CN115078672A

CN115078672A - Integration quality of water real-time supervision equipment

Info

Publication number: CN115078672A
Application number: CN202210713542.8A
Authority: CN
Inventors: 陆王烨; 李向阳; 陈宗娟; 刘陈鸿; 韦善恩
Original assignee: Guangxi Jiaoke Group Co Ltd
Current assignee: Guangxi Jiaoke Group Co Ltd
Priority date: 2022-06-22
Filing date: 2022-06-22
Publication date: 2022-09-20
Anticipated expiration: 2042-06-22
Also published as: CN115078672B

Abstract

The invention relates to the technical field related to water quality monitoring, and discloses integrated water quality real-time monitoring equipment which comprises an integrated machine body, wherein a pump body is installed in the integrated machine body, the pump body is communicated with a water pumping pipe, the pump body is communicated with a water delivery pipe, the water delivery pipe is communicated with an algae primary filtering mechanism, the algae primary filtering mechanism comprises transmission flow distribution pipes, the transmission flow distribution pipe array is provided with flow distribution output ports, the flow distribution output ports are communicated with butt joint water delivery pipes, L-shaped guide pipes are installed in the transmission flow distribution pipes, and pipe body algae filtering mechanisms are installed in the L-shaped guide pipes in a sliding mode; according to the integrated real-time water quality monitoring equipment, the self-maintenance algae filtering mechanism is arranged between the pump body and the water quality sensor to form a pretreatment effect on sampled water, water pumped by the pump body enters the transmission shunt pipe through the water conveying pipe, and the blocking of massive algae in water is realized through the in-pipe algae filtering net pieces arranged in the pipe body algae filtering mechanism in an array mode, so that the transmission of the algae is reduced.

Description

Integration quality of water real-time supervision equipment

Technical Field

The invention relates to the technical field of water quality monitoring, in particular to integrated water quality real-time monitoring equipment.

Background

At present, water is in shortage in water resources in China, is not uniformly distributed, and has serious water pollution, so that water quality monitoring is enhanced, a good water source is protected, the water quality monitoring capability is improved, the accuracy of water quality monitoring data is ensured, and the water quality monitoring analysis efficiency is improved. At present, water quality analysis is mainly carried out by depending on a laboratory, and the defects of problems in sampling and transportation, backward instrument, low efficiency and the like exist. A plurality of online water quality sensors are also arranged on the market, but the sensors are independent products, and when impurities such as algae exist in sampling water, the monitoring data are easily influenced, even the blockage is caused, and the problems are caused, so that the maintenance is required frequently, and the online water quality monitoring device is difficult to adapt to the current variable requirements on online water quality monitoring.

Disclosure of Invention

The invention aims to provide an integrated water quality real-time monitoring device which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme.

The invention discloses integrated water quality real-time monitoring equipment, which comprises an integrated machine body, wherein a pump body is installed in the integrated machine body, the pump body is communicated with a water pumping pipe, the pump body is communicated with a water delivery pipe, the water delivery pipe is communicated with an algae primary filtering mechanism, the algae primary filtering mechanism comprises a transmission flow dividing pipe, a flow dividing output port is arranged on the transmission flow dividing pipe in an array manner, a butt-joint water delivery pipe is communicated with the flow dividing output port, an L-shaped guide pipe is installed in the transmission flow dividing pipe, a pipe body algae filtering mechanism is slidably installed on the L-shaped guide pipe, the pipe body algae filtering mechanism comprises a telescopic net cover, a plugging ring is installed at the front end of the telescopic net cover, a functional rubber ring is installed at the tail end of the telescopic net cover, in-pipe algae filtering net sheets are installed on the telescopic net cover in an array manner, return springs are installed between adjacent in-pipe algae filtering net sheets, and five groups of water quality sensors are installed in the integrated machine body in an array manner, the automatic maintenance algae filtering mechanism is installed in the integrated machine body and comprises an algae removing maintenance box, the algae removing maintenance box is provided with a butt joint end, a communication processing square box is installed on the outer side of the butt joint end, the microalgae blocking and filtering mechanism is installed in the communication processing square box in a lifting and rotating mode, the communication processing square box is communicated with a butt joint input pipe, the butt joint input pipe is communicated with the water quality sensor, the communication processing square box is communicated with a water conveying pipe, the water conveying pipe is communicated with the butt joint water conveying pipe, the bottom of the algae removing maintenance box is communicated with an L-shaped communicating piece, the L-shaped communicating piece is communicated with the left side of the water conveying pipe, the L-shaped guide pipe penetrates through the L-shaped communicating piece, the tail end of the L-shaped guide pipe is arranged in the algae removing maintenance box, the side face of the algae removing maintenance box is provided with a front door plate, and the air blower is installed in the integrated machine body, the air blower is communicated with a drain valve pipe, the drain valve pipe is communicated with the water outlet of the water quality sensor, the output end of the drain valve pipe is communicated with a drain pipe, and a data terminal is arranged in the integrated machine body.

