CN214750237U - Ecological automatic on-line monitoring system of bank base water - Google Patents

Abstract

The utility model provides an ecological automatic online monitoring system of bank base water, including water ecology detection case, data acquisition module, power control module, host computer control screen, box and set up water inlet and the delivery port on the box. Water samples in a water area to be detected enter the water ecology detection box from the water inlet, detected water ecology data are sent to the upper computer control screen through the data acquisition module, the upper computer control screen displays detection data in real time, the detection data can be sent to an external network through the built-in wireless network module, and automatic on-line monitoring of the water ecology is achieved.

Description

Ecological automatic on-line monitoring system of bank base water

Technical Field

The utility model relates to a water ecological environment monitoring technology field, in particular to bank base water ecology automatic on-line monitoring system.

Background

The traditional water ecology detection mode is manually sampled to a water area needing to be detected, is transported to a laboratory with professional equipment in a special storage mode, and is subjected to data acquisition after manual detection. The traditional monitoring mode has the defects of manpower consumption and poor timeliness.

In order to solve the existing problems, for example, chinese patent publication No. CN209432812U discloses a water ecology monitoring and repairing robot, which comprises a hull, a control cabin, a water quality monitoring cabin, a water surface shooting device, a water treatment device cabin and a remote communication device. The device has the advantage of timeliness of monitoring data for the water ecology monitoring function, but the device cannot realize long-time continuous monitoring operation because of being carried on a ship, and has higher requirements on supervision of personnel.

At present, no design for considering long-time continuous monitoring, good timeliness of monitoring data, low supervision requirement and other performances is available at home and abroad, and in view of the above, if the automatic online monitoring is carried out on the water ecology, the technical problem to be solved in the field is solved. Therefore, a shore base plate of an automatic water ecology on-line detection system is designed, and the device has the advantages of all-weather automatic monitoring of water quality and water ecology, full-automatic monitoring, no need of supervision of personnel and the like, and has practical significance and good application background.

Disclosure of Invention

The utility model aims at providing an automatic prior monitoring system of bank base water ecology.

The utility model discloses what solve is the ecological full automatic monitoring of the opposite bank basic water.

In order to solve the problem, the utility model discloses a following technical scheme realizes:

an automatic on-line ecological detection system for shore-based water comprises a water ecological detection box, a data acquisition module, an upper computer control screen, a power supply control module, a box body and a water inlet and a water outlet. The water ecology detection box is communicated with a water area to be monitored and is used for detecting the ecological data of the water body; the data acquisition module is connected with the water ecology detection box and used for acquiring ecological data; the upper computer control screen is connected with the data acquisition module and is used for integrating and sending the ecological data of the water body transmitted by the data acquisition module to an external server; the power supply control module is respectively connected with the upper computer control screen, the water ecology detection box and the data acquisition module and is used for supplying power to the water ecology detection box; the water ecology detection box, the data acquisition module, the upper computer control screen and the power supply control module are all arranged in the box body; wherein, the lower end of the box body is provided with a water inlet and a water outlet, and the water ecology detection box is connected between the water inlet and the water outlet.

By adopting the technical scheme, a water sample in a water area to be detected enters the water ecology detection box from the water inlet, detected water ecology data are sent to the upper computer control screen through the data acquisition module, the upper computer control screen displays detection data in real time, and the detection data can be sent to an external network through the built-in wireless network module, so that automatic on-line detection of water ecology is realized. The detected water sample is collected into the water area again from the water outlet.

Furthermore, the water ecology detection box comprises a bubble removing device and a sensor box, the bubble removing device is respectively connected with the water inlet and the sensor box, and the sensor box is respectively connected with the data acquisition module, the power supply control module and the water outlet.

Through adopting above-mentioned technical scheme, power control module is to the sensor case power supply, and when the water sample got into the aquatic attitude detection case, bubble in the bubble removal device in the advance went to the water sample, guaranteed that the detection of the water sample that gets into the sensor case to the sensor has no bubble interference. The water sample entering the sensor box is discharged from the water outlet after being detected, and the water ecological data of the water sample is collected and sent to the control screen of the upper computer by the data collection module after being detected by the sensor box.

