CN217483940U - Water quality monitoring device - Google Patents

Abstract

The utility model relates to a water quality monitoring device, it includes water intaking pump, clarifier and water quality analysis instrument, its characteristics are: still include the shell, washing subassembly and gas washing subassembly, it sets up the intake pump respectively to equally divide in the shell, the clarifier, water quality analysis instrument, the waste liquid bucket, the washing subassembly, the gas washing subassembly, control assembly and communication module, the top surface of shell is arranged in to power supply module one end, the shell is arranged in to the other end, the intake pump import with by monitoring water body intercommunication, the raw water import intercommunication of export and clarifier, the export of clarifier with by monitoring water body intercommunication, water quality analysis instrument and clarifier intercommunication, waste liquid export and waste liquid bucket intercommunication, the import of washing subassembly and the export intercommunication of intake pump, the export is located the solar cell panel top, the gas inlet and the external intercommunication of gas washing subassembly, a gas outlet is located the solar cell panel top, another gas outlet and clarifier intercommunication, power supply module does the water quality monitoring device power supply.

Description

Water quality monitoring device

Technical Field

The utility model relates to a quality of water on-line monitoring especially relates to quality of water monitoring point position remote, the power supply is inconvenient, is a water quality monitoring device, is applicable to the quality of water real-time supervision of surface water and sewage.

Background

The water quality monitoring device is important equipment for monitoring the water quality of surface water and sewage source water bodies, and generally comprises a water taking pump, a clarifier, a water quality analysis instrument, an air pump and a waste liquid barrel, wherein the water taking pump is used for collecting raw water and conveying the collected raw water into the clarifier, the water quality analysis instrument starts to detect the raw water, a detection result is transmitted into a controller, the controller is used for arranging and classifying the detection result, the detection result is displayed on an industrial touch screen, and meanwhile, wireless remote transmission is carried out through a communication module. Dispose the air pump in the device, can carry out the air purge to the clarifier, reach the inside purpose of blasting the clarifier, dispose the waste liquid bucket in the device, can collect the reagent waste liquid that produces in the water quality analysis instrument testing process. On the basis of the device, the power consumption of the water quality monitoring device in the prior art is completely provided by the solar cell panel and the battery pack which are configured per se, the solar cell panel is arranged above the device, the inclination angle of the solar cell panel is adjusted by the stay bar, and the azimuth angle of the solar cell panel is controlled by the turntable so as to obtain the maximum light energy in limited illumination time. The method can be widely applied to automatic monitoring of surface water of rivers, lakes, reservoirs and the like far away from a power supply and on-line monitoring of water quality of a sewage discharge port.

At present, the water quality monitoring devices of most manufacturers are of split structures, all functional units are installed in a dispersed mode, the occupied area is large, the energy consumption of equipment is high, the power consumption is large, and the manual maintenance amount is large. The water quality monitoring device provided with the solar power supply facility has the advantages that impurities and dirt are attached to the surface of the solar cell panel due to long-time use, so that the solar utilization rate is low, and power failure accidents can happen in severe cases. Once the power failure condition occurs, the water quality monitoring device stops working, and the real-time performance of water quality monitoring is influenced.

Disclosure of Invention

The utility model discloses the technical problem that will solve is: overcomes the defects of the prior art and provides a water quality monitoring device.