Further technical scheme, little algae block filter mechanism includes sealing base, sealing base slide set up in to the end of connecting in succession, sealing base installs the function pole, the top otter board is installed to the function pole end, the installation of top otter board outside is equipped with scrapes and moves the rubber ring, scrape and move the rubber ring laminating butt joint input tube inner wall, the algae filter circle net piece is installed to the function pole array, the function pole array is equipped with and blocks algae brush portion, section layer otter board is installed in the function pole middle section, the laminating of section layer otter board butt joint input tube bottom.

Further technical scheme, remove the algae and maintain incasement wall array and install the rotating electrical machines, the symmetrical power connection of rotating electrical machines has the power shaft, the upside the power shaft is installed and is gone up the spinning board, go up the spinning board and install electric telescopic handle, electric telescopic handle end-to-end connection sealing base.

According to the technical scheme, the lower side of the rotating motor at the outermost side is in power connection with a rewinding transmission mechanism, the rewinding transmission mechanism comprises a rotary rod, the rotary rod is connected to the power shaft at the lower side and is connected with the tail end of the L-shaped guide pipe, a rewinding function plate is installed on the rotary rod, a soft reset spring is connected between the rewinding function plate and the blocking ring, rewinding cavities are symmetrically formed in the rewinding function plate, a rewinding motor is installed in the rewinding cavities, the rewinding motor is in power connection with a winding shaft, a transmission line body is installed on the winding shaft and penetrates through the blocking ring, and the tail end of the transmission line body is connected to the functional rubber ring.

According to a further technical scheme, two intraductal algae filtering net sheets are arranged on two sides of the shunt output port.

According to the further technical scheme, an interactive screen is arranged on the right side of the data terminal, and a communication module is installed on the integrated machine body.

Further technical scheme, the drinking-water pipe is installed electronic ball valve, the flowmeter is installed to the raceway, the drinking-water pipe end communicates outside sedimentation tank.

According to a further technical scheme, a heat dissipation module is arranged on the right side of the integrated machine body.

According to a further technical scheme, a top protection plate is arranged at the top of the integrated machine body.

The invention has the beneficial effects that:

the integrated real-time water quality monitoring equipment has the advantages that the self-maintenance algae filtering mechanism is arranged between the pump body and the water quality sensor to form a pretreatment effect on sampled water, the water pumped by the pump body enters the transmission flow distribution pipe through the water delivery pipe, firstly, the blocking effect on massive algae in the water is realized through the in-pipe algae filtering net sheets arranged in an array manner in the pipe algae filtering mechanism, so that the transmission of the algae is reduced, the primarily treated water enters the communicated treatment square box through the flow distribution output port through the butt-joint water delivery pipe and the water delivery pipe, the microalgae blocking and filtering mechanism is arranged in the communicated treatment square box, the sealing base in the microalgae blocking and filtering mechanism forms a blocking effect on the communicating end to prevent the water from flowing downwards into the algae removal maintenance box, the microalgae blocking and filtering mechanism is matched with the algae filtering circular net sheets through the algae blocking hairbrush parts arranged in an array manner, the algae blocking hairbrush parts can realize the cross-blocking effect on the microalgae in the water and be matched with the algae filtering circular net sheets to realize better blocking effect on the microalgae to prevent the residual microalgae from passing through the water, therefore, the effect of efficiently treating floating objects and microalgae in water is realized through the functional arrangement of the microalgae blocking and filtering mechanism and the pipe body algae filtering mechanism;

