CN115078672B - Integrated water quality real-time monitoring equipment - Google Patents

Abstract

The invention relates to the technical field of water quality monitoring and discloses integrated water quality real-time monitoring equipment, which comprises an integrated machine body, wherein a pump body is arranged in the integrated machine body, the pump body is communicated with a water pumping pipe, the pump body is communicated with a water conveying pipe, the water conveying pipe is communicated with an algae primary filtering mechanism, the algae primary filtering mechanism comprises a transmission shunt pipe, a shunt output port is arranged in an array of the transmission shunt pipe, the shunt output port is communicated with a butt joint water conveying pipe, an L-shaped guide pipe is arranged in the transmission shunt pipe, and the L-shaped guide pipe is slidably provided with a pipe body algae filtering mechanism; according to the integrated water quality real-time monitoring device, the self-maintenance algae filtering mechanism is arranged between the pump body and the water quality sensor to form a pretreatment effect on sampling water, water pumped by the pump body enters the transmission shunt pipe through the water pipe, and the algae filtering net sheets in the pipe arranged in an array in the pipe body algae filtering mechanism are used for intercepting blocky algae in water, so that the transmission of algae is reduced.

Description

Integrated water quality real-time monitoring equipment

Technical Field

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

Background

At present, water resources in China are in shortage, the distribution is uneven, the water pollution is serious, the water quality monitoring is enhanced, the 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 in a laboratory, and has the defects of sampling and transportation problems, instrument lag, low efficiency and the like. Many online water quality sensors are also on the market, but are independent products, and problems of easy influence on monitoring data and even blockage and the like when algae and other impurities exist in the sampled water cause frequent overhauling and maintenance, so that the online water quality monitoring system is difficult to adapt to the current changeable requirements on online water quality monitoring.

Disclosure of Invention

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

The invention is realized by the following technical scheme.

The invention relates to an integrated water quality real-time monitoring device, which comprises an integrated machine body, wherein a pump body is arranged 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 shunt pipe, a shunt output port is arranged in an array of the transmission shunt pipe, the shunt output port is communicated with a butt joint water delivery pipe, an L-shaped guide pipe is arranged in the transmission shunt pipe, a pipe body algae filtering mechanism is arranged in the L-shaped guide pipe in a sliding manner, the pipe body algae filtering mechanism comprises a telescopic net sleeve, the front end of the telescopic net sleeve is provided with a plugging ring, the tail end of the telescopic net sleeve is provided with a functional rubber ring, an array of telescopic net sleeves is provided with an in-pipe algae filtering net sheet, a return spring is arranged between adjacent in-pipe algae filtering net sheets, the integrated machine body is internally provided with five groups of water quality sensors in an array, the integrated machine body is internally provided with a self-maintenance algae filtering mechanism, the self-maintenance algae filtering mechanism comprises an algae removal maintenance box, an array of the algae removal maintenance boxes is provided with opposite connection ends, a communication treatment square box is arranged outside the opposite connection ends, a microalgae blocking filtering mechanism is arranged in the communication treatment square box in a lifting and rotating manner, the communication treatment square box is communicated with a docking input pipe, the docking input pipe is communicated with a water quality sensor, the communication treatment square box is communicated with a water transfer pipe, the water transfer pipe is communicated with the docking water transfer pipe, the bottom of the algae removal maintenance box is communicated with an L-shaped communication piece, the L-shaped communication piece is communicated with the left side of the transmission shunt pipe, an L-shaped guide pipe penetrates through the L-shaped communication 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 a front door plate, the integrated machine body is internally provided with a blower, the blower is communicated with a drain valve pipe, the drain valve pipe is communicated with a water outlet of the water quality sensor, the output end of the drain valve pipe is communicated with a drain pipe, and the integrated machine body is internally provided with a data terminal.

Further technical scheme, little algae blocking filter constructs including seal base, seal base slide set up in dock the link, 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 dock input pipe inner wall, the algae circle net piece is installed to the function pole array, the function pole array is equipped with and blocks algae brush portion, the section layer otter board is installed in the function pole middle section, section layer otter board laminating dock input pipe bottom.