The utility model provides a technical problem's scheme is: the utility model provides a water quality monitoring device, it includes water intaking pump, clarifier, water quality analysis instrument, waste liquid bucket, control assembly, communication module and power supply module, characterized by: the water quality analysis instrument is characterized by further comprising a shell, a water washing component and a gas washing component, wherein the lower portion of the shell is respectively provided with a water inlet and a water outlet, the upper portion of the shell is provided with an observation port, the shell is internally provided with the water taking pump, the clarifier, the water quality analysis instrument, the waste liquid barrel, the water washing component, the gas washing component, the control component and the communication module, one end of the power supply component is arranged on the top surface of the shell, the other end of the power supply component is arranged in the shell, the inlet of the water taking pump is communicated with a monitored water body through the water inlet of the shell, the outlet of the water taking pump is communicated with the raw water inlet of the clarifier, the outlet of the clarifier is communicated with the monitored water body through the water outlet of the shell, the raw water inlet of the water quality analysis instrument is communicated with the clarifier, the waste liquid outlet of the waste liquid barrel, and the inlet of the water taking pump are communicated with the outlet of the water taking pump, the outlet of the washing component extends upwards out of the top end of the shell and is positioned above the solar panel of the power supply component, the gas inlet of the gas washing component is communicated with the outside, one gas outlet of the gas washing component extends upwards out of the top end of the shell and is positioned above the solar panel of the power supply component, the other gas outlet of the gas washing component is communicated with the clarifier, the control assembly is respectively and electrically connected with the water taking pump, the clarifier, the water quality analysis meter, the water washing assembly, the air washing assembly and the power supply assembly, the industrial touch screen of the control component is arranged at the viewing port of the shell and is fixedly connected, the display interface of the industrial touch screen faces the outside of the shell, the communication module is in signal connection with a controller of the control assembly and in signal connection with a remote wireless signal, and the power supply assembly supplies power for the water quality monitoring device.

The clarifier comprises a cavity, a first valve, a second valve, a sampling tube, a float washing disc and a float liquid level meter, the bottom surface of the cavity is provided with an outlet, the top surface or the upper part of the cavity is provided with an inlet, the outlet of the bottom surface of the cavity is provided with the first valve, the first valve is communicated with the water outlet of the shell, used for discharging the raw water in the cavity, the inlet on the top surface or the upper part of the cavity is provided with the second valve which is used for connecting the water taking pump, the sampling tube is arranged on the top surface of the cavity body, the lower end of the sampling tube extends into the cavity body, the upper end of the sampling tube is communicated with the water quality analysis instrument, is used for conveying the settled raw water in the cavity to a water quality analysis meter, the floating washing disc is arranged in the cavity and is connected with the cavity in a sliding way, clarifying solution for filtering raw water and cleaning the inner wall of the cavity, wherein the floater liquid level meter is arranged in the cavity and fixedly connected with the cavity, the upper end of the floater liquid level meter is positioned outside the cavity, the first valve, the second valve and the float liquid level meter are electrically connected with a controller of the control assembly respectively.

The clarifier sets up raw water inlet tube and connecting pipe, raw water inlet tube upper end side sets up water inlet, top shutoff, the bottom is opened, the side sets up a plurality of gas pockets that explode, and in the cavity was arranged in to the raw water inlet tube, the import that the raw water inlet tube upper end passed the top surface stretches out outside the cavity, and with cavity import sealing connection, raw water inlet tube lower extreme is located the cavity bottom, the upper end of connecting pipe links firmly with the water inlet intercommunication of raw water inlet tube, lower extreme and is used for connecting the second valve of fetching the water pump.

A raw water inlet pipe of the clarifier is sleeved with a limit stop block and used for limiting the position of a floatation tray, and the floatation tray is sleeved on the raw water inlet pipe and below the limit stop block and is in sliding connection.

The clarifier is provided with an overflow pipe, the upper end of the overflow pipe is in sealing connection with an overflow port arranged on the side face of the cavity, and the lower end of the overflow pipe is in sealing connection with an outlet of the first valve.

The flotation basin of clarifier is including floating body, rotatory tray, coarse strainer and doctor-bar, float the body and be the tourus, float the body and cup joint on the raw water inlet tube, limit stop's below and sliding connection, rotatory tray is hollow discoid, and discoid rotatory tray surface sets up a plurality of axial through hole, and rotatory tray cup joints on the raw water inlet tube, arranges the higher authority that floats the body in and floats the body and links firmly with floating the body, the coarse strainer arranges in a plurality of axial through hole that rotatory tray set up and links firmly, the peripheral surface of rotatory tray is arranged in to the doctor-bar and links firmly, doctor-bar and cavity inner wall contact.

The washing subassembly includes washing pipeline, washing head and washing valve, the entry of washing pipeline and the delivery side of water intaking pump intercommunication, export with the entry intercommunication of washing head, the washing head is arranged in the solar cell panel top of power supply module and is linked firmly with the shell, and the export of washing head is towards solar cell panel, sets up on the washing pipeline the washing valve, the washing valve with control assembly's controller electricity is connected.

