valve and a booster pump are sequentially arranged on the water delivery main pipe and positioned on one side, close to the biological pond, of the water pump, the electromagnetic main valve is positioned between the booster pump and the water pump, and a pressure gauge is arranged on the water delivery main pipe and positioned between the booster pump and the fourth spraying equipment;

the control system comprises a manual control unit and an automatic control unit, and the manual control unit and the automatic control unit are both electrically connected with the spraying unit;

the manual control unit comprises a field control box arranged beside the biological pond, a manual control processor is arranged in the field control box, and the manual control processor is respectively and electrically connected with four groups of spraying equipment, the aeration butterfly valve, the electromagnetic branch valve, the water pump, the electromagnetic main valve, the booster pump and the pressure gauge;

the automatic control unit comprises an automatic control processor, a timing module, a database, a spraying mode selection module, a communication module, an acquisition module and a mobile terminal, wherein the automatic control processor is electrically connected with the timing module, the database, the spraying mode selection module and the acquisition module in sequence, and is also electrically connected with the mobile terminal through the communication module;

the acquisition module comprises a decanter position acquisition module for acquiring decanter position signals, a butterfly valve signal acquisition module for acquiring butterfly valve opening and closing signals, a weather signal acquisition module for acquiring wind direction and wind speed and a video signal acquisition module for acquiring scum conditions on the tank surface, and the weather signal acquisition module is connected with an internet open meteorological data platform.

Further, the vertical distance between the fourth spraying device and the aeration butterfly valve is smaller than the vertical distance between the fourth spraying device and the third spraying device. Through setting up like this for the dross that fourth spraying equipment can be better washed the third spraying equipment and come is collected toward the place of corner, thereby makes things convenient for artifical salvage processing.

Furthermore, a control panel is arranged on the surface of the field control box, and a hand/self-change-over switch and a plurality of control buttons are arranged on the control panel. Through the arrangement, when the equipment needs manual control or maintenance, the manual/automatic change-over switch on the control panel is turned on for manual operation, and the switch corresponding to each equipment can be used for controlling each equipment.

Furthermore, a camera device is arranged at the top of the field control box and electrically connected with the video signal acquisition module. Through setting up like this for the staff can carry out real-time supervision to the surface in biological pond through camera device, and can set for corresponding mode of spraying through biological pond surface dross volume.

Further, the spraying mode selection module comprises a water saving mode, a common mode and a moisture-sufficient mode. Through the arrangement, a worker can set a corresponding spraying mode through the amount of the scum on the surface of the biological pond, so that the scum on the surface of the biological pond can be washed through the most energy-saving spraying mode.

Further, the selection of the water-saving mode, the normal mode and the sub-full mode is realized by controlling the working state of the booster pump and the opening degree of the solenoid main valve respectively. The specific water-saving mode is that the booster pump does not work, the electromagnetic main valve is opened half, the common mode is that the booster pump does not work, the electromagnetic main valve is opened completely, the moisture sufficient mode is that the booster pump works, and the electromagnetic main valve is opened.

(III) advantageous effects

Compared with the prior art, the utility model provides a water decanter pool surface spraying system possesses following beneficial effect:

(1) through the unique design of four groups of spray equipment positions, make first spray equipment and second spray equipment can be to decanting the hydrophone and decanting the near dross of hydrophone and wash, the third spray equipment can continue to wash the dross that first spray equipment and second spray equipment washed and come toward the gate direction of intaking, the fourth spray equipment is last to be collected the dross that third spray equipment washed and come toward the place of corner, thereby make the staff only need stand when collecting the dross and alright accomplish the clearance to the dross in this corner, avoided the emergence of staff's the phenomenon of removing repeatedly when clearing up the dross effectively, be convenient for the smooth of staff's dross clearance work goes on.

