CN115508532A - Floated water quality testing device with show function - Google Patents

Abstract

The invention belongs to the technical field of water quality detection, and particularly relates to a suspended water quality detection device with a display function, which comprises a supporting assembly, a suspended carrier and a display assembly, wherein the supporting assembly comprises a concrete foundation block, a mounting seat, a movable bottom plate, a slide rail and an anchoring rod; the suspension carrier comprises a slide bar, a supporting seat and a floating body, and the inner cavity of the supporting seat is used as a water quality sampling area; the display assembly comprises a first supporting pipe, a second supporting pipe, a display board, a photovoltaic panel and an inclination adjusting mechanism, a water quality sampling system is arranged inside the first supporting pipe, and a water quality detection system is arranged inside the display board. The river and lake health monitoring system has a display function, detection results can be synchronously transmitted to the remote background terminal, the two-dimensional code of the river and lake health condition is formed through the river and lake health monitoring and evaluating system, people can master basic information, spatial distribution and health files of the current river by scanning the two-dimensional code, and monitoring personnel and broad masses can know dynamic conditions of river and lake water environment management.

Description

Floated water quality testing device with show function

Technical Field

The invention belongs to the technical field of water quality detection, and particularly relates to a suspension type water quality detection device with a display function.

Background

River and lake management protection is a complex system engineering, and relates to upstream and downstream, left and right banks, different administrative regions and industries. In recent years, river growth is actively explored in some areas, and the work of water resource protection, water area shoreline management, water pollution control, water environment treatment and the like is powerfully promoted. The comprehensive implementation of river growth is an effective measure for solving the problem of complex water and maintaining the healthy life of rivers and lakes, is an innovation for perfecting a water treatment system, and is an important measure for strengthening the management protection of rivers and lakes and guaranteeing the water safety.

The traditional water quality detection device has the defects in the use process, and firstly, the function is single, only the immobilized content can be displayed, and the river and lake water quality cannot be detected and displayed; secondly, the cleaning function is not provided, and the display area is easily covered by sludge splashed by vehicles coming and going; thirdly, the display content is greatly limited, which is not beneficial to understanding the specific management related information; fourthly, the current situation of river and lake water environment treatment cannot be monitored and checked in real time.

Therefore, it is necessary to provide a suspension type water quality detecting apparatus having a display function.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provide a suspension type water quality detection device with a display function.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

the invention provides a suspension type water quality detection device with a display function, which comprises:

the supporting assembly comprises a concrete foundation block, a mounting seat, a movable bottom plate, a slide rail and an anchoring rod, wherein the mounting seat is fixed on the inner side of the concrete foundation block, the two slide rails which are distributed side by side are mounted between the mounting seat and the movable bottom plate, the concrete foundation block is fixed on a bank of a river and lake embankment, an anchoring hole for conveniently mounting the anchoring rod is formed in the movable bottom plate, and the movable bottom plate is fixed at the bottom of a water body near the bank of the river and lake through the anchoring rod;

the suspension carrier comprises two sliding rods, a supporting seat and a floating body, the two sliding rods are symmetrically installed at the front end and the rear end of the supporting seat, the sliding rods are limited between the two sliding rails in a sliding mode and can slide along the length direction of the sliding rails, the floating body is installed on the outer side of the bottom end of the supporting seat, and an inner cavity of the supporting seat serves as a water quality sampling area;

display module, display module includes first stay tube, second stay tube, display panel, photovoltaic panel and transfers the mechanism of inclining, the bottom of display panel is fixed with the supporting seat through first stay tube, second stay tube, the front side of display panel is equipped with the show area, and photovoltaic panel and the mechanism of transferring inclining that is used for adjusting photovoltaic panel inclination are installed to the rear side, the internally mounted of first stay tube has quality of water sampling system, the inner chamber of first stay tube is as water route body inlet channel, the inner chamber of second stay tube is as circuit cable inlet channel, the inside of display panel is equipped with water quality testing system.

Furthermore, in the suspended water quality detection device, an embedded plate is embedded into the upper side of the concrete base block, and a safety protection fence is fixed on the upper side of the concrete base block through the embedded plate; a sliding groove convenient for the sliding rod to move is formed in the sliding rail, and the sliding rail is made of stainless steel materials.