The air washing assembly comprises an air pump, an air washing pipeline, a first branch pipeline, an air washing head, a second branch pipeline, an air washing valve and an air mixing valve, an air inlet of the air pump is communicated with the outside, an air outlet of the air pump is communicated with an inlet of the air washing pipeline, the air washing pipeline is provided with a first exhaust port and a second exhaust port which are connected in parallel, an inlet of the first branch pipeline is communicated with a first exhaust port of the air washing pipeline, an outlet of the first branch pipeline is communicated with an inlet of the air washing head, the air washing head is arranged above a solar cell panel of the power supply assembly and fixedly connected with the shell, an outlet of the air washing head faces towards the solar cell panel, an inlet of the second branch pipeline is communicated with a second exhaust port of the air washing pipeline, an outlet of the second branch pipeline extends into the clarifier, a part of the second branch pipeline, which is positioned in the clarifier, penetrates through the air valve and is arranged in a raw water inlet pipe of the clarifier, the air washing valve is arranged on the first branch pipeline, the second branch pipeline is provided with the air mixing valve, the air pump, the air washing valve and the air mixing valve are respectively electrically connected with the controller of the control assembly.

The control assembly includes controller and industry touch-sensitive screen, the controller equally divide do not with the water intaking pump the first valve of clarifier the second valve of clarifier the float level gauge of clarifier quality of water analysis instrument the washing valve of washing subassembly the air pump of gas washing subassembly the gas washing valve of gas washing subassembly the gas mixing valve of gas washing subassembly with power supply module electricity is connected, industry touch-sensitive screen with controller signal connection.

The power supply module comprises a rotary table, support rods, a solar cell panel and a battery pack, wherein the rotary table is arranged on the top surface of the shell and fixedly connected with the top surface of the shell, at least two support rods are arranged on the rotary table of the rotary table and fixedly connected with the rotary table, the solar cell panel is arranged on the support rods and hinged to the support rods, the battery pack is arranged in the shell and fixedly connected with the shell, the solar cell panel is electrically connected with the battery pack and uniformly connected with a controller, electric energy is provided for the controller, and the rotary table is electrically connected with the controller of the support rods and the control module to receive instructions.

The utility model discloses a working process is:

1, a water taking pump collects raw water and enters a clarifier, the clarifier clarifies a water sample, and a water quality analysis instrument samples and analyzes the clarified water sample;

2, the analysis result of the water quality analysis instrument is received by the controller for data processing and then transmitted to a remote data center through the communication module;

3, discharging the waste liquid generated by the water quality analysis meter into a waste liquid barrel in a centralized manner, and taking away and treating the waste liquid periodically;

4, the drain valve is closed after discharging the raw water in the clarifier after the water quality analysis instrument is sampled;

5 in the intermittent period of the measurement of the water quality analysis instrument, the washing valve is periodically opened, the water taking pump is simultaneously started, and water is pumped to pass through the washing head of the washing component for spraying and cleaning the solar cell panel;

6, in the intermittent period of the measurement of the water quality analysis instrument, the gas washing valve is opened periodically, and the pressure gas is blown and cleaned through the gas washing head of the gas washing component;

7 in the intermittent period of the measurement of the water quality analysis instrument, the gas mixing valve is opened periodically, and the pressure gas enters the clarifier to be mixed with water and gas, so that the cleaning effect is achieved;

8, fixing the solar cell panel arranged at the upper part of the device by using a support rod, and adjusting the horizontal inclination angle of the solar cell panel according to the geographical position of the device to obtain the optimal illumination angle;

and 9, a solar cell panel and a support rod of the power supply assembly are fixed on a rotating disc of the rotating disc, and the rotating disc is controlled to rotate through the controller to perform sun tracking action so as to obtain the maximum illumination time.