according to the integrated water quality real-time monitoring equipment, through the arrangement of the algae removal maintenance box and the internal transmission structure, the automatic maintenance and algae removal effects of the microalgae blocking and filtering mechanism and the tube algae filtering mechanism can be realized, the manual maintenance frequency is reduced, and the problem of influence of accumulation of algae in the tube body is avoided due to long-time arrangement is solved The compressed pipe body algae filtering mechanism is arranged on the lower side of the rewinding function board, an electric telescopic rod is started in the rewinding process to drive the microalgae blocking and filtering mechanism to descend, the function rod part on the lower side of the section layer screen plate enters the algae removal maintenance box, the wiping treatment on the inner wall of the butt input pipe is realized by scraping a rubber ring in the sliding process, then a rotating motor is started to drive a power shaft to rotate, the microalgae blocking and filtering mechanism is rotationally swung, the microalgae blocking brush part and the algae filtering circular net plate are used for blocking microalgae and throwing the microalgae out to the algae removal maintenance box, meanwhile, the power shaft at the lower end of the rotating motor on the outermost side is connected with the rewinding function board and the rotating rod, the lower side power shaft is rotated to drive the compressed pipe body algae filtering mechanism to rotate, the rewinding motor is used for properly paying off to release the pipe body algae filtering mechanism in the process, and the algae blocking in the pipe body algae filtering mechanism is thrown out to the algae removal maintenance box for storage, thereby realizing the automatic maintenance effect of the pipeline and the algae filtering functional part;

the integrated water quality real-time monitoring equipment can realize the asynchronous descending maintenance treatment through the microalgae blocking and filtering mechanisms in the communicated processing square boxes, thereby avoiding the interruption of a real-time monitoring system to achieve the self-maintenance process without stopping the transmission monitoring function, realizing high-efficiency real-time monitoring by the automatic maintenance function, improving the monitoring accuracy, realizing the maintenance effect by only periodically opening the front door plate to carry out impurity cleaning work in the algae removal maintenance box, greatly reducing the maintenance frequency and realizing high-efficiency simple maintenance and management work without disassembling functional parts.

According to the integrated water quality real-time monitoring device, through an integrated design, efficient water quality transmission monitoring is achieved, meanwhile, the self-maintenance effect of the transmission algae removal function and the algae filtering function is matched, maintenance frequency is greatly reduced, maintenance work is efficiently and simply achieved, the reliability and efficiency of the operation of the device are improved, the cloud uploading function is matched, the effects of guaranteeing data accuracy, machine body stability and low maintenance cost are achieved, and the effect of a real remote real-time water quality monitoring function is achieved.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic side sectional view of the self-maintenance algae filtering mechanism 20 of FIG. 1;

FIG. 3 is an enlarged schematic view of the microalgae blocking and filtering mechanism 25 in FIG. 2;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 5 is a schematic top sectional view of the algae primary filtering mechanism 15 of FIG. 1;