Further, among the above-mentioned floated water quality testing device, water sampling system includes suction pump, sample tube and send a kind pipe, suction pump fixed mounting is in the inner chamber of first supporting tube, the input of suction pump is connected with the sample tube that stretches into water sampling district, and the output is connected with and sends a kind pipe.

Furtherly, among the above-mentioned floated water quality testing device, the transversal triangle-shaped structure of personally submitting of inner chamber of supporting seat, its rear end plate and downside swash plate equipartition have the micropore that is convenient for the water to get into the water quality sampling district, the last side inner wall of the side plate fixed mounting of supporting seat has trades liquid fan and temperature sensor, it is used for renewing the trade liquid to the sampling mouth department water of sampling tube to trade the liquid fan, temperature sensor is used for detecting the temperature.

Further, in the suspended water quality detection device, the water quality detection system comprises a controller, a water quality detection module, a plurality of display modules, a storage battery I and a wireless transceiver module, wherein the controller, the water quality detection module, the plurality of display modules, the storage battery I and the wireless transceiver module are arranged in a display panel; the display modules are low-power-consumption segment code screens embedded in the display area and can display numbers of 0-9.

Furthermore, in the suspension type water quality detection device, the liquid exchange fan and the temperature sensor are respectively connected with the controller through cables built in the circuit cable leading-in channel.

Furthermore, among the above-mentioned floated water quality testing device, pre-buried battery case of taking the lock in the concrete foundation block, install the battery II that can dismantle the change in the battery case, the one end connector of external cable is located the inner chamber of battery case, the other end runs through the supporting seat and is connected with the controller through circuit cable inlet channel, the part that exposes of external cable is equipped with the spiral flexible section that can adapt to the supporting seat displacement.

Further, among the above-mentioned floated water quality testing device, send the input intercommunication of appearance pipe and automatically controlled three-way valve, automatically controlled three-way valve's first output and water quality testing module's introduction port intercommunication, the modularization subassembly of being convenient for change of water quality testing module, automatically controlled three-way valve's second output respectively the management way with be located the washing terminals on show area top and be located the washing terminals on photovoltaic panel outside top intercommunication, the washing terminals on show area top can carry out surface cleaning to the show area through spraying water liquid, the washing terminals on photovoltaic panel outside top can carry out surface cleaning to the panel district through spraying water liquid.

Further, among the above-mentioned floated water quality testing device, transfer the mechanism of inclining including transferring motor, lead screw, activity otic placode, backup pad and the fixed otic placode, transfer the motor of inclining to fix the outer wall at the display panel, the output of transferring the motor of inclining is connected with the lead screw, the cover is equipped with rather than the complex activity otic placode on the lead screw, fixed otic placode is installed to the dorsal part of photovoltaic panel, be connected with the backup pad between fixed otic placode and the activity otic placode, transfer the motor of inclining to be connected with the controller through the cable.

Furthermore, in the suspension type water quality detection device, the controller can synchronously transmit the detection result to the remote background terminal, and a two-dimensional code of the health condition of rivers and lakes is formed through the river and lake health monitoring and evaluating system, so that people can master the basic information, the spatial distribution and the health file of the current rivers by scanning the two-dimensional code, and monitoring personnel and the masses can know the dynamic condition of the water environment treatment of the rivers and lakes.

The beneficial effects of the invention are:

1. the water quality detection device provided by the invention has reasonable structural design, can detect the water quality of the surface layer of a river or lake, can set the detection frequency according to the requirement, can directly display the detection result on the display panel, and is convenient for showing the water environment treatment condition; the detection result can be synchronously transmitted to the remote background terminal, so that monitoring personnel can know the dynamic condition of water environment treatment conveniently.

2. According to the invention, the water quality sampling area, the water quality sampling system and the water quality detection system are cooperatively matched, and the water quality sampling area is used for changing liquid by using the liquid changing fan before sampling every time, so that the reliability of a sampling result is ensured; the water sampling system sends the water sample into a water quality detection module of the water quality detection system, and can detect the index needing to be monitored.

3. The water quality sampling system can be used as a cleaning system at the same time, and the regular surface cleaning of the display area and the photovoltaic panel can be realized by matching with the electric control three-way valve and the flushing nozzle, so that the manual cleaning is not needed, and the maintenance cost is reduced.