Further technical scheme, remove algae maintenance case inner wall array and install rotating electrical machines, rotating electrical machines symmetrical power is connected with the power shaft, and the upside go up the spiral board is installed to the power shaft, go up the spiral board and install electric telescopic handle, electric telescopic handle end-to-end connection seal the base.

Further technical scheme, the outermost rotating electrical machines downside power is connected with the backrush drive mechanism, the backrush drive mechanism includes the rotary rod, the rotary rod connect 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, backrush function board with be connected with reset soft spring between the jam ring, backrush function inboard symmetry is equipped with the backrush chamber, backrush intracavity installs the backrush motor, backrush motor power is connected with the spool, the driving wire body is installed to the spool, the driving wire body runs through the jam ring, driving wire body end-to-end connection in the function gum ring.

According to a further technical scheme, two in-tube algae filtering meshes are arranged at two sides of the split output port.

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

According to a further technical scheme, the electric ball valve is installed on the water suction pipe, the flowmeter is installed on the water delivery pipe, and the tail end of the water suction pipe is communicated with the external 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:

according to the integrated water quality real-time 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, the water pumped by the pump body enters the transmission shunt pipe from the water pipe, first, the algae in the water is intercepted by the algae filtering net sheets in the pipe arranged in an array in the pipe body algae filtering mechanism, so that the algae transmission is reduced, the primarily treated water enters the communication treatment square box through the docking water pipe and the water transmission pipe through the shunt output port, the microalgae filtering mechanism is arranged in the communication treatment square box, the sealing base in the microalgae filtering mechanism forms a blocking effect on the docking communication end to prevent the water from flowing downwards into the algae removal maintenance box, the algae blocking brush parts arranged in the microalgae filtering mechanism are matched with the algae circular net sheets, the algae blocking brush parts can realize better interception on the cross interception effect of the microalgae in the water and prevent the residual microalgae in the water from passing through the algae circular net sheets, and therefore the effect of efficiently treating the floating materials and the microalgae in the water is realized through the functional arrangement of the microalgae filtering mechanism and the pipe body algae filtering mechanism;

the integrated water quality real-time monitoring equipment of the invention can realize the effects of automatically maintaining and removing microalgae blocking and filtering mechanisms and pipe body filtering and reducing the manual maintenance frequency and avoiding the problem of long-time setting of the accumulation influence of internal algae through the arrangement of the algae removal maintenance box and the internal transmission structure, firstly, the rollback motor in the rollback functional plate is started to realize rollback of the transmission line body, thereby realizing pulling of the functional rubber ring, leading the functional rubber ring to be folded towards the blocking ring, compressing and closing the algae filtering net sheets in the pipe and return springs between the algae filtering net sheets in the pipe, leading the pipe body filtering and filtering mechanism to be integrally contracted, simultaneously realizing the attaching friction of the pipe wall in the transmission shunt pipe and removing algae possibly growing in the functional rubber ring and the blocking ring, leading the transmission line body to be further rolled back, the whole of the pipe body algae filtering mechanism driving the compressed state enters the algae removing maintenance box through the L-shaped communicating piece under the guidance of the L-shaped guide pipe, so that the pipe body algae filtering mechanism in the compressed state is arranged at the lower side of the rollback functional board, an electric telescopic rod is started in the rollback process to drive the microalgae blocking filtering mechanism to descend, the functional rod part at the lower side of the section layer screen plate enters the algae removing maintenance box, the inner wall of the abutting input pipe is wiped through a scraping rubber ring in the sliding process, then a rotating motor is started to drive a power shaft to rotate, the microalgae blocking filtering mechanism is rotated and thrown, the algae blocking brush part and the algae filtering round net piece intercept microalgae to throw out to the algae removing maintenance box, meanwhile, the power shaft at the lower end of the outermost rotating motor is connected with the rollback functional board and a rotating rod to enable the power shaft at the lower side to rotate, the pipe body algae filtering mechanism in the compressed state is driven to rotate, the pipe body algae filtering mechanism can be properly paid out through the rollback motor in the process, therefore, algae is intercepted in the pipe body algae filtering mechanism and thrown out to be stored in the algae removal maintenance box, and the automatic maintenance effect of the pipeline and the algae filtering functional piece is realized;

according to the integrated water quality real-time monitoring equipment, the microalgae blocking and filtering mechanism in each communication processing square box can be used for carrying out asynchronous descending maintenance processing, so that the interruption of a real-time monitoring system is avoided, the transmission monitoring function is not required to be stopped in the self-maintenance process, meanwhile, the automatic maintenance function realizes high-efficiency real-time monitoring, the monitoring accuracy is improved, meanwhile, the maintenance effect can be realized only by periodically opening the front door plate to clean impurities in the algae removal maintenance box, the maintenance frequency is greatly reduced, and the maintenance management work is simply realized without disassembling functional parts.

