What are the applications of wireless pressure level gauge in smart water system?

The wireless pressure (level) meter will provide a comprehensive perception of basic information such as urban access, supply, use, and drainage for smart water conservancy and water affairs, integrate and utilize various information related to water affairs, build a smart water cloud data center, provide information services for business authorities, water-related enterprises and the public, and promote the construction of urban public service system and social management system; Reduce urban flood disasters, improve the efficiency of water resources management and utilization, strengthen water environment supervision and protection, and build ecologically livable cities, so as to achieve "harmony between man and water".

It is generally suitable for fire water pipe network, fire terminal, fire pump room, urban water supply, petrochemical industry and other fields that require unattended and remote monitoring.

The smart water conservancy system can achieve the following functions: floating debris detection on the water surface, garbage stacking detection in the river, detection of boats returning to the hungry in the basin, detection of industrial wastewater discharge, early and prudent detection of illegal construction around the river, detection of river garbage incineration, alarm monitoring of water level crossing the border, etc., and real-time monitoring and early warning of the above abnormal events through intelligent analysis technology.

Once the smart water conservancy is implemented, it can realize automatic monitoring and watering of crops, and accurately and quantitatively watering according to the demand for water in the process of plant growth.

The boiler drum water level is measured with differential pressure (pressure), the temperature is controlled, and the water to be injected is controlled by the flow rate.

Reactors, water tanks, etc. There are also cement, chemical, power station, petrochemical, metallurgy, textile, printing and dyeing and pharmaceutical, etc.

The water supply industry uses pressure sensors to carry out pressure water supply, the heating industry uses temperature sensors to control the operation and stop of the circulating pump, and the heating industry can also use the flow sensor to control the flow of the circulating water pump.

Flow sensor to control the flow rate of the circulating water pump.

cement, chemical, power station and other industries.

Wireless sensors, including wireless gas sensors, wireless pressure sensors, wireless temperature sensors, wireless temperature and humidity sensors, wireless liquid level sensors, wireless wind speed sensors, wireless flow sensors, it and the Internet of Things intelligent gateway, wireless measurement and control device, central server, etc. together to build a closed Shenzhen Xinli technology wireless data acquisition and monitoring system, the application field is very wide, which is also the mainstream trend of future development.

1. Factory production process data acquisition system: equipment operation status and process parameter collection; data collection of inverters, intelligent devices, intelligent equipment, intelligent meters, etc.; Data collection of production line operation status; Temperature circulation equipment data collection; Data collection of aging rooms and high and low temperature boxes; Storage, storage tank level, ambient temperature and humidity, gas monitoring.

2. Pipe network and pipe ditch monitoring system: water supply pipe network pressure, flow and other parameters collection; Steam, heating, heating pipe network pressure, temperature, flow and other parameters collection; Compressed air network pressure collection; Measurement of pressure and temperature parameters of gas pipeline network; Pipe trench water level, gas content, manhole cover position parameters collection.

3. Energy management system: power data collection; Water, steam and gas energy consumption data collection; Distribution monitoring system data collection.

4. Warehousing and storage environment monitoring system: collection of temperature parameters of medical ultra-low temperature refrigerators; Collection of temperature, humidity and gas parameters of pharmaceutical storage environment; Data collection of temperature and humidity of grain and food storage environment.

5. Agricultural and animal husbandry environmental monitoring system: collection of environmental temperature and humidity, H2S, NH3, light and other parameters for raising chickens and cattle; Parameters such as environmental temperature and humidity, soil temperature and humidity, light, and CO2 in agricultural greenhouses are collected.

6. Atmospheric environment monitoring system:

Parameter collection of toxic and harmful gases in public places such as parks, schools, and communities; Measurement of toxic and harmful gas parameters in cities, industrial parks, forests and other atmospheric environments.

7. Water leakage detection system.

Water leakage monitoring in computer room, water leakage monitoring in factory workshop, water leakage monitoring in commercial and building buildings; Pipeline leakage monitoring, etc.

The wireless pressure sensor is suitable for measuring the pressure value of non-viscous liquids, vapors and gases, etc., and is suitable for long-distance transmission and industrial automation systems, especially for the occasion where the field is inconvenient for wiring. The pressure data in each pipeline is detected by each pressure sensor and wirelessly transmitted to the wireless data base station terminal DTU, and the DTU can upload the data to the central control room through wireless communication equipment (such as SCDMA, GPRS, CDMA or data radio, etc.), so as to achieve centralized detection and remote control. It can be widely used in petroleum, chemical industry, smart fire protection, smart water, electric power, metallurgy, pharmaceutical, food and other industrial fields, and is an ideal upgrade product for traditional pressure gauges and traditional pressure transmitters.