4. The invention considers that the display area of the display area is limited, the display area is divided into a water quality detection information area, a river and lake information area and a management information area, wherein the river and lake information area and the management information area are arranged in a two-dimensional code form, and a two-dimensional code of the real-time state of the river and lake health is formed through a river and lake health monitoring and evaluating system, so that people can master the basic information, the spatial distribution and the health file of the current river and lake by scanning the two-dimensional code, the changed information can be corrected conveniently in time in the two-dimensional code form, and the problem that the information correction is difficult to carry out by a conventional display panel is solved, thereby being beneficial to monitoring personnel and the masses to know the dynamic condition of the river and lake water environment management.

Of course, it is not necessary for any one product that embodies the invention to achieve all of the above advantages simultaneously.

Drawings

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

FIG. 1 is a schematic perspective view of an angle according to the present invention;

FIG. 2 is a schematic perspective view of another embodiment of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic structural view of the support assembly of the present invention without the concrete foundation block;

FIG. 5 is a schematic view of a display module, a portion of a suspension vehicle according to the present invention;

FIG. 6 is a schematic view of a water sampling system according to the present invention;

FIG. 7 is a schematic structural view of the tilt adjusting mechanism of the present invention;

FIG. 8 is a block diagram illustrating the connection of electrical components according to one embodiment of the present invention;

FIG. 9 is a connection block diagram of the electrical components of the second embodiment of the present invention;

FIG. 10 is a table of index system for evaluating health of rivers and lakes in the third embodiment of the present invention;

FIG. 11 is a weight chart of river and lake health evaluation criterion layer in the third embodiment of the present invention;

FIG. 12 is a table of the evaluation of the river/lake health classification criteria in the third embodiment of the present invention;

FIG. 13 is a schematic view showing the healthy color correspondence between rivers and lakes in the third embodiment of the present invention;

FIG. 14 is a schematic diagram of a health code home page according to a third embodiment of the present invention;

FIG. 15 is a diagram illustrating a statistical query result of water indicators in the third embodiment of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-concrete foundation block, 2-mounting seat, 3-movable bottom plate, 4-sliding rail, 5-anchoring rod, 6-sliding rod, 7-supporting seat, 8-floating body, 9-first supporting tube, 10-second supporting tube, 11-display plate, 12-display area, 13-photovoltaic panel, 14-embedded plate, 15-safety protection fence, 16-inclination adjusting mechanism, 161-inclination adjusting motor, 162-screw rod, 163-movable lug plate, 164-supporting plate, 165-fixed lug plate, 17-micropore, 18-suction pump, 19-sampling tube, 20-sample conveying tube, 21-liquid changing fan, 22-flushing nozzle, 23-controller, 24-water quality detection module, 25-storage battery I, 26-temperature sensor, 27-wireless transceiver module, 28-storage battery II, 29-electric control three-way valve and 30-display module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 1 to 8, the present embodiment is a suspension type water quality detecting device with a display function, which includes a supporting component, a suspension carrier and a display component.

In this embodiment, the supporting component includes concrete foundation block 1, mount pad 2, activity bottom plate 3, slide rail 4 and anchor rod 5, and the inboard of concrete foundation block 1 is fixed with mount pad 2, installs two slide rails 4 that distribute side by side between mount pad 2 and the activity bottom plate 3. The concrete foundation block 1 is fixed on a bank of a river or lake, the movable bottom plate 3 is provided with an anchoring hole convenient for installing the anchoring rod 5, and the movable bottom plate 3 is fixed at the bottom of a water body near the bank of the river or lake through the anchoring rod 5. Because the both ends of slide rail 4 are connected with mount pad 2, activity bottom plate 3 through rotating the connected mode respectively, are fit for different slopes. An embedded plate 14 is embedded in the upper side of the concrete base block 1, a safety protection fence 15 is fixed on the upper side of the concrete base block 1 through the embedded plate 14, and the embedded plate 14 is fixedly connected with a positioning threaded sleeve embedded in the concrete base block 1 through a fastening screw rod. Safety containment pens 15 are used to prevent personnel from getting too close to cause an accident.

In this embodiment, the suspension carrier includes two sliding rods 6, a supporting seat 7 and a floating body 8, the two sliding rods 6 are symmetrically installed at the front and rear ends of the supporting seat 7, and the sliding rods 6 are slidably limited between the two sliding rails 4 and can slide along the length direction of the sliding rails 4. A sliding groove convenient for the sliding rod 6 to move is arranged in the sliding rail 4, and the sliding rail 4 is made of stainless steel materials. Body 8 is installed in the bottom outside of supporting seat 7, and body 8's shape and mounting means can be selected according to the actual demand, like optional inflatable airbag body, but mounting means optional ligature connection also can be on body 8 mounting connection plate, and the connecting plate rethread bolt links firmly with supporting seat 7.