Further, the sensor box includes an algae sensor, a dissolved oxygen sensor, a chlorophyll sensor, a phycoerythrin sensor, a turbidity sensor, a PH sensor, and a conductivity sensor.

By adopting the technical scheme, the algae sensor is used for monitoring the algae content of the water body to be detected; the dissolved oxygen sensor is used for monitoring the dissolved oxygen content of the water body to be detected; the chlorophyll sensor is used for monitoring the chlorophyll content of the water body to be detected; the phycoerythrin sensor is used for monitoring the content of the date red protein in the water body to be detected; the turbidity sensor is used for monitoring the turbidity value of the water body to be detected; the PH sensor is used for monitoring the PH value of the water body to be detected; and the conductivity sensor is used for monitoring the conductivity of the water body to be detected. The sensor effectively meets the requirements of water ecological parameter types and accuracy.

The shore-based water ecological automatic on-line detection system also comprises a disinfectant tank which is respectively connected with the water ecological detection tank and the power supply control module; the disinfectant tank is used for disinfecting the water ecological detection tank and inhibiting the growth of microorganisms in the water ecological detection tank.

Through adopting above-mentioned technical scheme, power control module receives the control signal of host computer control screen, and control disinfectant case provides the antiseptic solution to water ecological detection case, disinfects water ecological detection case, avoids long-term use back, and the growth of microorganism causes the interference to detecting data precision.

Furthermore, a diaphragm pump is arranged in the disinfectant tank, and the power control module controls the diaphragm pump to be switched on or off.

By adopting the technical scheme, the diaphragm pump of the disinfectant tank has the non-return function, so that the disinfectant is ensured to flow to the water ecological detection tank from the disinfectant tank, and the sample liquid is not required to be worried about entering the disinfectant tank from the water ecological detection tank.

The shore-based water ecological automatic on-line detection system further comprises a water pump connected between the water inlet and the water ecological detection box.

Through adopting above-mentioned technical scheme, the water sample is extracted to detect in the aquatic attitude detection case from treating the monitoring waters by the water pump for the flow of water sample has fixed direction.

The shore-based water ecology automatic on-line monitoring system further comprises a data transmission interface arranged on the outer wall of the box body, and the data transmission interface is connected with an upper computer control screen and used for being connected with an external network so as to perform data detection, data copying and software operation.

By adopting the technical scheme, the system can be connected with a keyboard, a mouse and an industrial all-in-one machine through the data transmission port, can directly carry out field operation on the system, such as data copying, software operation, manual disinfection and the like, and can monitor and detect data.

Compared with the prior art, the utility model discloses technical scheme and beneficial effect as follows:

(1) the utility model discloses a bank base water ecology automatic monitoring system, including water ecology detection case, disinfectant box, data acquisition module, power control module, host computer control screen, box and set up the inlet outlet on the box. Water samples in a water area to be detected enter the water ecology detection box from the water inlet, detected water ecology data are sent to the upper computer control screen through the data acquisition module, the upper computer control screen displays detection data in real time, the detection data can be sent to an external network through the built-in wireless network module, and automatic on-line monitoring of the water ecology is achieved.

(2) The utility model discloses a disinfection water tank carries out periodic disinfection to aquatic ecology detection case under power control module's control, restraines the microbial growth in the aquatic ecology detection case, avoids long-term the use back, and the growth of microorganism causes the interference to detecting the data precision.

(3) The utility model discloses still be provided with data transmission port for keyboard, mouse, industry all-in-one can be connected to the system, can directly carry out the field operation to the system, like copy data, software operation, manual disinfection etc. very convenient.

Drawings

Fig. 1 is the embodiment of the utility model provides a schematic diagram of an automatic on-line monitoring system of bank base water ecology.