(2) Through communication module, collection module and the cooperation of spraying the mode selection module and using, make the staff not only can come to carry out real-time supervision to the dross situation on biological pond surface through video signal collection module, but also can come to carry out real-time supervision to wind speed and wind direction through weather signal collection module, and select the dross volume and the wind speed of module according to biological pond surface through spraying, the wind direction is adjusted the volume of spraying of equipment that sprays, thereby make it can accomplish the washing to biological pond surface dross through high-efficient reasonable mode of spraying.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a system block diagram of a decanter pool face spray system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a spray unit in a pool surface spray system of a decanter according to an embodiment of the invention;

fig. 3 is a schematic structural diagram of an acquisition module in a decanter pool surface spray system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a spray mode selection module in a decanter pool surface spray system according to an embodiment of the invention.

In the figure:

1. a spraying unit; 101. spraying equipment; 1011. a first spraying device; 1012. a second spraying device; 1013. a third spraying device; 1014. a fourth spraying device; 102. an aeration butterfly valve; 103. a water delivery branch pipe; 104. an electromagnetic branch valve; 105. a water delivery main pipe; 106. a water pump; 107. a master electromagnetic valve; 108. a booster pump; 109. a pressure gauge; 2. a control system; 201. a manual control unit; 2011. a field control box; 2012. a manual control processor; 202. an automatic control unit; 2021. an automatic control processor; 2022. a timing module; 2023. a database; 2024. a spray mode selection module; 2025. a communication module; 2026. an acquisition module; 20261. a decanter position acquisition module; 20262. a butterfly valve signal acquisition module; 20263. a weather signal acquisition module; 20264. a video signal acquisition module; 2027. a mobile terminal.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to an embodiment of the present invention, a pool surface spraying system for a decanter is provided.

The present invention will now be further explained with reference to the accompanying drawings and specific embodiments, as shown in fig. 1-4, the pool surface spraying system comprises a spraying unit 1 and a control system 2 for controlling the spraying unit 1;

the spraying unit 1 comprises four groups of spraying equipment 101 and aeration butterfly valves 102 which are arranged on the inner wall of a biological pond, the spraying equipment 101 is connected with water delivery branch pipes 103, the water delivery branch pipes 103 are provided with electromagnetic branch valves 104, and one ends of the water delivery branch pipes 103 far away from the spraying equipment 101 are communicated with a water delivery main pipe 105;

the four groups of spraying devices 101 comprise a first spraying device 1011, a second spraying device 1012, a third spraying device 1013 and a fourth spraying device 1014, wherein the third spraying device 1013 is arranged on a water inlet well of the biological pond, the first spraying device 1011 and the second spraying device 1012 are respectively arranged at one end of the biological pond and positioned on two sides of the water inlet well, and the fourth spraying device 1014 is arranged on the inner wall of one side of the biological pond; specifically, 4 spraying devices 101 are installed in each biological pond, wherein the first spraying device 1011 and the second spraying device 1012 are mainly responsible for flushing the decanter and scum near the decanter, the third spraying device 1013 is mainly responsible for flushing the scum flushed from the first spraying device 1011 and the second spraying device 1012 continuously towards the water inlet gate, and the fourth spraying device 1014 is mainly responsible for collecting the scum flushed from the third spraying device 1013 towards the corners, so that manual cleaning and fishing are facilitated.

A water pump 106 is arranged at one end of the water delivery main pipe 105, a main electromagnetic valve 107 and a booster pump 108 are sequentially arranged on the water delivery main pipe 105 and on one side, close to the biological pond, of the water pump 106, the main electromagnetic valve 107 is arranged between the booster pump 108 and the water pump 106, a pressure gauge 109 is arranged on the water delivery main pipe 105 and between the booster pump 108 and the fourth spraying equipment 1014, and the pressure gauge 109 is used for detecting the water pressure on the water delivery main pipe 105 to avoid dangerous situations;

the control system 2 comprises a manual control unit 201 and an automatic control unit 202, and the manual control unit 201 and the automatic control unit 202 are both electrically connected with the spraying unit 1;

the manual control unit 201 comprises an on-site control box 2011 arranged beside the biological pond, a manual control processor 2012 is arranged inside the on-site control box 2011, and the manual control processor 2012 is electrically connected with four groups of the spraying device 101, the aeration butterfly valve 102, the electromagnetic branch valve 104, the water pump 106, the electromagnetic main valve 107, the booster pump 108 and the pressure gauge 109 respectively;