In this embodiment, the inner cavity of the supporting seat 7 serves as a water quality sampling area, the cross section of the inner cavity of the supporting seat 7 is of a triangular structure, micropores 17 facilitating water to enter the water quality sampling area are uniformly distributed on the rear end plate and the lower side inclined plate, and the micropores 17 can block large impurities and avoid damage to internal components. The upper side plate inner wall fixed mounting of supporting seat 7 has traded liquid fan 21 and temperature sensor 26, trades liquid fan 21 and is used for renewing the liquid of trading to the sampling mouth department water of sampling pipe, and temperature sensor 26 is used for detecting the temperature.

In this embodiment, the display module includes a first support tube 9, a second support tube 10, a display panel 11, a photovoltaic panel 13, and an inclination adjusting mechanism 16, and the bottom end of the display panel 11 is fixed to the support base 7 through the first support tube 9 and the second support tube 10. The reinforcing pipes are welded between the first supporting pipe 9 and the second supporting pipe 10, and reinforcing rib plates can be welded between the first supporting pipe 9, the second supporting pipe 10 and the supporting seat 7. The display panel 11 has a display area 12 on the front side and a photovoltaic panel 13 and an inclination adjusting mechanism 16 for adjusting the inclination angle of the photovoltaic panel 13 on the rear side. The internally mounted of first stay tube 9 has a quality of water sampling system, and the inner chamber of first stay tube 9 is as water route body inlet channel, and the inner chamber of second stay tube 10 is as circuit cable inlet channel. The water quality sampling system comprises a suction pump 18, a sampling pipe 19 and a sample conveying pipe 20, wherein the suction pump 18 is fixedly arranged in an inner cavity of the first supporting pipe 9, the input end of the suction pump 18 is connected with the sampling pipe 19 extending into the water quality sampling area, and the output end of the suction pump is connected with the sample conveying pipe 20.

In this embodiment, a water quality detection system is provided inside the display panel 11. The water quality detection system comprises a controller 23, a water quality detection module 24, a plurality of display modules 30, a storage battery I25 and a wireless transceiver module 27 which are arranged in a display panel 11, wherein the controller 23 is respectively connected with the water quality detection module 24, the storage battery I25 and the wireless transceiver module 27, and a photovoltaic panel 13 is connected with the storage battery I25 through a rectifier and a transformer; the display modules 30 are low power segment code screens embedded in the display area 12 and capable of displaying numbers 0-9. The controller 23 wirelessly communicates with the remote background terminal via the wireless transceiver module 27. The liquid replacement fan 21 and the temperature sensor 26 are each connected to the controller 23 via a cable built in the electric cable introduction passage. The water quality detection module 24 is a modularized component convenient to replace, and is internally provided with a plurality of water quality detection probes, including a pH probe, a heavy metal ion detection sensor, a dissolved oxygen probe, a turbidity sensor and the like, which can be increased or decreased according to the requirements of actual detection items.

In this embodiment, the sample feeding tube 20 is communicated with a sample inlet of the water quality detection module 24.

In this embodiment, the tilt adjusting mechanism 16 includes a tilt adjusting motor 161, a screw 162, a movable ear plate 163, a supporting plate 164, and a fixed ear plate 165, the tilt adjusting motor 161 is fixed on the outer wall of the display panel 11, the output end of the tilt adjusting motor 161 is connected with the screw 162, the screw 162 is sleeved with the movable ear plate 163 matched with the screw 162, the fixed ear plate 165 is installed on the back side of the photovoltaic panel 13, the supporting plate 164 is connected between the fixed ear plate 165 and the movable ear plate 163, and the tilt adjusting motor 161 is connected with the controller 23 through a cable.

One specific application of this embodiment is: the water quality detection device provided by the embodiment has reasonable structural design, can detect the water quality on the surface layers of rivers and lakes besides displaying basic river and lake information, the detection frequency can be set according to requirements, and the detection result can be directly displayed on the display panel, so that the water environment treatment condition can be conveniently displayed; the detection result can be synchronously transmitted to the remote background terminal, so that monitoring personnel can know the dynamic condition of water environment treatment conveniently. The water quality sampling area, the water quality sampling system and the water quality detection system are cooperatively matched, and the water quality sampling area utilizes the liquid changing fan to change liquid before sampling every time, so that the reliability of a sampling result is guaranteed; the water sampling system sends the water sample into a water quality detection module of the water quality detection system, and can detect the index needing to be monitored.

