CN111006740A - Rainwater cover ponding monitoring system - Google Patents

Abstract

A rainwater cover accumulated water monitoring system is characterized in that a rainwater cover monitoring point comprises a processor module I, a storage battery pack, a pressure detection module, a pressure water level conversion module, a GPS (global positioning system) positioning module and a wireless communication module I; the processor module I is respectively connected with the storage battery pack, the pressure water level conversion module, the GPS positioning module and the wireless communication module I; the pressure detection module is connected with the pressure water level conversion module; the pressure sensor is arranged on the upper surface of the rainwater cover; the centralized monitoring point comprises a processor module II, a power supply module, a wireless communication module II, a GSM communication module, an audible and visual alarm module and a display module; the processor module II is respectively connected with the power supply module, the wireless communication module II, the GSM communication module, the sound-light alarm module and the display module; the first wireless communication module is wirelessly connected with the second wireless communication module. The system can realize centralized monitoring of accumulated water near each rainwater cover in real time and can send alarm information in time when the water level exceeds a set value.

Description

Rainwater cover ponding monitoring system

Technical Field

The invention belongs to the technical field of water level monitoring, and particularly relates to a rainwater cover accumulated water monitoring system.

Background

In the prior art, the water level of each monitoring point is monitored mostly by adopting a manual periodic monitoring mode, and the working mode has low efficiency, large workload and easy generation of measurement errors.

The sewer pipe is the important component of urban drainage system, when running into torrential rain in rainy season, often can cause near sewer pipe's water level to violently rise because of sewer pipe's drainage is not smooth, in current rainwater lid, unable effective installation water level detector, therefore can not effectual realization to the monitoring early warning of near rainwater lid ponding volume, and then take place the drainage smoothly at rainwater lid department easily and lead to near water level to rise seriously, can lead to the condition of traffic jam to take place even.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a rainwater cover accumulated water monitoring system which can realize centralized monitoring of accumulated water near each rainwater cover in real time, can send alarm information in time when the water level exceeds a set value, and is convenient for managers to process on site in time.

The invention provides a rainwater cover accumulated water monitoring system which comprises a plurality of rainwater cover monitoring points and a centralized monitoring point;

the rainwater cover monitoring point comprises a processor module I, a storage battery pack, a pressure detection module, a pressure water level conversion module, a GPS positioning module and a wireless communication module I;

the first processor module is respectively connected with the storage battery pack, the pressure water level conversion module, the GPS positioning module and the first wireless communication module; the pressure detection module is connected with the pressure water level conversion module; the pressure sensor is arranged on the upper surface of the rainwater cover;

the centralized monitoring point comprises a second processor module, a power supply module, a second wireless communication module, a GSM communication module, an audible and visual alarm module and a display module; the processor module II is respectively connected with the power supply module, the wireless communication module II, the GSM communication module, the sound-light alarm module and the display module;

the first wireless communication module is wirelessly connected with the second wireless communication module.

Preferably, the first processor module and the second processor module are both PLC controllers.

Preferably, the number of the pressure sensors is at least four, and the pressure sensors are arranged around the upper part of the rain cover.

In the invention, a pressure detection module is used for sensing a pressure signal of a water level and sending the pressure signal to a pressure water level conversion module, the pressure water level conversion module is used for converting the pressure signal of the water level into a water level value and sending the water level value to a processor module I, the processor module I sends the water level value and positioning information of a GPS positioning module to a processor module II in real time, the processor module II displays the received information in real time through a display module, compares the received water level value with a set value, alarms on the display module and a sound-light alarm module when the received water level value exceeds the set value, and sends the positioning information of an excessive water accumulation place to a mobile phone of a processing person through a GSM communication module so that the processing person can timely go to the site to dredge. The system can realize centralized monitoring of accumulated water near each rainwater cover in real time, can send alarm information in time when the water level exceeds a set value, and is convenient for management personnel to process on site in time.

Drawings

Fig. 1 is a schematic block diagram of the circuit of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1, a rainwater cover accumulated water monitoring system comprises a plurality of rainwater cover monitoring points and a centralized monitoring point;

the rainwater cover monitoring point comprises a processor module I, a storage battery pack, a pressure detection module, a pressure water level conversion module, a GPS positioning module and a wireless communication module I;

the first processor module is respectively connected with the storage battery pack, the pressure water level conversion module, the GPS positioning module and the first wireless communication module; the pressure detection module is connected with the pressure water level conversion module; the pressure sensor is arranged on the upper surface of the rainwater cover;

the centralized monitoring point comprises a second processor module, a power supply module, a second wireless communication module, a GSM communication module, an audible and visual alarm module and a display module; the processor module II is respectively connected with the power supply module, the wireless communication module II, the GSM communication module, the sound-light alarm module and the display module;

the first wireless communication module is wirelessly connected with the second wireless communication module.

Preferably, the first processor module and the second processor module are both PLC controllers.

Preferably, the number of the pressure sensors is at least four, and the pressure sensors are arranged around the upper part of the rain cover.

The pressure detection module is used for sensing a pressure signal of a water level and sending the pressure signal to the pressure water level conversion module, the pressure water level conversion module is used for converting the pressure signal of the water level into a water level value and sending the water level value to the processor module I, the processor module I sends the water level value and positioning information of the GPS positioning module to the processor module II in real time, the processor module II displays the received information in real time through the display module, meanwhile, the received water level value is compared with a set value, when the water level value exceeds the set value, warning is conducted on the display module and the sound-light alarm module, meanwhile, the positioning information of the excessive water accumulation place is sent to a mobile phone of a processing person through the GSM communication module, and therefore the processing person can timely go to the site to conduct dredging processing. The system can realize centralized monitoring of accumulated water near each rainwater cover in real time, can send alarm information in time when the water level exceeds a set value, and is convenient for management personnel to process on site in time.

Claims (3)

1. A rainwater cover accumulated water monitoring system is characterized by comprising a plurality of rainwater cover monitoring points and a centralized monitoring point;

the rainwater cover monitoring point comprises a processor module I, a storage battery pack, a pressure detection module, a pressure water level conversion module, a GPS positioning module and a wireless communication module I;

the first processor module is respectively connected with the storage battery pack, the pressure water level conversion module, the GPS positioning module and the first wireless communication module; the pressure detection module is connected with the pressure water level conversion module; the pressure sensor is arranged on the upper surface of the rainwater cover;

the centralized monitoring point comprises a second processor module, a power supply module, a second wireless communication module, a GSM communication module, an audible and visual alarm module and a display module; the processor module II is respectively connected with the power supply module, the wireless communication module II, the GSM communication module, the sound-light alarm module and the display module;

the first wireless communication module is wirelessly connected with the second wireless communication module.

2. A rainwater cover accumulated water monitoring system according to claim 1, wherein the first processor module and the second processor module are both PLC controllers.

3. A cap seeper monitoring system according to claim 1 or 2, wherein the number of the pressure sensors is at least four, and the pressure sensors are arranged around the upper part of the cap.

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