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The integrated real-time water quality monitoring device described in conjunction with the attached drawings 1-5 comprises an integrated machine body 11, a pump body 24 is installed in the integrated machine body 11, the pump body 24 is communicated with a water pumping pipe 18, the pump body 24 is communicated with a water delivery pipe 26, the water delivery pipe 26 is communicated with an algae primary filtering mechanism 15, the algae primary filtering mechanism 15 comprises a transmission flow dividing pipe 65, a flow dividing output port 66 is arranged in an array of the transmission flow dividing pipes 65, the flow dividing output port 66 is communicated with a butt joint water delivery pipe 34, an L-shaped guide pipe 57 is installed in the transmission flow dividing pipe 65, a pipe algae filtering mechanism 60 is installed in a sliding manner on the L-shaped guide pipe 57, the pipe algae filtering mechanism 60 comprises a telescopic net cover 64, a plugging ring 59 is installed at the front end of the telescopic net cover 64, a functional rubber ring 63 is installed at the tail end of the telescopic net cover 64, an in-pipe algae filtering net sheet 61 is installed in an array manner on the telescopic net cover 64, a return spring 62 is installed between adjacent in-pipe algae filtering sheets 61, five groups of water quality sensors 22 are installed in the integrated machine body 11 in an array, the installation mode of the water quality sensors 22 is uniform and has interchangeability, different water quality sensors 22 can be installed according to actual needs, the accurate monitoring and uploading of the conventional five-ginseng, ammonia nitrogen content, COD, TP, TN and other data information in the sampled water are realized through the water quality sensors 22, the self-maintenance algae filtering mechanism 20 is installed in the integrated machine body 11, the self-maintenance algae filtering mechanism 20 comprises an algae removing maintenance box 35, the algae removing maintenance box 35 is provided with a pair of communicating ends 23 in an array mode, a communicating processing square box 30 is installed outside the pair of communicating ends 23, a microalgae blocking and filtering mechanism 25 is installed in the communicating processing square box 30 in a lifting and rotating mode, the communicating processing square box 30 is communicated with a butt-joint input pipe 32, the butt-joint input pipe 32 is communicated with the water quality sensors 22, the communicating processing square box 30 is communicated with a water conveying pipe 33, the water conveying pipe 33 is communicated with the butt-joint water conveying pipe 34, the bottom of the algae removing maintenance box 35 is communicated with an L-shaped communicating piece 58, the L-shaped communication piece 58 is communicated with the left side of the transmission flow dividing pipe 65, the L-shaped guide pipe 57 penetrates through the L-shaped communication piece 58, the tail end of the L-shaped guide pipe 57 is arranged in the algae removal maintenance box 35, the front door plate 36 is arranged on the side face of the algae removal maintenance box 35, the air blower 29 is installed in the integrated machine body 11, the air blower 29 is communicated with the drainage valve pipe 28, the drainage valve pipe 28 is communicated with the water outlet of the water quality sensor 22, the output end of the drainage valve pipe 28 is communicated with the drainage pipe 21, and the data terminal 13 is arranged in the integrated machine body 11.