Example two

As shown in fig. 1-7 and 9, the present embodiment is a suspension type water quality detecting device with a display function, which includes a supporting component, a suspension carrier and a display component.

In this embodiment, the supporting component includes concrete foundation block 1, mount pad 2, activity bottom plate 3, slide rail 4 and anchor rod 5, and the inboard of concrete foundation block 1 is fixed with mount pad 2, installs two slide rails 4 that distribute side by side between mount pad 2 and the activity bottom plate 3. The concrete foundation block 1 is fixed on the bank of a river or lake, and the movable bottom plate 3 is fixed at the bottom of the water body near the bank of the river or lake through the anchoring rod 5. Because the both ends of slide rail 4 are connected with mount pad 2, activity bottom plate 3 through rotating the connected mode respectively, are fit for different slopes. The upper side of the concrete base block 1 is fixed with a safety protection fence 15 through an embedded plate 14, and the embedded plate 14 is fixedly connected with a positioning threaded sleeve embedded in the concrete base block 1 through a fastening screw rod. The safety containment pens 15 are used to prevent personnel from getting too close to be an accident.

In this embodiment, the suspension carrier includes two slide bars 6, a support base 7 and a floating body 8, the two slide bars 6 are symmetrically installed at the front and rear ends of the support base 7, and the slide bars 6 are slidably limited between the two slide rails 4 and can slide along the length direction of the slide rails 4. A sliding groove convenient for the sliding rod 6 to move is arranged in the sliding rail 4, and the sliding rail 4 is made of stainless steel materials. The body 8 is installed in the bottom outside of supporting seat 7, and the shape and the mounting means of body 8 can be selected according to the actual demand, like optional inflatable airbag body 8, but mounting means optional ligature connection also can install the connecting plate on body 8, and the connecting plate rethread bolt links firmly with supporting seat 7.

In this embodiment, the inner chamber of the supporting seat 7 is used as a water quality sampling area, the cross section of the inner chamber of the supporting seat 7 is in a triangular structure, and micropores facilitating water to enter the water quality sampling area are uniformly distributed on the rear end plate and the lower side inclined plate. The upper side plate inner wall fixed mounting of supporting seat 7 has trades liquid fan 21 and temperature sensor 26, trades liquid fan 21 and is used for renewing the sample mouth department water of sampling pipe and trades the liquid, and temperature sensor 26 is used for detecting the temperature.

In this embodiment, the display module includes a first support tube 9, a second support tube 10, a display panel 11, a photovoltaic panel 13, and an inclination adjusting mechanism 16, and the bottom end of the display panel 11 is fixed to the support base 7 through the first support tube 9 and the second support tube 10. A reinforcing pipe is welded between the first supporting pipe 9 and the second supporting pipe 10, and reinforcing rib plates can also be welded between the first supporting pipe 9, the second supporting pipe 10 and the supporting seat 7. The display panel 11 has a display area 12 on the front side and a photovoltaic panel 13 and a tilt adjusting mechanism 16 for adjusting the tilt angle of the photovoltaic panel 13 on the rear side. The inside of first stay tube 9 is installed with quality of water sampling system, and the inner chamber of first stay tube 9 is as water route body inlet channel, and the inner chamber of second stay tube 10 is as circuit cable inlet channel. The water quality sampling system comprises a suction pump 18, a sampling pipe 19 and a sample conveying pipe 20, wherein the suction pump 18 is fixedly arranged in the inner cavity of the first supporting pipe 9, the input end of the suction pump 18 is connected with the sampling pipe 19 extending into the water quality sampling area, and the output end of the suction pump is connected with the sample conveying pipe 20.