According to the integrated water quality real-time monitoring equipment, through the integrated design, the high-efficiency water quality transmission monitoring is realized, meanwhile, the maintenance frequency is greatly reduced, the maintenance work is effectively and simply realized, the reliability and the efficiency of the operation of the equipment are improved, the cloud uploading function is matched, and the real remote real-time water quality monitoring function effect can be realized under the effects of ensuring the accuracy of data, the stability of an organism and low maintenance cost.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

The invention will be further described with reference to the drawings 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 filtering mechanism 25 in FIG. 2;

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

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

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for convenience of description, the orientations described below are now defined as follows: the vertical, horizontal, front-rear directions described below are identical to the vertical, horizontal, front-rear directions of the projection relationship of fig. 1 itself.

1-5, an integrated real-time water quality monitoring device comprises an integrated machine body 11, wherein 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 conveying pipe 26, the water conveying pipe 26 is communicated with an algae primary filter mechanism 15, the algae primary filter mechanism 15 comprises a transmission shunt pipe 65, a shunt output port 66 is arranged in an array of the transmission shunt pipe 65, the shunt output port 66 is communicated with a butt joint water conveying pipe 34, an L-shaped guide pipe 57 is installed in the transmission shunt pipe 65, the L-shaped guide pipe 57 is slidably installed with a pipe body algae filtering mechanism 60, the pipe body algae filtering mechanism 60 comprises a telescopic net sleeve 64, the front end of the telescopic net sleeve 64 is provided with a plugging ring 59, the tail end of the telescopic net sleeve 64 is provided with a functional rubber ring 63, the telescopic net sleeve 64 is provided with an in-pipe algae filtering net piece 61, a return spring 62 is installed between the adjacent in-pipe algae filtering net pieces 61, five groups of water quality sensors 22 are arranged in the integrated machine body 11 in an array manner, the installation modes of the water quality sensors 22 are uniform and have interchangeability, different water quality sensors 22 can be installed according to actual needs, the accurate monitoring and uploading of data information such as conventional five parameters, ammonia nitrogen content, COD, TP, TN and the like in sampled water are realized through the water quality sensors 22, a self-maintenance algae filtering mechanism 20 is arranged in the integrated machine body 11, the self-maintenance algae filtering mechanism 20 comprises an algae removal maintenance box 35, the algae removal maintenance box 35 is provided with an opposite connection end 23 in an array manner, a communication processing square box 30 is arranged outside the opposite connection end 23, a microalgae blocking filtering mechanism 25 is installed in the communication processing square box 30 in a liftable and rotatable manner, the communication processing square box 30 is communicated with an opposite connection input pipe 32, the opposite connection input pipe 32 is communicated with the water quality sensors 22, the communication processing square box 30 is communicated with a water transmission pipe 33, the water transmission pipe 33 is communicated with the opposite connection water transmission pipe 34, the bottom of the algae removal maintenance box 35 is communicated with an L-shaped communicating piece 58, the L-shaped communicating piece 58 is communicated with the left side of a transmission shunt tube 65, an L-shaped guide tube 57 penetrates through the L-shaped communicating piece 58, the tail end of the L-shaped guide tube 57 is arranged in the algae removal maintenance box 35, a front door plate 36 is arranged on the side face of the algae removal maintenance box 35, a blower 29 is installed in the integrated machine body 11, the blower 29 is communicated with a drain valve tube 28, the drain valve tube 28 is communicated with a water outlet of the water quality sensor 22, the output end of the drain valve tube 28 is communicated with a drain tube 21, and a data terminal 13 is arranged in the integrated machine body 11.

