CN212515424U - Hydrology monitored control system - Google Patents

Abstract

The utility model discloses a hydrology monitored control system relates to hydrology monitoring field, and its technical scheme main points are: a hydrological monitoring system comprises a plurality of groups of hydrological monitoring sensor modules, wherein the hydrological monitoring sensor modules are connected with a monitoring system, and the monitoring system comprises a sensor interface circuit, a first processor and a second processor, wherein the sensor interface circuit is used for connecting the plurality of groups of hydrological monitoring sensor modules and transmitting hydrological data acquired by the hydrological monitoring sensor modules to the first processor; the first processor is connected with the sensor interface circuit and used for receiving and processing hydrological data; the first memory is connected with the processor and used for storing hydrological data; the hydrologic monitoring terminal is connected with the processor and used for receiving and displaying hydrologic data for monitoring; and the power supply is used for providing working voltage for the monitoring system. The utility model discloses a hydrology monitored control system is in order to monitor river hydrology information to satisfy city flood control and city water resource management's needs.

Description

Hydrology monitored control system

Technical Field

The utility model belongs to the technical field of hydrology monitoring and specifically relates to a hydrology monitored control system is related to.

Background

As early as 1997, american scholars recognized that the flow regime of natural water flow provides a "prescription" for river restoration and protection that can withstand time-checking. The new water method was passed in 2000 in queensland australia, and the environmental water demand was established by a group of scientists using a "baseline measurement method". The new law of water that south africa includes mandatory "reserve water volume" has been through one year, the government has issued compendium of guidance detailing how to determine "reserve water volume", and many scientists in south africa are now busy determining various water volumes, including ecological water volumes, for large basins. This is directly related to hydrologic monitoring data.

With the development of national economy and society, the existing station network structure and layout can not adapt to the requirements of water resource development management, ecological environment construction and river regulation, can not meet the requirement of water resource optimal configuration, and can not meet the requirements of urban flood control and urban water resource management far away. Therefore, the social needs must be clarified through big data analysis by enhancing the network planning of monitoring stations such as hydrology, water environment, water ecology, water and soil conservation, sand mining, river channel observation, irrigation test, field surgery observation and the like.

Hydrologic monitoring is used for monitoring information such as river water level, river discharge and rainfall, and data analysis and monitoring are carried out on the information, so that the hydrologic monitoring is necessary for river health protection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a not enough to prior art exists, the utility model aims to provide a hydrology monitored control system to monitor river hydrology information, thereby satisfy city flood control and city water resource management's needs.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a hydrological monitoring system comprises a plurality of hydrological monitoring sensor modules which are connected with a monitoring system, the monitoring system comprises,

the sensor interface circuit is used for connecting a plurality of groups of hydrological monitoring sensor modules and transmitting hydrological data acquired by the hydrological monitoring sensor modules to the first processor;

the first processor is connected with the sensor interface circuit and used for receiving and processing hydrological data;

the first memory is connected with the processor and used for storing hydrological data;

the hydrologic monitoring terminal is connected with the processor and used for receiving and displaying hydrologic data for monitoring;

and the power supply is used for providing working voltage for the monitoring system.

Through adopting above-mentioned technical scheme, utilize hydrology monitoring sensor module to carry out the collection of hydrology data to the river of place, the hydrology data that its was gathered on the one hand are stored in first memory (local storage promptly), so that later stage transfers etc. on the other hand then sends to hydrology monitor terminal through first treater, thereby make responsible person or responsible department can implement the hydrology data of monitoring each section river, thereby carry out analysis and comb to hydrology data, establish the big data analysis of river hydrology data, with monitoring river hydrology information, thereby satisfy city flood control and city water resource management's needs.

The utility model discloses further set up to: the hydrologic monitoring terminal comprises a second processor, and a display, a second memory and an instruction input device which are respectively connected with the second processor.

By adopting the technical scheme, the second processor receives the hydrological data sent by the first processor, displays the hydrological data on the display, and stores the hydrological data in the second memory for archiving; the responsible person or responsible department can be monitored through the display, and can also be controlled through the instruction input device.

The utility model discloses further set up to: the first processor is connected with a first communication module, and the second processor is connected with a second communication module matched with the first communication module.

The utility model discloses further set up to: the first communication module and the second communication module are one or more of a GPRS module, a 4G module and an RJ45 connector.

By adopting the technical scheme and adopting the scheme of coexistence of the GPRS module, the 4G module and the RJ45 connector, the timeliness and the reliability of data transmission can be ensured, and the problem that the data transmission cannot be carried out due to the problems of poor network or disconnection of a network cable and the like can be avoided.