The utility model has the advantages that: its water quality monitoring device in integrated shell, can enough realize the real-time on-line monitoring of quality of water, the split type water quality monitoring device of prior art has been solved again, each functional unit dispersion installation, area is big, equipment energy consumption is high, the power consumption is big, the very big problem of manual maintenance volume, and simultaneously, washing subassembly and gas washing subassembly can regularly wash and gas wash cleanly to solar cell panel, the water quality monitoring device who installs solar energy power supply facility of prior art has been solved, because long-time the use, solar cell panel surface adheres to impurity, the filth, lead to the solar energy low-usage, probably take place the outage accident during serious, in case take place the outage condition and will cause water quality monitoring device stop work, influence water quality monitoring's real-time problem. The clarifier of its setting possesses sample, clarification, automatically cleaning and supplementary gas washing function, can avoid secondary to intake and cause cross contamination, provides the raw water that keeps real-time and uniqueness for water quality analysis instrument, ensures water quality monitoring's real-time and accuracy.

The device has the advantages of simple structure, low cost, small maintenance amount, low maintenance frequency, convenient maintenance, self-sufficient electric energy and good use effect.

Drawings

FIG. 1 is a schematic structural view of the water quality monitoring device of the present invention;

FIG. 2 is a schematic view of the structure of the clarifier of the water quality monitoring device of the utility model;

FIG. 3 is a schematic view of the structure of the float plate of the water quality monitoring device of the present invention;

fig. 4 is a schematic structural view of a water quality monitoring apparatus according to embodiment 2.

In the figure: 1 water taking pump, 2 first valve, 3 clarifier, 4 second valve, 5 water washing valve, 6 gas mixing valve, 7 gas washing valve, 8 sampling tube, 9 water quality analyzer, 10 water washing pipeline, 11 first branch pipeline, 12 water washing head, 13 gas washing head, 14 solar cell panel, 15 stay bar, 16 rotary disc, 17 shell, 18 battery pack, 19 industrial touch screen, 20 wireless signal, 21 communication module, 22 controller, 23 gas washing pipeline, 24 air pump, 25 second branch pipeline, 26 waste liquid barrel, 27 connecting pipe, 28 floater liquidometer, 29 limit stop, 30 rotating tray, 31 coarse strainer, 32 doctor blade, 33 float body, 34 cavity, 35 raw water gas explosion hole, 36 water inlet pipe, 37 overflow pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, in embodiment 1, the water quality monitoring device of this embodiment includes a housing 17, a water intake pump 1, a clarifier 3, a water quality analyzer 9, a waste liquid tank 26, a water washing component, an air washing component, a control component, a communication module 21, and a power supply component, wherein a water inlet and a water outlet are respectively formed in a lower portion of the housing 17, an observation port is formed in an upper portion of the housing, the water intake pump 1, the clarifier 3, the water quality analyzer 9, the waste liquid tank 26, the water washing component, the air washing component, the control component, and the communication module 21 are respectively formed in the housing 17, one end of the power supply component is disposed on a top surface of the housing 17, and the other end of the power supply component is disposed in the housing 17, an inlet of the water intake pump 1 is communicated with a monitored water body through the water inlet of the housing 17, an outlet of the water intake pump 1 is communicated with an inlet of the clarifier 3, the export of clarifier 3 through the outlet of shell 17 with by monitoring water body intercommunication, the raw water entry of water quality analysis instrument 9 with clarifier 3 intercommunication, waste liquid export with waste liquid bucket 26 intercommunication, the import of washing subassembly with the export intercommunication of water intaking pump 1, the export of washing subassembly upwards stretches out the shell 17 top, and is located the solar cell panel 14 top of power supply module, the gas inlet and the external intercommunication of gas washing subassembly, the gas outlet of gas washing subassembly upwards stretches out the shell 17 top, and is located the solar cell panel 14 top of power supply module, another gas outlet of gas washing subassembly with clarifier 3 intercommunication, control assembly divide equally respectively with water intaking pump 1, clarifier 3 water quality analysis instrument 9 the water washing subassembly the gas washing subassembly with the power supply module electricity is connected, the industrial touch screen 19 of the control assembly is arranged at the observation port of the shell 17 and fixedly connected, the display interface of the industrial touch screen 19 faces the outside of the shell 17, the communication module 21 is in signal connection with the controller 22 of the control assembly, meanwhile, the communication module 21 sends a wireless signal 20 to a far end, and the power supply assembly supplies power for the water quality monitoring device.