In this embodiment, a water quality detection system is provided inside the display panel 11. The water quality detection system comprises a controller 23, a water quality detection module 24, a plurality of display modules 30, a storage battery I25 and a wireless transceiver module 27 which are arranged in a display panel 11, wherein the controller 23 is respectively connected with the water quality detection module 24, the storage battery I25 and the wireless transceiver module 27, and a photovoltaic panel 13 is connected with the storage battery I25 through a rectifier and a transformer; the display module 30 is a low power segment code screen embedded in the display area 12 and capable of displaying numbers 0-9. The controller 23 communicates with the remote background terminal wirelessly through the wireless transceiver module 27. The liquid replacement fan 21 and the temperature sensor 26 are each connected to the controller 23 via a cable built in the electric cable introduction passage. The water quality detection module 24 is a modularized component convenient to replace, and is internally provided with a plurality of water quality detection probes, including a pH probe, a heavy metal ion detection sensor, a dissolved oxygen probe, a turbidity sensor and the like, which can be increased or decreased according to the requirements of actual detection items.

In this embodiment, pre-buried battery case of taking the lock in the concrete foundation block 1, install the battery II 28 that can dismantle the change in the battery case, the one end connector of external cable is located the inner chamber of battery case, and the other end runs through supporting seat 7 and is connected with controller 23 through circuit cable inlet channel, and the part that exposes of external cable is equipped with the flexible section of spiral that can adapt to supporting seat 7 displacement.

In this embodiment, send appearance pipe 20 and the input intercommunication of installing automatically controlled three-way valve 29 in display panel 11, the first output of automatically controlled three-way valve 29 and the introduction port intercommunication of water quality testing module 24, the second output of automatically controlled three-way valve 29 respectively the pipeline with be located the washing terminals 22 on show district 12 top and be located the washing terminals 22 on photovoltaic panel 13 outside top intercommunication, the washing terminals 22 on show district 12 top can carry out surface cleaning to show district 12 through spraying water liquid, the washing terminals 22 on photovoltaic panel 13 outside top can carry out surface cleaning to the panel district through spraying water liquid. The electric control three-way valve is connected with the controller through a cable.

In this embodiment, the tilt adjusting mechanism 16 includes a tilt adjusting motor 161, a screw 162, a movable ear plate 163, a support plate 164 and a fixed ear plate 165, the tilt adjusting motor 161 is fixed on the outer wall of the display panel 11, the output end of the tilt adjusting motor 161 is connected with the screw 162, the screw 162 is sleeved with the movable ear plate 163 matched with the screw 162, the fixed ear plate 165 is installed on the back side of the photovoltaic panel 13, the support plate 164 is connected between the fixed ear plate 165 and the movable ear plate 163, and the tilt adjusting motor 161 is connected with the controller 23 through a cable.

The embodiment adopts a double-battery power supply mode, and the storage battery can be replaced manually to supply power when the photovoltaic power supply is insufficient. The water quality sampling system can be used as a cleaning system at the same time, regular surface cleaning of the display area 12 and the photovoltaic panel 13 can be realized by matching with the electric control three-way valve 29 and the flushing nozzle 22, manual cleaning is not needed, and the maintenance cost is reduced.

EXAMPLE III

As shown in fig. 10-15, considering that the display area of the display area 12 is limited, it is difficult to monitor and display the health status of rivers and lakes in different sections of the rivers and lakes in real time, so the display area 12 is divided into a water quality detection information area, a river and lake information area and a management information area, wherein the river and lake information area and the management information area are arranged in a two-dimensional code form, detailed information can be known by scanning codes, the two-dimensional code form is also convenient for correcting changed information in time, and the problem that the display panel is difficult to correct information in the past is overcome.

In the embodiment, the river and lake health evaluation index is shown in fig. 10, the weight map of the river and lake health evaluation criterion layer is shown in fig. 11, and the rating scale of the river and lake health is shown in fig. 12.

The specific operation is as follows:

the user can use the WeChat or browser to scan, take WeChat as an example, and click the button at the top right corner after entering WeChat, and then select to scan in the pop-up window. And (3) scanning the two-dimensional code (namely the river and lake health code) on the display area 12 in a scanning interface.

As shown in fig. 13, the color of the health code river name corresponds to the health condition of the river, and the health degree of the river is divided into five grades, which are: the health code is very healthy, sub-healthy, unhealthy and inferior, and the corresponding river and lake health codes are blue, green, yellow, orange and red respectively.

After the river and lake health codes are scanned, the system displays main contents as follows:

1. location of the river and health of the river

2. Other river distribution conditions for which river and lake health evaluation has been established

3. The characters display the current health condition of the river

For example, the position of the corresponding Jiankangdan river is shown by a river water system diagram of the basic Heilongjiang province, and the position is highlighted in the river water system diagram through different colors. As shown in fig. 14, the top right corner of the water system diagram displays the name of the river or lake through a connecting line, meanwhile, a key landscape photo of the river or lake is added below the water system diagram, and the name of the river or lake represents the color of the health codes of different rivers and lakes through fonts without colors.