The utility model discloses further set up to: the first processor sends a data calibration request to the second processor at regular time so as to check the hydrological data stored in the first memory and the second memory, and if the second memory has data defects, the first memory automatically sends and stores the defect data into the second memory.

By adopting the technical scheme, the hydrological data can be checked regularly between the hydrological monitoring terminal and the hydrological monitoring terminal, so that the accuracy and the integrity of the hydrological data at the hydrological monitoring terminal can be ensured, and the data loss is avoided.

The utility model discloses further set up to: the first processor is connected with a USB port.

By adopting the technical scheme, the responsible person can download the hydrological data stored in the first memory through the USB port so as to download the local data of the hydrological data as needed from time to time.

The utility model discloses further set up to: the hydrological monitoring sensor module comprises a water level meter, a flowmeter and a rain gauge.

Through adopting above-mentioned technical scheme to gather the water level, rivers and the precipitation of river, the needs that satisfy city flood control and city water resource management that can be better.

The utility model discloses further set up to: the power supply is also connected with a solar module.

Through adopting above-mentioned technical scheme to the guarantee also can normal operating at commercial power when breaking down.

The utility model discloses further set up to: the hydrology monitoring sensor module all is provided with GPS orientation module, GPS orientation module connects in first treater.

Through adopting above-mentioned technical scheme, multiunit hydrology monitoring sensor module sets up respectively in each position of place river, sets up the hydrology data condition that GPS orientation module can every hydrology monitoring sensor module of group specifically analysis.

To sum up, the utility model discloses a beneficial technological effect does:

1. hydrologic data of the river is acquired by the hydrologic monitoring sensor module and is sent to the hydrologic monitoring terminal through the first processor, so that a responsible person or a responsible department can monitor the hydrologic data of each section of the river, and big data analysis of the hydrologic data of the river is established, and the requirements of urban flood control and urban water resource management are met;

2. the hydrologic data is checked regularly between the hydrologic data and the hydrologic data, so that the accuracy and integrity of the hydrologic data at the hydrologic monitoring terminal can be ensured, and the data loss is avoided;

3. the multiple groups of hydrological monitoring sensor modules are respectively arranged at each position of a river, and the GPS positioning module is arranged to specifically analyze the hydrological data condition of each group of hydrological monitoring sensor modules.

Drawings

FIG. 1 is a block diagram of the system of the present invention;

fig. 2 is a system block diagram of the hydrological monitoring terminal.

In the figure, 1, a hydrologic monitoring sensor module; 101. a water level gauge; 102. a flow meter; 103. a rain gauge; 2. a sensor interface circuit; 3. a first processor; 4. a first memory; 5. a hydrologic monitoring terminal; 51. a second processor; 52. a display; 53. a second memory; 54. an instruction input unit; 6. a power source; 71. a first communication module; 72. a second communication module; 8. a USB port; 9. a solar module; 10. and a GPS positioning module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a hydrologic monitoring system disclosed by the present invention comprises a plurality of hydrologic monitoring sensor modules 1, wherein the hydrologic monitoring sensor modules 1 are connected with a monitoring system, and the monitoring system comprises a sensor interface circuit 2, a first processor 3, a first memory 4, a hydrologic monitoring terminal 5 and a power supply 6; the sensor interface circuit 2 is used for connecting a plurality of groups of hydrological monitoring sensor modules 1 and transmitting hydrological data acquired by the hydrological monitoring sensor modules to the first processor 3; the first processor 3 is connected with the sensor interface circuit 2 and used for receiving and processing hydrological data; the first memory 4 is connected with the processor 3 and used for storing hydrological data; the hydrologic monitoring terminal 5 is connected with the processor 3 and used for receiving and displaying hydrologic data for monitoring; and the power supply 6 is used for providing working voltage for the monitoring system.

Utilize hydrology monitoring sensor module 1 to carry out the collection of hydrology data to the river of place, the hydrology data that its was gathered on the one hand are stored in first memory 4 (local storage promptly), so that later stage transfers etc. on the other hand then send to hydrology monitor terminal 5 through first treater 3, thereby make responsible person or responsible department can implement the hydrology data of monitoring each section river, thereby carry out analysis and comb to hydrology data, establish river hydrology data's big data analysis, with monitor river hydrology information, thereby satisfy city flood control and city water resource management's needs.

The hydrological monitoring sensor module 1 comprises a water level meter 101, a flow meter 102 and a rain meter 103. Therefore, the water level, the water flow and the precipitation of the river are collected, and the requirements of urban flood control and urban water resource management can be better met.