The clarifier 3 comprises a cavity 34, a first valve 2, a second valve 4, a sampling tube 8, a floatation tray and a floater liquid level meter 28, wherein the bottom surface of the cavity 34 is provided with an outlet, a top surface or an upper part for providing an inlet, the outlet at the bottom surface of the cavity 34 is provided with the first valve 2, the first valve 2 is communicated with a water outlet of the shell 17 for discharging raw water in the cavity 34, the inlet at the top surface of the cavity 34 is provided with the second valve 4 for connecting the water taking pump 1, the sampling tube 8 is arranged at the top surface of the cavity 34, the lower end of the sampling tube 8 extends into the cavity 34, the upper end of the sampling tube is communicated with a water quality analysis meter 9 for conveying the clarified raw water in the cavity 34 to the water quality analysis meter 9, the floatation tray is arranged in the cavity 34 and is in sliding connection with the raw water for filtering out clarified liquid and cleaning the inner wall of the cavity 34, the floater liquid level meter 28 is arranged in the cavity 34 and fixedly connected with the floater liquid level meter 28, the upper end of the floater liquid level meter is arranged outside the cavity 34, the first valve 2, the second valve 4 and the float level gauge 28 are each electrically connected to the controller 22 of the control assembly.

Clarifier 3 sets up raw water inlet tube 36 and connecting pipe 27, raw water inlet tube 36 upper end side sets up water inlet, top shutoff, the bottom is opened, the side sets up a plurality of blowholes 35, and raw water inlet tube 36 is arranged in cavity 34, and the import that raw water inlet tube 36 upper end passed the top surface stretches out outside cavity 34, and with cavity 34 import sealing connection, and raw water inlet tube 36 lower extreme is located cavity 34 bottom, the upper end of connecting pipe 27 links firmly with the water inlet intercommunication of raw water inlet tube 36, lower extreme and is used for connecting the second valve 4 of getting water pump 1.

A raw water inlet pipe 36 of the clarifier 3 is sleeved with a limit stop 29 and used for limiting the position of a float washing disc, and the float washing disc is sleeved on the raw water inlet pipe 36 and below the limit stop 29 and is in sliding connection.

The clarifier 3 is provided with an overflow pipe 37, the upper end of the overflow pipe 37 is hermetically connected with an overflow port arranged on the side surface of the cavity 34, and the lower end of the overflow pipe 37 is hermetically connected with an outlet of the first valve 2.

The flotation basin of clarifier 3 is including floating body 33, rotatory tray 30, coarse strainer 31 and doctor-bar 32, float body 33 and be the tourus, float body 33 and cup joint on raw water inlet tube 36, limit stop 29's below and sliding connection, rotatory tray 30 is hollow discoid, and discoid rotatory tray 30 surface sets up a plurality of axial through hole, and rotatory tray 30 cup joints on raw water inlet tube 36, arranges the higher authority that floats body 33 in and links firmly with floating body 33, coarse strainer 31 arranges in a plurality of axial through hole that rotatory tray 30 set up and links firmly, the peripheral surface of rotatory tray 30 is arranged in and links firmly in doctor-bar 32, doctor-bar 32 and the contact of cavity 34 inner wall.

The washing subassembly includes washing pipeline 10, washing head 12 and washing valve 5, the entry of washing pipeline 10 and the export intercommunication of water intaking pump 1, export with the entry intercommunication of washing head 12, washing head 12 arranges power supply module's solar cell panel 14 top in and links firmly with shell 17, and washing head 12's export sets up on washing pipeline 10 washing valve 5 towards solar cell panel 14, washing valve 5 with control assembly's controller 22 electricity is connected.