During operation, the pump body 24 is used for pumping sample water in the external sedimentation tank, the water pipe 26 is used for transmitting the sample water to the self-maintenance algae filtering mechanism 20 for algae removal, the water quality sensor 22 is used for water quality monitoring to acquire data parameters, the data terminal 13 is used for data statistics, the communication module 16 can be used for cloud end uploading, thus real-time water quality data monitoring is realized, the sample water and redundant water are discharged outwards through the drain pipe 21 under the back-pumping effect of the blower 29 after the current water sample acquisition data are finished, the external sedimentation tank usually only can sediment in water and a large amount of algae can float in the water, the back-pumping sampling process is easy to cause pipeline accumulation and blockage and influence the data monitoring effect of the water quality sensor 22, the self-maintenance algae filtering mechanism 20 is arranged between the pump body 24 and the water quality sensor 22 for forming a pretreatment effect on the sample water, the water pumped by the pump body 24 enters the transmission shunt tube 65 through the water pipe 26, firstly, the in-tube algae filtering net sheet 61 arranged in the array in the tube body algae filtering mechanism 60 is used for intercepting blocky algae in water, so that the transmission of algae is reduced, the initially treated water enters the communication treatment square box 30 through the shunt output port 66 through the butt joint water transmission pipe 34 and the water transmission pipe 33, the microalgae blocking mechanism 25 is arranged in the communication treatment square box 30, the sealing base 43 in the microalgae blocking mechanism 25 forms a blocking effect on the butt joint communication end 23 to prevent the water from flowing downwards into the algae removal maintenance box 35, the algae blocking brush part 45 arranged in the microalgae blocking mechanism 25 is matched with the algae filtering circular net sheet 46, the algae blocking brush part 45 can realize the cross interception effect on the microalgae in water and matched with the algae filtering circular net sheet 46 to realize better interception to avoid the passing of residual microalgae in water, thereby realizing the effect of efficiently treating floating matters and microalgae in water through the functional arrangement of the microalgae blocking and filtering mechanism 25 and the pipe body filtering mechanism 60, simultaneously realizing the automatic maintenance and algae removal effect of the microalgae blocking and filtering mechanism 25 and the pipe body filtering mechanism 60 through the arrangement of the algae removal maintenance box 35 and the internal transmission structure, reducing the manual maintenance frequency and avoiding the problem of long-time setting of the influence of internal algae accumulation, firstly, realizing the rollback of the transmission line body 55 through the rollback motor 53 in the rollback functional plate 51, thereby realizing the pulling of the functional rubber ring 63, leading the functional rubber ring 63 to be folded towards the blocking ring 59, compressing and closing the pipe inner filtering net pieces 61 and the return springs 62 between the pipe inner filtering net pieces 61, leading the pipe body filtering mechanism 60 to be integrally contracted, meanwhile, algae possibly growing on the pipe wall can be removed by attaching friction on the pipe wall in the transmission shunt pipe 65 in the process of moving back the functional glue ring 63 and collecting algae in the space of the functional glue ring 63 and the blocking ring 59, the transmission line body 55 is further rewound, the pipe body algae filtering mechanism 60 in a compressed state is driven to enter the algae removal maintenance box 35 through the L-shaped communicating piece 58 under the guidance of the L-shaped guide pipe 57, the pipe body algae filtering mechanism 60 in a compressed state is placed on the lower side of the rewinding functional plate 51, the electric telescopic rod 40 is started in the process of rewinding, the microalgae blocking mechanism 25 is driven to descend, the functional rod 44 on the lower side of the section layer screen 49 enters the algae removal maintenance box 35, the scraping and moving rubber ring 48 is used for wiping the inner wall of the butt joint input pipe 32 in the sliding process, then the rotary motor 37 is started, the power shaft 39 is driven to rotate, the microalgae blocking mechanism 25 is driven to rotate and the algae blocking brush part 45 and the algae filtering round screen 46 are blocked and discharged into the algae removal maintenance box 35, meanwhile, the power shaft 39 at the lower end of the rotary motor 37 at the outermost side is connected with the rollback functional plate 51 and the rotary rod 50, so that the lower power shaft 39 rotates to drive the pipe body algae filtering mechanism 60 in a compressed state to rotate, in the process, the rollback motor 53 can properly pay off and loosen the pipe body algae filtering mechanism 60, so that algae is intercepted in the pipe body algae filtering mechanism 60 and thrown out to the algae removal maintenance box 35 for storage, the automatic maintenance effect of a pipeline and algae filtering functional parts is realized, meanwhile, the micro algae blocking mechanism 25 in each communication processing square box 30 is in asynchronous descending maintenance processing, the interruption of a real-time monitoring system is avoided, the transmission monitoring function is not needed, the processing is finished, the mechanisms are reset to normally operate, the front door plate 36 is periodically started to clean impurities in the algae removal maintenance box 35, the maintenance effect is realized, the maintenance frequency is greatly reduced, and the maintenance management work is simply achieved without disassembling functional parts.