In the river water system diagram, the red water system line and the river lake name with red font represent the river lake with the established health evaluation, and the blue water system line and the river lake name with blue font represent the river lake with the established health evaluation.

The color of the characters under the health condition corresponds to the color state of the health code, and meanwhile, smiling faces on the left sides of the characters represent the health state of the current rivers and lakes (very health is represented by three smiling faces, health is represented by two smiling faces, sub-health is represented by one smiling face, unhealthy is represented by one crying face, and bad state is represented by two crying faces).

And clicking the question mark icon on the right side of the river health to display various water indexes of the river health condition. Which comprises the following steps:

1. degree of satisfaction of ecological flow

2. River longitudinal flow index

3. Degree of quality of water

4. Retention rate of natural wetland

5. Soil and water conservation rate

6. Water quality standard-reaching rate of water functional area

7. Bank belt condition

8. Index of fish retention

9. Biological integrity index for large benthic invertebrates

10. Standard rate of embankment engineering

11. Degree of public satisfaction

12. Degree of standardization of river sewage discharge outlet

13. Degree of standardization of intake

14. Degree of satisfaction of ecological flow

Each water index of the river is shown in a statistical chart (radar chart) manner shown in fig. 15, and the ecological flow satisfaction degree, the river longitudinal communication index, the water quality goodness degree, the natural wetland retention rate, the water and soil conservation rate, the water functional area water quality standard reaching rate, the bank condition, the fish preservation index, the large benthonic invertebrate biological integrity index, the embankment project standard reaching rate, the public satisfaction degree, the river sewage outlet standardization degree, the water intake standardization degree and other related indexes are generated by calculating through corresponding parameters and calculation formulas, the maximum score of each index is 100, 0-40 scores represent the inferiority state by red, 40-55 scores represent the unhealthy state by orange, 55 scores to 70 scores represent the sub-health by yellow, 70-90 scores represent the health by green, and 90-100 scores represent the very health by blue.

Each index is represented by a radar graph, circles with different colors from inside to outside of the base map represent the value division areas of each index, black polygonal lines represent the value division areas corresponding to different indexes of the river, and black polygons can represent the balance degree of each index of the river through the shape.

Wherein: the river water system connectivity has the functions of hydrologic regulation and storage, ensuring smooth migration of organisms, improving water and soil environments and the like, and the connectivity mechanism mainly shows the continuity of longitudinal, transverse, vertical and time dimensions. River longitudinal connectivity has a significant impact on fish distribution, population structure, reproductive success, and spread of many species. A series of problems of water ecology, water environment and water safety caused by the obstruction of longitudinal connectivity severely restrict the sustainable development of regional economy and society. The evaluation of the longitudinal connectivity of the river has important significance for building structures such as gate dams and the like, building positions of the buildings and the like; the water quality standard refers to the comprehensive characteristics of water and impurities in water, and is a specific measure for measuring water quality. The various water quality indexes can indicate the types and the quantities of water and various impurities contained in the water, so that the quality degree of the water quality is judged to determine whether the water can meet the requirements of various water.

Some of the water quality indicators are directly expressed by the amount (i.e., concentration) of the impurities contained in the water; some of them reflect their contents by using the common characteristics of such impurities. According to the properties of the water quality index, the water quality index can be divided into a physical index, a chemical index, a toxicology index, an oxygen balance index and a bacteriological index.

The preferred embodiments of the present invention disclosed above are intended to facilitate the explanation of the present invention only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a floated water quality testing device with show function which characterized in that includes:

the supporting assembly comprises a concrete foundation block, a mounting seat, a movable bottom plate, a slide rail and an anchoring rod, wherein the mounting seat is fixed on the inner side of the concrete foundation block, the two slide rails which are distributed side by side are mounted between the mounting seat and the movable bottom plate, the concrete foundation block is fixed on a bank of a river and lake embankment, an anchoring hole for conveniently mounting the anchoring rod is formed in the movable bottom plate, and the movable bottom plate is fixed at the bottom of a water body near the bank of the river and lake through the anchoring rod;