the automatic control unit 202 comprises an automatic control processor 2021 for data processing, a timing module 2022 for controlling spraying time, a database 2023 for storing and extracting various data, a spraying mode selection module 2024 for controlling spraying modes, a communication module 2025 for communicating with a mobile terminal 2027, an acquisition module 2026 for data acquisition, and a mobile terminal 2027 for remote control, wherein the automatic control processor 2021 is electrically connected with the timing module 2022, the database 2023, the spraying mode selection module 2024 and the acquisition module 2026 in turn, and the automatic control processor 2021 is further electrically connected with the mobile terminal 2027 through the communication module 2025;

the acquisition module 2026 comprises a decanter position acquisition module 20261 for acquiring the decanter position signal, a butterfly valve signal acquisition module 20262 for acquiring the butterfly valve opening and closing signal, a weather signal acquisition module 20263 for acquiring the wind direction and the wind speed, and a video signal acquisition module 20264 for acquiring the scum condition on the pool surface, and the weather signal acquisition module 20263 is connected with an internet open meteorological data platform.

In one embodiment, the vertical distance between the fourth spray device 1014 to the aeration butterfly valve 102 is less than the vertical distance between the fourth spray device 1014 to the third spray device 1013. Through the arrangement, the scum flushed by the third spraying equipment 1013 can be better collected to the corners of the fourth spraying equipment 1014, so that the manual fishing treatment is convenient.

In one embodiment, the surface of the field control box 2011 is provided with a control panel, and the control panel is provided with a hand/self switch and a plurality of control buttons. When the manual control or maintenance is needed, the manual/automatic change-over switch on the control panel is turned on to manually operate, and then the switch corresponding to each device can be used for controlling each device.

In one embodiment, a camera device is disposed on the top of the field control box 2011, and the camera device is electrically connected to the video signal acquisition module 20264. Through setting up like this for the staff can carry out real-time supervision to the surface in biological pond through camera device, and can set for corresponding mode of spraying through biological pond surface dross volume.

In one embodiment, the spray mode selection module 2024 includes a water save mode, a normal mode, and a moisture rich mode. Through the arrangement, a worker can set a corresponding spraying mode through the amount of the scum on the surface of the biological pond, so that the scum on the surface of the biological pond can be washed through the most energy-saving spraying mode.

During the specific application, the selection of water-saving mode, normal mode and moisture sufficient mode is realized through the operating condition of control booster pump 108 respectively with the opening degree of electromagnetism master valve 107, and specific water-saving mode is that booster pump 108 is out of work, and electromagnetism master valve 107 is half opened, and normal mode is that booster pump 108 is out of work, and electromagnetism master valve 107 opens fully, and moisture sufficient mode is that booster pump 108 works, and electromagnetism master valve 107 goes to open.

In this embodiment, under the action of the mobile terminal 2027, the worker can acquire the video signal of the camera device located on the site of the biological pond in real time through the video signal acquisition module 20264, so as to acquire the scum situation on the surface of the biological pond in real time, and at the same time, the worker can acquire the real-time wind speed and wind direction through the weather signal acquisition module 20263, and select the spraying mode of the spraying device 101 according to the combination of the wind speed and the wind direction with the scum situation on the surface of the biological pond, so that the worker can flush the scum on the surface of the biological pond through the efficient and reasonable spraying mode, specifically, when the scum quantity on the surface of the biological pond is small (the ratio of the scum on the pond surface is determined according to the video image), the wind speed is within the preset range value, the wind direction is the same as the spraying direction of the second spraying device 1012 or the fourth spraying device, and the wind direction is an acute angle with the spraying angle of the second spraying device 1012 or, selecting a water-saving mode; when the scum quantity on the surface of the biological pond is less, the wind speed is not within a preset range value, the wind direction is the same as the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014, and the included angle between the wind direction and the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014 is an acute angle, selecting a common mode; when the scum quantity on the surface of the biological pond is less, the wind speed is not in a preset range value, the wind direction is opposite to the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014, and the included angle between the wind direction and the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014 is an obtuse angle, selecting a moisture-sufficient mode; when the scum quantity on the surface of the biological pond is large, the wind speed is within a preset range value, the wind direction is the same as the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014, and the included angle between the wind direction and the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014 is an acute angle, selecting a common mode; when the scum quantity on the surface of the biological pond is large, the wind speed is not within a preset range value, the wind direction is the same as the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014, and the included angle between the wind direction and the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014 is an acute angle, selecting a moisture-sufficient mode; when the scum quantity on the surface of the biological pond is large, the wind speed is not within the preset range value, the wind direction is opposite to the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014, and the included angle between the wind direction and the spraying direction of the second spraying equipment 1012 or the fourth spraying equipment 1014 is an obtuse angle, the moisture-sufficient mode is selected.