Preferably, the microalgae blocking and filtering mechanism 25 comprises a sealing base 43, the sealing base 43 is slidably arranged at the opposite connecting end 23, a functional rod 44 is arranged on the sealing base 43, a top screen 47 is arranged at the tail end of the functional rod 44, a scraping rubber ring 48 is arranged outside the top screen 47, the scraping rubber ring 48 is attached to the inner wall of the butt joint input pipe 32, a algae filtering circular screen 46 is arranged on the functional rod 44 in an array, an algae blocking brush part 45 is arranged on the functional rod 44 in an array, a section layer screen 49 is arranged in the middle section of the functional rod 44, and the section layer screen 49 is attached to the bottom of the butt joint input pipe 32.

The sealing base 43 realizes the airtight treatment to the communicating end at the bottom of the communicating treatment square box 30 under the working state, and the segment layer mesh plate 49 realizes the segmentation effect so that the lower side of the segment layer mesh plate 49 realizes the main floating algae interception function, and the structure of the upper segment functional rod 44 part plays a role in further ensuring the effect of avoiding the transmission of residual microalgae through the butt joint input pipe 32.

Preferably, the inner wall array of the algae removal maintenance box 35 is provided with a rotating motor 37, the rotating motor 37 is symmetrically and dynamically connected with a power shaft 39, the power shaft 39 on the upper side is provided with an upper rotating plate 38, the upper rotating plate 38 is provided with an electric telescopic rod 40, 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 rotary motor 37 drives the algae to be thrown out.

Preferably, the lower side of the outermost rotating motor 37 is in power connection with a rewinding transmission mechanism 70, the rewinding transmission mechanism 70 comprises a rotating rod 50, the rotating rod 50 is connected to a power shaft 39 at the lower side, the rotating rod 50 is connected with the tail end of an L-shaped guide tube 57, the rotating rod 50 is provided with a rewinding functional plate 51, a reset soft spring 56 is connected between the rewinding functional plate 51 and a blocking ring 59, rewinding cavities 52 are symmetrically arranged in the rewinding functional plate 51, a rewinding motor 53 is arranged in the rewinding cavities 52, the rewinding motor 53 is in power connection with a winding shaft 54, the winding shaft 54 is provided with a driving wire body 55, the driving wire body 55 penetrates through the blocking ring 59, and the tail end of the driving wire body 55 is connected to a functional rubber ring 63.

The rolling tube algae filtering mechanism 60 is retracted and moved into the algae removal maintenance box 35 by the rolling motor 53 in the rolling transmission mechanism 70 for automatic algae removal.

Preferably, two in-pipe algae filtering meshes 61 are arranged at two sides of the split output port 66.

The in-tube algae screen sheet 61 is arranged at two sides of the diversion output port 66, so that the effect of preventing algae from passing through can be improved.

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 interaction screen 14 can be used for checking and remote monitoring of cloud end uploading through the communication module 16.

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

The electric ball valve 19 controls the communication and closing of the water suction pipe 18, and the flow meter 27 performs flow statistics.

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

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

Preferably, the top of the integrated fuselage 11 is provided with a top shield 12.