The air washing assembly comprises an air pump 24, an air washing pipeline 23, a first branch pipeline 11, an air washing head 13, a second branch pipeline 25, an air washing valve 7 and an air mixing valve 6, an air inlet of the air pump 24 is communicated with the outside, an air outlet of the air pump 24 is communicated with an inlet of the air washing pipeline 23, the air washing pipeline 23 is provided with a first exhaust port and a second exhaust port which are connected in parallel, an inlet of the first branch pipeline 11 is communicated with a first exhaust port of the air washing pipeline 23, an outlet of the first branch pipeline is communicated with an inlet of the air washing pipeline 13, the air washing head 13 is arranged above a solar cell panel 14 of the power supply assembly and fixedly connected with a shell 17, an outlet of the air washing head 13 faces towards the solar cell panel 14, an inlet of the second branch pipeline 25 is communicated with a second exhaust port of the air washing pipeline 23, an outlet of the second branch pipeline 25 extends into the clarifier 3, and part of the second branch pipeline 25, which is positioned in the clarifier 3, penetrates through a raw water inlet pipe 36 of the clarifier 3, the air washing valve 7 is arranged on the first branch pipeline 11, the air mixing valve 6 is arranged on the second branch pipeline 25, and the air pump 24, the air washing valve 7 and the air mixing valve 6 are respectively and electrically connected with the controller 22 of the control assembly.

The control assembly includes controller 22 and industry touch-sensitive screen 19, controller 22 equally divide respectively with the water intaking pump 1 the first valve 2 of clarifier 3 the second valve 4 of clarifier 3 the float level gauge 28 of clarifier 3 quality of water analysis instrument 9 the washing valve 5 of washing subassembly the air pump 24 of gas washing subassembly the gas washing valve 7 of gas washing subassembly the gas mixing valve 6 of gas washing subassembly with the power supply module electricity is connected, industry touch-sensitive screen 19 with controller 22 signal connection.

The power supply module comprises a rotary disc 16, support rods 15, a solar cell panel 14 and a battery pack 18, wherein the rotary disc 16 is arranged on the top surface of a shell 17 and fixedly connected with the top surface, at least two support rods 15 are arranged on a rotary disc of the rotary disc 16 and fixedly connected with the rotary disc, the solar cell panel 14 is arranged on the support rods 15 and hinged with the battery pack 18, the battery pack 18 is arranged in the shell 17 and fixedly connected with the battery pack 18, the solar cell panel 14 is electrically connected with the battery pack 18, the solar cell panel 14 and the battery pack 18 are electrically connected with a controller 22 respectively to provide electric energy for the controller 22, and the rotary disc 16 and the support rods 15 are electrically connected with the controller 22 of the control module to receive instructions.

The first valve 2, the second valve 4 and the water washing valve 5 are electric ball valves.

The gas mixing valve 6 and the gas washing valve 7 are electromagnetic valves.

The water taking pump 1, the first valve 2, the second valve 4, the water washing valve 5, the air mixing valve 6, the air washing valve 7, the float liquid level meter 28, the water quality analysis instrument 9, the air pump 24, the controller 22, the industrial touch screen 19, the communication module 21, the solar cell panel 14, the turntable 16 and the battery pack 18 are all commercially available products in the prior art.

The working process of the embodiment is as follows:

the method comprises the following steps that 1, a water taking pump 1 collects raw water to enter a clarifier 3, the clarifier 3 clarifies a water sample, and a water quality analysis instrument 9 is waited for sampling and analyzing the clarified water sample;

2, the analysis result of the water quality analysis instrument 9 is received by the controller 22 for data processing and then is transmitted to a remote data center through the communication module;

3, the waste liquid generated by the water quality analysis meter 9 is intensively discharged into a waste liquid barrel 26 and is taken away for treatment at regular intervals;

4, the drain valve is closed after discharging the raw water in the clarifier 3 after the water quality analyzer 9 samples;

5 in the intermittent period of the measurement of the water quality analysis instrument 9, the washing valve 5 is periodically opened, the water taking pump 1 is started simultaneously, and water is pumped to spray and clean the solar cell panel 14 through the washing head 12 of the washing component;

in the intermittent period of the measurement of the water quality analysis instrument 9, the gas washing valve 7 is opened periodically, and the pressure gas sweeps and cleans the solar cell panel 14 through a gas washing head 13 of the gas washing component;

7 in the intermittent period measured by the water quality analyzer 9, the gas mixing valve 6 is periodically opened, and the pressure gas enters the clarifier 3 to mix water and gas, so as to achieve the cleaning effect;

8, a solar panel 14 arranged at the upper part of the device is fixed by a support rod 15, and the horizontal inclination angle of the solar panel 14 is adjusted according to the geographical position of the device to obtain the optimal illumination angle;

the solar cell panel 14 and the stay bar 15 of the 9 power supply assembly are fixed on a rotating disc of the rotating disc 16, and the rotating disc is controlled by the controller 22 to rotate to perform sun tracking so as to obtain the maximum illumination time.