the suspension carrier comprises two sliding rods, a supporting seat and a floating body, the two sliding rods are symmetrically installed at the front end and the rear end of the supporting seat, the sliding rods are limited between the two sliding rails in a sliding mode and can slide along the length direction of the sliding rails, the floating body is installed on the outer side of the bottom end of the supporting seat, and an inner cavity of the supporting seat serves as a water quality sampling area;

display module, display module includes first stay tube, second stay tube, display panel, photovoltaic panel and transfers the mechanism of inclining, the bottom of display panel is fixed with the supporting seat through first stay tube, second stay tube, the front side of display panel is equipped with the show area, and photovoltaic panel and the mechanism of transferring of being used for adjusting photovoltaic panel inclination are installed to the rear side, the internally mounted of first stay tube has water sampling system, the inner chamber of first stay tube is as water route body inlet channel, the inner chamber of second stay tube is as circuit cable inlet channel, the inside of display panel is equipped with water quality testing system.

2. The suspended water quality detection device according to claim 1, characterized in that: the upper side of the concrete base block is embedded with an embedded plate, and a safety protection fence is fixed on the upper side of the concrete base block through the embedded plate; a sliding groove convenient for the sliding rod to move is formed in the sliding rail, and the sliding rail is made of stainless steel materials.

3. The suspended water quality detection device according to claim 1, wherein: the water quality sampling system comprises a suction pump, a sampling pipe and a sample conveying pipe, wherein the suction pump is fixedly arranged in an inner cavity of the first supporting pipe, the input end of the suction pump is connected with the sampling pipe extending into the water quality sampling area, and the output end of the suction pump is connected with the sample conveying pipe.

4. The suspended water quality detection device according to claim 3, wherein: the transversal triangle-shaped structure of personally submitting of inner chamber of supporting seat, its rear end plate and downside swash plate equipartition have the micropore that the water of being convenient for gets into water quality sampling district, the last side inner wall fixed mounting of supporting seat has trades liquid fan and temperature sensor, it is used for renewing the sample mouth department water of sampling pipe and trades liquid to trade the liquid fan, temperature sensor is used for detecting the temperature.

5. The suspended water quality detection device according to claim 4, characterized in that: the water quality detection system comprises a controller, a water quality detection module, a plurality of display modules, a storage battery I and a wireless transceiver module, wherein the controller, the water quality detection module, the display modules, the storage battery I and the wireless transceiver module are arranged in a display panel; the display modules are low-power-consumption segment code screens embedded in the display area and can display numbers of 0-9.

6. The suspended water quality detection device according to claim 5, characterized in that: the liquid changing fan and the temperature sensor are respectively connected with the controller through cables built in the circuit cable leading-in channel.

7. The suspended water quality detection device according to claim 5, characterized in that: the concrete foundation block is embedded with a battery box with a lock, a storage battery II capable of being detached and replaced is installed in the battery box, one end connector of an external cable is located in an inner cavity of the battery box, the other end of the external cable penetrates through the supporting seat and is connected with the controller through a circuit cable leading-in channel, and the exposed part of the external cable is provided with a spiral telescopic section capable of adapting to displacement of the supporting seat.

8. The suspended water quality detection device according to claim 5, wherein: send appearance pipe and automatically controlled three-way valve's input intercommunication, automatically controlled three-way valve's first output and water quality testing module's introduction port intercommunication, water quality testing module is the modularization subassembly of changing for convenient, automatically controlled three-way valve's second output respectively the pipeline with be located the washing terminals on show district top and be located the washing terminals intercommunication on photovoltaic panel outside top, the washing terminals on show district top can carry out surface cleaning to the show district through spraying water liquid, the washing terminals on photovoltaic panel outside top can carry out surface cleaning to the panel district through spraying water liquid.

9. The suspended water quality detection device according to claim 8, characterized in that: transfer mechanism of inclining including transferring motor, lead screw, activity otic placode, backup pad and the fixed otic placode of inclining, transfer the motor of inclining and fix the outer wall at the display panel, the output of transferring the motor of inclining is connected with the lead screw, the cover is equipped with rather than complex activity otic placode on the lead screw, fixed otic placode is installed at the dorsal part of photovoltaic panel, be connected with the backup pad between fixed otic placode and the activity otic placode, it is connected with the controller through the cable to transfer the motor of inclining.

10. The suspended water quality detection device according to claim 9, characterized in that: the controller can synchronously transmit the detection result to the remote background terminal, and the two-dimensional code of the health condition of the river and the lake is formed through the river and lake health monitoring and evaluating system.

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