Fig. 2 is a structural diagram of an automatic on-line shore-based water ecology monitoring system provided by the embodiment of the present invention;

fig. 3 is a structural diagram of another view angle of the shore-based water ecology automatic on-line monitoring system provided by the embodiment of the present invention;

fig. 4 is the embodiment of the utility model provides an inside structure chart of bank base water ecological detection case.

Illustration of the drawings:

a box body-1; an upper computer control screen-2; a power supply control module-3; a data acquisition module-4; a water ecology detection box-5; a disinfectant tank-6; a data transmission interface-7; a water inlet-8; a bubble removing device-9; an internal flow path-10; a sensor box-11; a water outlet-12.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. 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.

Referring to fig. 1 to 3, a shore-based water ecology automatic on-line monitoring system comprises a water ecology detection box 5, a disinfectant box 6, a data acquisition module 4, an upper computer control screen 2, a power supply control module 3 and a box body 1. The water ecology detection box 5, the disinfectant box 6, the data acquisition module 4, the upper computer control screen 2 and the power control module 3 are all arranged in the box body 1. The power control module 3 is respectively connected with the upper computer control screen 2, the data acquisition module 4, the disinfectant tank 6 and the water ecology detection box 5. The disinfectant tank 6 is connected with the water ecology detection tank 5, and the water ecology detection tank 5 is also connected with the data acquisition module 4. The box body 1 is also provided with a data transmission interface 7, and the lower end of the box body 1 is provided with a water inlet 8 and a water outlet 12.

A water sample in a water area to be monitored enters the water ecology detection box 5 from the water inlet 8 under the action of the water pump, ecological data of the water sample are detected, the data acquisition module 4 collects and integrates the ecological data detected by the water ecology detection box 5, the integrated data are transmitted to the upper computer control screen 2, and the integrated data are displayed in real time by the upper computer control screen 2 and are transmitted to an external network through the data transmission interface 7.

The power control module 3 comprises a voltage transformation element and a rectification element, and can convert externally-accessed 220V alternating current into voltage required by each component in the system, so that each component is powered, namely the upper computer control screen 2, the data acquisition module 4, the disinfectant tank 6 and the water ecology detection box 5 are powered. And an overload protection element is also arranged in the power control module 3, and the power supply can be cut off when each component is overloaded. The power control module also comprises a singlechip control circuit which can control the on-off of the relay so as to control the on-off of the pump. In the present embodiment, a diaphragm pump is provided in the disinfectant tank 6, and the diaphragm pump has a non-return function, so that there is no fear that the sample liquid enters the disinfectant tank 6 from the water ecology detection tank 5. The power control module 3 receives a control signal transmitted by the upper computer control screen 2 to control the on-off of a relay in the circuit, so that a diaphragm pump in the disinfectant tank 6 is controlled to be started or stopped, and further whether disinfectant is injected into the water ecology detection tank 5 for disinfection is controlled.

Because the use of the disinfectant can kill microorganisms, change PH, conductivity and the like and influence detection data, the system has a period of cleaning time after the disinfectant is used, clean water or sea and river water can be used for cleaning, and the data collected in the period of cleaning time is marked as invalid data. The setting of the cleaning time and the marking of invalid data in the period can be realized by the power control module 3. In this embodiment, the cleaning time after the disinfectant is used is set to 20 to 30 minutes.

The water pump can set up in box 1, also can set up outside box 1, as long as can with the water sample pump in the aquatic attitude detection case can, it can be understood that be provided with the check valve between water inlet and the aquatic attitude detection case for the flow of water sample has fixed direction.