The top protection plate 12 has a surface area larger than that of the integrated body 11 to realize the protection effect on the body.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and implement it without limiting the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (9)

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, the pump body intercommunication has the drinking-water pipe, the pump body intercommunication has the raceway, its characterized in that: the water pipe is communicated with an algae primary filtering mechanism, the algae primary filtering mechanism comprises a transmission shunt pipe, a shunt output port is arranged in an array of the transmission shunt pipe, the shunt output port is communicated with a butt joint water transmission pipe, an L-shaped guide pipe is arranged in the transmission shunt pipe, the L-shaped guide pipe is slidably provided with a pipe body algae filtering mechanism, the pipe body algae filtering mechanism comprises a telescopic net sleeve, a plugging ring is arranged at the front end of the telescopic net sleeve, a functional rubber ring is arranged at the tail end of the telescopic net sleeve, an in-pipe algae filtering net sheet is arranged in the telescopic net sleeve array, a return spring is arranged between adjacent in-pipe algae filtering net sheets, five groups of water quality sensors are arranged in the integrated machine body in an array, a self-maintenance algae filtering mechanism is arranged in the integrated machine body, the self-maintenance algae filtering mechanism comprises an algae removing maintenance box, the algae removing maintenance box array is provided with a butt joint end, the outside of the butt joint communicating end is provided with a communicating square box, a microalgae blocking and filtering mechanism is rotatably arranged in the communicating square box in a lifting way, the communicating square box is communicated with a butt joint input pipe, the butt joint input pipe is communicated with the water quality sensor, the communicating square box is communicated with a water transfer pipe, the water transfer pipe is communicated with the butt joint water transfer pipe, the bottom of the algae removal maintenance box is communicated with an L-shaped communicating piece, the L-shaped communicating piece is communicated with the left side of the transmission shunt pipe, the L-shaped guide pipe passes through the L-shaped communicating piece, the tail end of the L-shaped guide pipe is arranged in the algae removal maintenance box, a front door plate is arranged on the side surface of the algae removal maintenance box, a blower is arranged in the integrated machine body, the 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.

2. The integrated water quality real-time monitoring device according to claim 1, wherein: the microalgae blocking filter mechanism comprises a sealing base, the sealing base is arranged at the butt joint communication end in a sliding mode, a functional rod is arranged at the sealing base, a top screen plate is arranged at the tail end of the functional rod, a scraping rubber ring is arranged at the outer side of the top screen plate, the scraping rubber ring is attached to the inner wall of the butt joint input pipe, a seaweed filtering circular net sheet is arranged at the functional rod array, a seaweed blocking brush part is arranged at the functional rod array, a section layer screen plate is arranged at the middle section of the functional rod, and the section layer screen plate is attached to the bottom of the butt joint input pipe.

3. An integrated water quality real-time monitoring device according to claim 2, characterized in that: the utility model discloses a sealed base, including the algae removal maintenance case inner wall array, the rotatory motor is installed to the algae removal maintenance case inner wall array, rotatory motor symmetry power is connected with the power shaft, and the upside go up the board is installed to the power shaft, go up the board and install electric telescopic handle, electric telescopic handle end-to-end connection seal base.

4. An integrated water quality real-time monitoring device according to claim 3, characterized in that: the rotary motor downside power of the outermost is connected with the backrush drive mechanism, the backrush drive mechanism includes the rotary rod, the rotary rod connect 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, backrush function board with be connected with reset soft spring between the jam ring, backrush function inboard symmetry is equipped with the backrush chamber, backrush intracavity installs the backrush motor, backrush motor power is connected with the spool, the driving wire body is installed to the spool, the driving wire body runs through the jam ring, driving wire body end-to-end connection in the function gum ring.

5. The integrated water quality real-time monitoring device according to claim 1, wherein: two filter net sheets in the pipe are arranged at the two sides of the split output port.

6. The integrated water quality real-time monitoring device according to claim 1, wherein: and the right side of the data terminal is provided with an interaction screen, and the integrated machine body is provided with a communication module.

7. The integrated water quality real-time monitoring device according to claim 1, wherein: the electric ball valve is installed on the water suction pipe, the flowmeter is installed on the water delivery pipe, and the tail end of the water suction pipe is communicated with the external sedimentation tank.

8. The integrated water quality real-time monitoring device according to 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 device according to claim 1, wherein: the top of the integrated machine body is provided with a top protection plate.