Referring to fig. 4, embodiment 2 is substantially the same as embodiment 1 except that the inlet of the clarifier 3 is different, the inlet of the upper side of the chamber 34 of the clarifier 3 is provided with an inlet, and the inlet of the upper side of the chamber 34 is provided with the second valve 4 for connecting the water-taking pump 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a water quality monitoring device, it includes water intaking pump, clarifier, water quality analysis instrument, waste liquid bucket, control assembly, communication module and power supply module, characterized by: the water quality analysis instrument further comprises a shell, a water washing component and a gas washing component, wherein the lower part of the shell is provided with a water inlet and a water outlet, the upper part of the shell is provided with an observation port, the shell is internally provided with the water taking pump, the clarifier, the water quality analysis instrument, the waste liquid barrel, the water washing component, the gas washing component, the control component and the communication module, one end of the power supply component is arranged on the top surface of the shell, the other end of the shell is arranged in the shell, the inlet of the water taking pump is communicated with a monitored water body through the water inlet of the shell, the outlet of the water taking pump is communicated with the raw water inlet of the clarifier, the outlet of the clarifier is communicated with the monitored water body through the water outlet of the shell, the raw water inlet of the water quality analysis instrument is communicated with the clarifier, the waste liquid outlet is communicated with the waste liquid barrel, the inlet of the water washing component is communicated with the outlet of the water taking pump, the outlet of the washing component extends upwards out of the top end of the shell and is positioned above the solar panel of the power supply component, the gas inlet of the gas washing component is communicated with the outside, one gas outlet of the gas washing component extends upwards out of the top end of the shell and is positioned above the solar panel of the power supply component, the other gas outlet of the gas washing component is communicated with the clarifier, the control component is respectively and electrically connected with the water taking pump, the clarifier, the water quality analysis meter, the water washing component, the air washing component and the power supply component, the industrial touch screen of the control component is arranged at the observation port of the shell and is fixedly connected, the display interface of the industrial touch screen faces to the outside of the shell, the communication module is in signal connection with a controller of the control assembly and in signal connection with a remote wireless signal, and the power supply assembly supplies power to the water quality monitoring device.

2. A water quality monitoring apparatus as claimed in claim 1, wherein: the clarifier comprises a cavity, a first valve, a second valve, a sampling pipe, a float washing disc and a float liquid level meter, the bottom surface of the cavity is provided with an outlet, the top surface or the upper part of the cavity is provided with an inlet, the outlet of the bottom surface of the cavity is provided with the first valve which is communicated with the water outlet of the shell, used for discharging the raw water in the cavity, the inlet on the top surface or the upper part of the cavity is provided with the second valve which is used for connecting the water taking pump, the sampling tube is arranged on the top surface of the cavity, the lower end of the sampling tube extends into the cavity, the upper end of the sampling tube is communicated with the water quality analysis instrument, is used for conveying the settled raw water in the cavity to a water quality analysis meter, the floating disc is arranged in the cavity and is connected with the cavity in a sliding way, clarifying solution for filtering raw water and cleaning the inner wall of the cavity, wherein the floater liquid level meter is arranged in the cavity and fixedly connected with the cavity, the upper end of the floater liquid level meter is positioned outside the cavity, the first valve, the second valve and the float liquid level meter are electrically connected with a controller of the control assembly respectively.

3. A water quality monitoring apparatus as claimed in claim 2, wherein: the clarifier sets up raw water inlet tube and connecting pipe, raw water inlet tube upper end side sets up water inlet, top shutoff, the bottom is opened, the side sets up a plurality of and explodes the gas pocket, the raw water inlet tube is arranged in the cavity, the import that the top surface was passed to raw water inlet tube upper end stretches out outside the cavity, and with cavity import sealing connection, raw water inlet tube lower extreme is located the cavity bottom, the upper end of connecting pipe links firmly with the water inlet intercommunication of raw water inlet tube, lower extreme and is used for connecting the second valve of getting the water pump.