During operation, the pump body 24 is started to extract sample water in the external sedimentation tank, the sample water is transmitted through the water delivery pipe 26 and is subjected to algae removal treatment through the self-maintenance algae filtering mechanism 20, the sample water is transmitted to the water quality sensor 22 to be subjected to water quality monitoring, data parameters are acquired, data statistics is carried out through the data terminal 13, cloud uploading can be carried out through the communication module 16, real-time water quality data monitoring is realized, after the current water sample acquisition data is finished under the pumping back effect of the air blower 29, the sampling water and excess water are discharged outwards through the water discharge pipe 21 through the water discharge valve pipe 28, the external sedimentation tank can only deposit silt and the like in water, a large amount of algae can float in the water, the pipeline accumulation and blockage are easy to be caused in the pumping back sampling process, the data monitoring effect of the water quality sensor 22 is influenced, the self-maintenance algae filtering mechanism 20 is arranged between the pump body 24 and the water quality sensor 22 to form a pretreatment effect on the sampling water, the water pumped by the pump body 24 enters the transmission shunt pipe 65 from the water pipe 26, firstly passes through the pipe-in algae-filtering net sheet 61 arranged in the pipe-in algae-filtering mechanism 60 in an array manner to intercept massive algae in the water, thereby reducing the transmission of algae, the primarily treated water enters the communicated treatment square box 30 from the butt-joint water transmission pipe 34 and the water transmission pipe 33 through the shunt output port 66, the microalgae intercepting and filtering mechanism 25 is arranged in the communicated treatment square box 30, the sealing base 43 in the microalgae intercepting and filtering mechanism 25 forms a blocking effect on the butt-joint water transmission end 23 to prevent the water from flowing downwards into the algae-removing maintenance box 35, the microalgae intercepting and filtering mechanism 25 is matched with the algae-filtering circular net sheet 46 through the algae-intercepting hairbrush parts 45 arranged in an array manner, the algae-intercepting hairbrush parts 45 can realize the cross-intercepting effect on the microalgae in the water and matched with the algae-filtering circular net sheet 46 to better intercept residual microalgae, thereby realizing the high-efficiency treatment of floating matters in the water through the functional arrangement of the microalgae intercepting and filtering mechanism 25 and the pipe-filtering mechanism 60, The microalgae retaining and filtering mechanism 25 and the tube body algae filtering mechanism 60 can be automatically maintained and algae-removed by the arrangement of the algae removing maintenance box 35 and the internal transmission structure, the manual maintenance frequency is reduced, and the problem of influence of accumulation of internal algae caused by long-time arrangement is avoided, firstly, the rewinding motor 53 in the rewinding function plate 51 is started to realize rewinding of the transmission line body 55, so that the function rubber ring 63 is pulled, the function rubber ring 63 is folded towards the plugging ring 59, the return spring 62 between the tube internal algae filtering net sheet 61 and the tube internal algae filtering net sheet 61 is compressed and closed in the process, so that the tube body algae filtering mechanism 60 is integrally contracted, meanwhile, the function rubber ring 63 is rewound, the attachment friction on the inner tube wall of the transmission flow dividing pipe 65 can be realized to remove algae possibly grown on the tube wall and is collected in the space of the function rubber ring 63 and the plugging ring 59, and the transmission line body 55 is further rewound, the compressed tube body algae filtering mechanism 60 is driven to enter the algae removing maintenance box 35 from the L-shaped communicating piece 58 under the guidance of the L-shaped guide tube 57, so that the compressed tube body algae filtering mechanism 60 is arranged at the lower side of the rewinding function board 51, the electric telescopic rod 40 is started in the rewinding process to drive the microalgae blocking and filtering mechanism 25 to descend, the function rod 44 at the lower side of the section layer screen plate 49 enters the algae removing maintenance box 35, the inner wall of the butt joint input tube 32 is wiped through the scraping rubber ring 48 in the sliding process, then the rotating motor 37 is started to drive the power shaft 39 to rotate, the microalgae blocking and filtering mechanism 25 is rotationally swung, the microalgae blocking brush part 45 and the algae filtering circular screen plate 46 are used for blocking microalgae to be thrown out into the algae removing maintenance box 35, and the power shaft 39 at the lower end of the outermost rotating motor 37 is connected with the rewinding function board 51 and the rotating rod 50 so that the lower power shaft 39 rotates to drive the compressed tube body algae filtering mechanism 60 to rotate, in the process, the rewinding motor 53 can appropriately pay off to loosen the tube body algae filtering mechanism 60, so that algae intercepted in the tube body algae filtering mechanism 60 is thrown out to the algae removal maintenance box 35 for storage, and therefore the automatic maintenance effect of the pipeline and the algae filtering function pieces is achieved.

Preferably, little algae block and strain mechanism 25 includes sealing base 43, sealing base 43 slides and sets up in butt joint end 23, sealing base 43 installs function pole 44, top otter board 47 is installed to function pole 44 end, the installation of top otter board 47 outside is equipped with scrapes moves rubber ring 48, scrape and move rubber ring 48 laminating butt joint input tube 32 inner wall, function pole 44 array is installed and is strained algae circle otter 46, function pole 44 array is equipped with and blocks algae brush portion 45, function pole 44 middle section is installed section layer otter board 49, section layer otter board 49 laminating butt joint input tube 32 bottom.