The power supply 6 is also connected to a solar module 9, and the solar module 9 includes a solar cell panel, an inverter, and a storage battery. So as to ensure that the monitoring system can normally operate when the commercial power fails.

In the present embodiment, the hydrological monitoring terminal 5 includes a second processor 51, and a display 52, a second memory 53 and an instruction input device 54 respectively connected to the second processor 51. The second processor 51 receives the hydrological data sent by the first processor 3, displays the hydrological data on the display 52, and stores the hydrological data in the second memory 53 for archiving; the person in charge or department in charge can be monitored via display 52 and controlled via command input 54.

The first processor 3 is connected to a first communication module 71, and the second processor 51 is connected to a second communication module 72 matched with the first communication module 71. And, the first communication module 71 and the second communication module 72 are a GPRS module, a 4G module, and an RJ45 connector. By adopting the scheme of coexistence of the GPRS module, the 4G module and the RJ45 connector, the timeliness and the reliability of data transmission can be ensured, and the problem that the data transmission cannot be carried out due to the problems of poor network or network cable disconnection and the like is avoided.

In order to ensure the accuracy and integrity of the hydrological data at the hydrological monitoring terminal 5, the first processor 3 periodically sends a data calibration request to the second processor 51 to check the hydrological data stored in both the first memory 4 and the second memory 53, and if the second memory 53 has data defect, the first memory 4 automatically sends and records the defect data into the second memory 53. By regularly checking the hydrological data between the hydrological monitoring terminal and the hydrological monitoring terminal, the accuracy and the integrity of the hydrological data at the hydrological monitoring terminal 5 can be ensured, and the data loss is avoided.

Further, a USB port 8 is connected to the first processor 3. The person in charge can download the hydrological data stored in the first memory 4 by using the USB port 8 through a removable memory such as a USB disk for local data download of the hydrological data as occasion demands.

Furthermore, a plurality of groups of hydrological monitoring sensor modules 1 are all provided with a GPS positioning module 10, and the GPS positioning module 10 is connected to the first processor 3. The multiple groups of hydrological monitoring sensor modules 1 are respectively arranged at each position of a river, and the GPS positioning module 10 is arranged to specifically analyze the hydrological data condition of each group of hydrological monitoring sensor modules 1.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a hydrology monitored control system, includes multiunit hydrology monitoring sensor module (1), its characterized in that: the hydrological monitoring sensor module (1) is connected with a monitoring system, the monitoring system comprises,

the sensor interface circuit (2) is used for connecting a plurality of groups of hydrological monitoring sensor modules (1) and transmitting hydrological data acquired by the hydrological monitoring sensor modules to the first processor (3);

the first processor (3) is connected with the sensor interface circuit (2) and used for receiving and processing hydrological data;

the first memory (4) is connected with the processor (3) and used for storing hydrological data;

the hydrologic monitoring terminal (5) is connected with the processor (3) and is used for receiving and displaying hydrologic data for monitoring;

and the power supply (6) is used for providing working voltage for the monitoring system.

2. A hydrologic monitoring system according to claim 1 and wherein: the hydrological monitoring terminal (5) comprises a second processor (51), and a display (52), a second memory (53) and an instruction input device (54) which are respectively connected with the second processor (51).

3. A hydrologic monitoring system according to claim 2 and wherein: the first processor (3) is connected with a first communication module (71), and the second processor (51) is connected with a second communication module (72) matched with the first communication module (71).

4. A hydrologic monitoring system according to claim 3 and wherein: the first communication module (71) and the second communication module (72) are one or more of a GPRS module, a 4G module and an RJ45 connector.

5. A hydrologic monitoring system according to claim 3 and wherein: the first processor (3) sends a data calibration request to the second processor (51) at regular time so as to check hydrological data stored in the first memory (4) and the second memory (53), and if the second memory (53) has data defect, the first memory (4) automatically sends and records the defect data into the second memory (53).

6. A hydrologic monitoring system according to claim 1 and wherein: the first processor (3) is connected with a USB port (8).

7. A hydrologic monitoring system according to claim 1 and wherein: the hydrological monitoring sensor module (1) comprises a water level meter (101), a flow meter (102) and a rain meter (103).

8. A hydrologic monitoring system according to claim 1 and wherein: the power supply (6) is also connected with a solar module (9).

9. A hydrologic monitoring system according to claim 1 and wherein: the hydrology monitoring sensor module (1) all is provided with GPS orientation module (10), GPS orientation module (10) are connected in first treater (3).

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