The implementation also comprises the operation mode of the equipment:

1) and 2, a scum flushing operation mode: when each biological pond is settled, a full-closed signal of the aeration butterfly valve is collected, after the timing module 2022 counts down for 15 minutes, the automatic control processor 2021 operates the first spraying equipment 1011 and the second spraying equipment 1012 and the corresponding electromagnetic branch valves 104 to drive scum near the decanter to the direction of the aeration butterfly valve 102; after the first spraying equipment 1011 and the second spraying equipment 1012 run for 15 minutes, the automatic control processor 2021 starts the third spraying equipment 1013 and the fourth spraying equipment 1014 and the corresponding electromagnetic branch valves 104, and scum is collected continuously towards the direction and the corners of the butterfly aerator 102, at this time, manual fishing of the collected scum is arranged, the first spraying equipment 1011 and the second spraying equipment 1012 continue to run at the same time, so that scum backflow is prevented, and the automatic control processor stops after running for 5 minutes (namely, the first spraying equipment 1011 and the second spraying equipment 1012 run for 20 minutes in total, and the time of the last 5 minutes runs at the same time as the third spraying equipment 1013 and the fourth spraying equipment 1014); the third spraying apparatus 1013 and the fourth spraying apparatus 1014 were stopped after operating for 30 minutes.

2) The water decanter flushing operation mode is as follows: when the decanter position acquisition module 20261 acquires a signal that the decanter is in the right position, the first spraying device 1011, the second spraying device 1012 and the corresponding electromagnetic branch valve 104 are started, the decanter is cleaned in the ascending process of the decanter, the operation is stopped after 15 minutes of cleaning (the decanter needs 11-12 minutes from the lowest position to the highest position), the whole program finishes the action, and the next command is waited.

In this embodiment, due to process reasons, an idle phenomenon occurs after the biological pond finishes decanting, water cannot be fed in immediately, at this time, the aeration butterfly valve 102 is always in a fully closed state, a fully closed signal is always connected, so that the control system 2 starts to execute a set of program immediately after the control system executes the set of program, scum is washed in an aeration stage, and program confusion is caused, so that a jumping mode is adopted when the aeration butterfly valve is completely closed, that is, when the aeration butterfly valve is completely closed, the control system 2 starts to execute the program, when the set of program is completely executed, the fully closed signal of the butterfly valve is always connected, at this time, the control system 2 cannot immediately start to execute the program from the beginning, and the program can be executed only after the fully closed signal jumps once (namely, a valve is opened and then closed).

To sum up, with the aid of the above technical scheme of the utility model, unique design through four groups of spray set 101 positions for first spray set 1011 and second spray set 1012 can be to decanting the hydrophone and decanting near the dross of hydrophone and wash, third spray set 1013 can continue to wash toward the gate direction of intaking with the dross that first spray set 1011 and second spray set 1012 washed, fourth spray set 1014 is last to be collected the dross that third spray set 1013 washed away toward the place of corner, thereby make the staff only need stand when collecting the dross and just accomplish the clearance to the dross in this corner department, avoided the emergence of staff's phenomenon of removing repeatedly when clearing up the dross effectively, the staff's dross of being convenient for clears up the dross goes on smoothly of work.