The sealing base 43 realizes the airtight treatment of the bottom communication end of the communication processing square box 30 in a working state, the section layer screen plate 49 realizes a segmentation effect, so that the lower side of the section layer screen plate 49 realizes a main floating algae interception function, and the structure of the upper section function rod 44 plays a role in further ensuring to avoid residual microalgae transmission through the butt input pipe 32.

Preferably, the rotating motors 37 are mounted on the inner wall of the algae removal maintenance box 35 in an array mode, the rotating motors 37 are symmetrically and dynamically connected with power shafts 39, an upper rotating plate 38 is mounted on the power shaft 39 on the upper side, an electric telescopic rod 40 is mounted on the upper rotating plate 38, and the tail end of the electric telescopic rod 40 is connected with a sealing base 43.

The electric telescopic rod 40 is started to drive the sealing base 43 to descend, and the rotating motor 37 drives the algae to be thrown out in a rotating mode.

Preferably, a rewinding transmission mechanism 70 is dynamically connected to the lower side of the outermost rotating motor 37, the rewinding transmission mechanism 70 includes a rotating rod 50, the rotating rod 50 is connected to a power shaft 39 on the lower side, the rotating rod 50 is connected to the end of the L-shaped guide tube 57, a rewinding function board 51 is installed on the rotating rod 50, a soft return spring 56 is connected between the rewinding function board 51 and the blocking ring 59, rewinding cavities 52 are symmetrically formed in the rewinding function board 51, a rewinding motor 53 is installed in the rewinding cavity 52, the rewinding motor 53 is dynamically connected to a winding shaft 54, a transmission line 55 is installed on the winding shaft 54, the transmission line 55 penetrates through the blocking ring 59, and the end of the transmission line 55 is connected to the functional rubber ring 63.

The rewinding motor 53 in the rewinding transmission mechanism 70 rewinds and drives the tube body algae filtering mechanism 60 to retract and move to the algae removing maintenance box 35 for automatic algae removal.

Preferably, two pieces of intraductal algae filter meshes 61 are arranged at the two sides of the shunt output port 66.

The arrangement of the intraductal algae-filtering net sheets 61 on both sides of the shunt output port 66 can further improve the effect of preventing algae from passing through.

Preferably, the right side of the data terminal 13 is provided with an interactive screen 14, and the integrated body 11 is provided with a communication module 16.

The data terminal 13 performs data collection processing, and the interactive screen 14 performs viewing and cloud uploading remote monitoring through the communication module 16.

Preferably, the water pumping pipe 18 is provided with an electric ball valve 19, the water conveying pipe 26 is provided with a flowmeter 27, and the tail end of the water pumping pipe 18 is communicated with an external sedimentation tank.

The electric ball valve 19 controls the connection and the disconnection of the pumping pipe 18, and the flow meter 27 performs flow statistics.

Preferably, a heat dissipation module 17 is disposed at the right side of the integrated body 11.

The heat dissipation module 17 performs an internal ventilation heat dissipation effect.

Preferably, a top protection plate 12 is arranged at the top of the integrated body 11.