4. A water quality monitoring apparatus according to claim 3, wherein: the raw water inlet pipe is sleeved with a limit stop block and used for limiting the position of the floatation tray, and the floatation tray is sleeved on the raw water inlet pipe and below the limit stop block and is in sliding connection.

5. A water quality monitoring apparatus as claimed in claim 2, wherein: the clarifier is provided with an overflow pipe, the upper end of the overflow pipe is in sealing connection with an overflow port arranged on the side face of the cavity, and the lower end of the overflow pipe is in sealing connection with an outlet of the first valve.

6. A water quality monitoring apparatus as claimed in claim 2, wherein: the floating washing disc comprises a floating body, a rotary tray, a coarse strainer and a scraper, wherein the floating body is a ring body, the floating body is sleeved on a raw water inlet pipe and is connected with the lower part of a limit stop block in a sliding manner, the rotary tray is in a hollow disc shape, the surface of the disc-shaped rotary tray is provided with a plurality of axial through holes, the rotary tray is sleeved on the raw water inlet pipe and is fixedly connected with the floating body on the floating body, the coarse strainer is arranged in the axial through holes of the rotary tray and is fixedly connected with the axial through holes, the scraper is arranged on the peripheral surface of the rotary tray and is fixedly connected with the outer peripheral surface of the scraper, and the scraper is in contact with the inner wall of the cavity.

7. A water quality monitoring apparatus as claimed in claim 1, wherein: the washing subassembly includes washing pipeline, washing head and washing valve, the entry of washing pipeline and the delivery side of water intaking pump intercommunication, export with the entry intercommunication of washing head, the washing head is arranged in the solar cell panel top of power supply module and is linked firmly with the shell, and the export of washing head is towards solar cell panel, sets up on the washing pipeline the washing valve, the washing valve with control assembly's controller electricity is connected.

8. A water quality monitoring apparatus as claimed in claim 1, wherein: the gas washing assembly comprises an air pump, a gas washing pipeline, a first branch pipeline, a gas washing head, a second branch pipeline, a gas washing valve and a gas mixing valve, an air inlet of the air pump is communicated with the outside, an air outlet of the air pump is communicated with an inlet of the gas washing pipeline, the gas washing pipeline is provided with a first exhaust port and a second exhaust port which are connected in parallel, an inlet of the first branch pipeline is communicated with a first exhaust port of the gas washing pipeline, an outlet of the first branch pipeline is communicated with an inlet of the gas washing head, the gas washing head is arranged above a solar cell panel of the power supply assembly and fixedly connected with the shell, an outlet of the gas washing head faces the solar cell panel, an inlet of the second branch pipeline is communicated with a second exhaust port of the gas washing pipeline, an outlet of the second branch pipeline extends into the clarifier, a part of the second branch pipeline, which is positioned in the clarifier, penetrates through a raw water inlet pipe of the clarifier, the gas washing valve is arranged on the first branch pipeline, the second branch pipeline is provided with the gas mixing valve, the air pump, the air washing valve and the air mixing valve are respectively and electrically connected with the controller of the control assembly.

9. A water quality monitoring apparatus as claimed in claim 1, wherein: the control assembly includes controller and industry touch-sensitive screen, the controller equally divide do not with the water intaking pump the first valve of clarifier the second valve of clarifier the float level gauge of clarifier quality of water analysis instrument the washing valve of washing subassembly the air pump of gas washing subassembly the gas washing valve of gas washing subassembly the gas mixing valve of gas washing subassembly with power supply module electricity is connected, industry touch-sensitive screen with controller signal connection.

10. A water quality monitoring apparatus as claimed in claim 1, wherein: the power supply module comprises a rotary table, support rods, a solar cell panel and a battery pack, wherein the rotary table is arranged on the top surface of the shell and fixedly connected with the top surface of the shell, at least two support rods are arranged on the rotary table of the rotary table and fixedly connected with the rotary table, the solar cell panel is arranged on the support rods and hinged to the support rods, the battery pack is arranged in the shell and fixedly connected with the shell, the solar cell panel is electrically connected with the battery pack and uniformly connected with a controller, electric energy is provided for the controller, and the rotary table is electrically connected with the controller of the support rods and the control module to receive instructions.

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