Referring to fig. 4, the water ecology detection box comprises a bubble removing device 9 and a sensor box 11, the bubble removing device 9 is respectively connected with the water inlet 8, the sensor box 11 and the disinfectant box 6, namely, the water inlet 8, the sensor box 11, the disinfectant box 6 and the bubble removing device 9 are connected with each other through an internal flow path 10, and the internal flow path 10 is communicated between the water area to be detected, the bubble removing device 9 and the sensor box 11. The sensor box 11 is respectively connected with the data acquisition module 4 and the power control module 3, and the power control module 3 supplies power to the sensors in the sensor box 11. A water sample in a water area to be detected enters the internal flow path 10 through the water inlet, then enters the bubble removing device 9 to remove bubbles, flows into the sensor box 11 after the bubbles are removed, and the sensor box 11 automatically detects the water sample to be detected. And the detected water sample is remitted into the water area to be monitored from the water outlet again. The sensor box 11 is connected with the data acquisition module 4, the data acquisition module 4 acquires and transmits data detected by the sensor box 11 to the upper computer control screen 2, the upper computer control screen 2 can preview detected water ecological data in real time, the detected water ecological data can be connected with an external network through the data transmission interface 7 connected with the power supply control module 3, or the built-in wireless network module of the upper computer control screen 2 is connected with the external network, the acquired and arranged water ecological detection data can be transmitted to an external receiving end, and therefore the purpose of automatic online detection of the ecology can be achieved.

The sensor box 11 comprises sensors capable of measuring parameters related to water ecology, and comprises an algae sensor for monitoring the algae content of the water body to be detected, a dissolved oxygen sensor for monitoring the dissolved oxygen content of the water body to be detected, a chlorophyll sensor for monitoring the chlorophyll content of the water body to be detected, a phycoerythrin sensor for monitoring the phycoerythrin content of the water body to be detected, a turbidity sensor for monitoring the turbidity value of the water body to be detected, a pH sensor for monitoring the pH value of the water body to be detected, and a conductivity sensor for monitoring the conductivity of the water body to be detected.

While the above description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an ecological automatic online monitoring system of bank base water which characterized in that includes:

the water ecological detection box is communicated with a water area to be monitored and is used for detecting ecological data of the water body;

the data acquisition module is connected with the water ecology detection box and is used for acquiring the ecological data;

the upper computer control screen is connected with the data acquisition module and is used for integrating and transmitting the ecological data of the water body transmitted by the data acquisition module to an external server;

the power supply control module is respectively connected with the upper computer control screen, the water ecology detection box and the data acquisition module and is used for supplying power to the water ecology detection box;

the water ecology detection box, the data acquisition module, the upper computer control screen and the power supply control module are all arranged in the box body; the water ecological detection box is characterized in that a water inlet and a water outlet are formed in the lower end of the box body, and the water ecological detection box is connected between the water inlet and the water outlet.

2. The shore-based aquatic ecology automatic on-line monitoring system according to claim 1, wherein the aquatic ecology detection box comprises a bubble removal device and a sensor box, the bubble removal device is respectively connected with the water inlet and the sensor box, and the sensor box is respectively connected with the data acquisition module, the power control module and the water outlet.

3. The shore-based water ecology automatic on-line monitoring system of claim 2, wherein the sensor box comprises an algae sensor, a dissolved oxygen sensor, a chlorophyll sensor, a phycoerythrin sensor, a turbidity sensor, a PH sensor, and a conductivity sensor.

4. The shore-based water ecology automatic on-line monitoring system according to claim 3, further comprising a disinfectant tank connected to the water ecology detection tank and the power control module, respectively; the disinfectant tank is used for disinfecting the water ecology detection tank and inhibiting the growth of microorganisms in the water ecology detection tank.

5. The shore-based water ecology automatic on-line monitoring system according to claim 4, wherein a diaphragm pump is arranged in the disinfectant tank, and the power control module controls the diaphragm pump to be turned on or off.

6. The system of claim 1, further comprising a water pump connected between the water inlet and the water ecology detection tank.

7. The shore-based water ecology automatic on-line monitoring system of claim 1, further comprising a data transmission interface arranged on the outer wall of the box body, wherein the data transmission interface is connected with the upper computer control screen and used for connecting an external network so as to perform data detection, data copying and software operation.

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