The surface area of the top protection plate 12 is larger than that of the integrated body 11, so that the protection effect on the body is realized.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an integration quality of water real-time supervision equipment, includes the integration fuselage, install the pump body in the integration fuselage, pump body intercommunication has the drinking-water pipe, pump body intercommunication has raceway, its characterized in that: the algae pre-filtering mechanism is communicated with an algae pre-filtering mechanism, the algae pre-filtering mechanism comprises a transmission flow dividing pipe, a transmission flow dividing pipe array is provided with a flow dividing output port, the flow dividing output port is communicated with a butt joint water transmission pipe, an L-shaped guide pipe is installed in the transmission flow dividing pipe, a pipe body algae filtering mechanism is slidably installed on the L-shaped guide pipe and comprises a telescopic net sleeve, a plugging ring is installed at the front end of the telescopic net sleeve, a functional rubber ring is installed at the tail end of the telescopic net sleeve, an in-pipe algae filtering net sheet is installed on the telescopic net sleeve array, a return spring is installed between the adjacent in-pipe algae filtering net sheets, five groups of water quality sensors are installed on the integrated machine body, a self-maintenance algae filtering mechanism is installed on the integrated machine body and comprises an algae removal maintenance box, the algae removal maintenance box array is provided with a butt joint end, the device comprises a communication treatment square box, a microalgae blocking and filtering mechanism, a communication input pipe, a water quality sensor, a water conveying pipe, an L-shaped communicating piece, a water outlet pipe, a front door plate, a blower, a drainage valve pipe, a water outlet pipe, a drainage pipe and a drainage pipe, wherein the communication treatment square box is arranged outside the communication end, the microalgae blocking and filtering mechanism is arranged in the communication treatment square box in a lifting and rotating manner, the communication treatment square box is communicated with the communication input pipe, the communication input pipe is communicated with the water quality sensor, the communication treatment square box is communicated with the water conveying pipe, the water conveying pipe is communicated with the butt water conveying pipe, the bottom of the algae removal maintenance box is communicated with the L-shaped communicating piece, the L-shaped communicating piece is communicated with the left side of the transmission flow distribution pipe, the L-shaped guide pipe penetrates through the L-shaped communicating piece, the tail end of the L-shaped guide pipe is arranged in the algae removal maintenance box, the side surface of the algae removal maintenance box is provided with the front door plate, the integrated machine body is provided with the blower, the blower is communicated with the drainage pipe, the water outlet end of the drainage valve pipe, and a data terminal is arranged in the integrated machine body.

2. The integrated water quality real-time monitoring equipment according to claim 1, which is characterized in that: little algae block filter mechanism includes seal base, seal base slide set up in to the end of connecting in succession, seal base installs the function pole, the top otter board is installed to the function pole end, the installation of top otter board outside is equipped with scrapes and moves the rubber ring, scrape and move the rubber ring laminating butt joint input tube inner wall, the function pole array is installed and is strained algae circle net piece, the function pole array is equipped with and blocks algae brush portion, section layer otter board is installed in the function pole middle section, the laminating of section layer otter board butt joint input tube bottom.

3. The integrated water quality real-time monitoring equipment as claimed in claim 2, wherein: remove algae maintenance box inner wall array and install the rotating electrical machines, the rotating electrical machines symmetry power is connected with the power shaft, the upside the power shaft is installed and is gone up the spinning plate, go up the spinning plate and install electric telescopic handle, electric telescopic handle end-to-end connection sealing base.

4. The integrated water quality real-time monitoring equipment of claim 3, which is characterized in that: the outside the rotating electrical machines downside power is connected with backrush drive mechanism, backrush drive mechanism includes the rotary rod, rotary rod connection in the downside the power shaft, the rotary rod with L type stand pipe end-to-end connection, the backrush function board is installed to the rotary rod, the backrush function board with be connected with the soft spring that resets between the jam ring, the interior symmetry of backrush function board is equipped with the backrush chamber, install the backrush motor in the backrush chamber, backrush motor power is connected with the reel, the spool is installed the drive line body, the drive line body runs through the jam ring, drive line body end-to-end connection in the function is glued the ring.

5. The integrated water quality real-time monitoring equipment as claimed in claim 1, wherein: two intraductal algae filter net pieces are arranged on two sides of the shunt outlet.

6. The integrated water quality real-time monitoring equipment as claimed in claim 1, wherein: an interactive screen is arranged on the right side of the data terminal, and a communication module is installed on the integrated machine body.

7. The integrated water quality real-time monitoring equipment according to claim 1, which is characterized in that: electric ball valves are installed to the drinking-water pipe, the flowmeter is installed to the raceway, the drinking-water pipe end communicates outside sedimentation tank.

8. The integrated water quality real-time monitoring equipment as claimed in claim 1, wherein: and a heat dissipation module is arranged on the right side of the integrated machine body.

9. The integrated water quality real-time monitoring equipment as claimed in claim 1, wherein: and a top protection plate is arranged at the top of the integrated machine body.