In addition, through the cooperation of the communication module 2025, the collection module 2026 and the spraying mode selection module 2024, the staff can monitor the scum condition on the surface of the biological pond in real time through the video signal collection module 20264, and can monitor the wind speed and the wind direction in real time through the weather signal collection module 20263, and adjust the spraying amount of the spraying equipment 101 according to the scum amount, the wind speed and the wind direction on the surface of the biological pond through the spraying mode selection module 2024, so that the scum on the surface of the biological pond can be washed through a high-efficiency reasonable spraying mode.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A decanter pool surface spray system, comprising a spray unit (1) and a control system (2) for controlling the spray unit (1);

the spraying unit (1) comprises four groups of spraying equipment (101) and aeration butterfly valves (102) which are arranged on the inner wall of a biological pond, the spraying equipment (101) is connected with water delivery branch pipes (103), the water delivery branch pipes (103) are provided with electromagnetic branch valves (104), and one ends of the water delivery branch pipes (103) far away from the spraying equipment (101) are communicated with a water delivery main pipe (105);

the four groups of spraying equipment (101) comprise first spraying equipment (1011), second spraying equipment (1012), third spraying equipment (1013) and fourth spraying equipment (1014), wherein the third spraying equipment (1013) is arranged on a water inlet well of the biological pond, the first spraying equipment (1011) and the second spraying equipment (1012) are respectively arranged at one end of the biological pond and positioned on two sides of the water inlet well, and the fourth spraying equipment (1014) is arranged on the inner wall of one side of the biological pond;

a water pump (106) is arranged at one end of the water delivery main pipe (105), an electromagnetic main valve (107) and a booster pump (108) are sequentially arranged on the water delivery main pipe (105) and positioned on one side, close to the biological pond, of the water pump (106), the electromagnetic main valve (107) is positioned between the booster pump (108) and the water pump (106), and a pressure gauge (109) is arranged on the water delivery main pipe (105) and positioned between the booster pump (108) and the fourth spraying equipment (1014);

the control system (2) comprises a manual control unit (201) and an automatic control unit (202), and the manual control unit (201) and the automatic control unit (202) are both electrically connected with the spraying unit (1);

the manual control unit (201) comprises a field control box (2011) arranged beside the biological pond, a manual control processor (2012) is arranged inside the field control box (2011), and the manual control processor (2012) is respectively and electrically connected with four groups of spraying equipment (101), the aeration butterfly valve (102), the electromagnetic branch valve (104), the water pump (106), the electromagnetic main valve (107), the booster pump (108) and the pressure gauge (109);

the automatic control unit (202) comprises an automatic control processor (2021), a timing module (2022), a database (2023), a spraying mode selection module (2024), a communication module (2025), an acquisition module (2026) and a mobile terminal (2027), wherein the automatic control processor (2021) is electrically connected with the timing module (2022), the database (2023), the spraying mode selection module (2024) and the acquisition module (2026) in turn, and the automatic control processor (2021) is also electrically connected with the mobile terminal (2027) through the communication module (2025);

the acquisition module (2026) comprises a decanter position acquisition module (20261), a butterfly valve signal acquisition module (20262), a weather signal acquisition module (20263) and a video signal acquisition module (20264), and the weather signal acquisition module (20263) is connected with an internet open weather data platform.

2. The decanter basin surface spray system according to claim 1, wherein the vertical distance between said fourth spray device (1014) and said aeration butterfly valve (102) is less than the vertical distance between said fourth spray device (1014) and said third spray device (1013).

3. The decanter pool face spray system of claim 1, wherein a control panel is provided on a surface of said in-situ control box (2011), said control panel having a hand/self-switch and a plurality of control buttons.

4. The decanter pool face spray system of claim 1, wherein a camera is disposed at the top of the field control box (2011) and is electrically connected to the video signal acquisition module (20264).

5. The decanter basin face spray system of claim 1, wherein the spray mode selection module (2024) comprises a water saving mode, a normal mode, and a moisture rich mode.

6. The decanter pool face spray system of claim 5, wherein said water saving mode, said normal mode and said partial filling mode are selected by controlling the operating state of said booster pump (108) and the opening degree of said solenoid main valve (107), respectively.

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