Wireless sensor is a wireless data communication collector that integrates data collection, data management, data communication and other functions. The more common and commonly used wireless sensors, mainly including XL61 wireless gas sensor, XL61 wireless pressure sensor, XL61 wireless temperature sensor, XL51 wireless temperature and humidity sensor, wireless liquid level sensor, etc., can be customized according to the needs of users, and are used in smart water, smart water conservancy, smart pipe network, smart agriculture, smart breeding, smart lighting, smart collections, smart warehouses, smart factories, smart storage tanks, smart laboratories and other fields.

Xinli wireless sensors have a wide range of applications, involving almost all aspects of industrial and agricultural production and life, such as petrochemical industry, vegetable greenhouses, breeding greenhouses, water supply, gas and heating pipelines, pharmaceutical warehouses, grain warehouses, freezers and freezers, buildings, basements, computer rooms, libraries, museums, cold chain transportation, and so on.

The wireless sensor is actually a wireless data acquisition and communication terminal RTU. Shenzhen Xinli has designed corresponding wireless sensors for different collection objects. For example, wireless gas sensors mainly collect gases.

Wireless temperature sensor, mainly to collect temperature. The accuracy of the collected data, the anti-interference of signal transmission, the power consumption of the device, the service life, etc. are the main criteria for selecting wireless sensors.

It is mainly used in the environmental monitoring fields such as collection and storage environmental monitoring system, petrochemical storage tank environmental monitoring system, livestock and poultry aquaculture environmental monitoring system, agricultural greenhouse environmental monitoring system, major hazard source environmental monitoring system, petroleum, water supply and drainage, heating pipe network pipeline monitoring system, atmospheric environment monitoring system, electric power (electricity, distribution) monitoring system, production and manufacturing intelligent monitoring system, etc.

The smart water conservancy system of the Internet of Things can achieve the following goals:

Faster perception of real-time indicators affecting urban water conservancy systems;

More comprehensive monitoring of the change process of inspection and management, disaster resistance command, and emergency accidents; With spring change.

more effectively promote and assess the implementation effect of water fraud judgment supervision, inspection and management, and water conservancy incident handling;

Smarter decision-making on major water conservancy management issues in key urban areas and river basins.

Business Charging and Customer Service Information System Solution: A comprehensive information system solution for water enterprises to handle meter reading charges and customer service business.

Production management information system solution: a production management solution that seamlessly integrates production process automation and production operation management for water enterprises.

Water supply and drainage dispatching system solution: an integrated system solution for production and dispatching management of water enterprises.

Pipe network leakage analysis system solution: leakage analysis and leakage reduction information solution for water enterprises.

Water Plant Efficiency Evaluation System Solution: Meltwater Plant Management System and Operation Integrating Production Operation Evaluation and Optimization Management Solution for Water Enterprises.

Founded in 2001, Yidu Intelligent Group has nearly 20 years of project management experience in the field of water affairs, you can go to the official website to learn about smart water solutions, I hope my answer can help you.

At present, the urban drainage pipe network has the characteristics of huge structure, intricate structure and so on, in the prior art, the monitoring and monitoring of the urban drainage pipe network still stay in the mode of relying on a large number of artificial works, and the intelligent level, the accuracy rate can not meet the needs of the prior art.

1. The development status and demand of the traditional urban water industry.

In recent years, the Internet of Things and cloud computing technologies have been continuously innovated and improved, providing favorable conditions for the creation of smart cities. At the same time, in order to ensure water security and save limited resources, the traditional water industry is constantly exploring the construction of smart water. In order to realize smart production, smart management, smart service and smart control, smart water came into being.

1. In the urban water supply and drainage system, it basically relies on manual management and inspection to ensure that the water supply and drainage of all links are normal, the efficiency is low, and the feedback cycle is long;

2. There are many situations such as disturbing the people, "inaccurate reading", "valuation" and other situations such as manual meter reading, and the customer service experience is poor;

3. Water quality, water pressure, and related environmental data cannot be clearly grasped, which is not conducive to the refined management of water affairs;

4. The status of water equipment such as pumps, sluices, water hydrants, and sewage treatment devices cannot be managed in a unified manner, and it is difficult to manage the equipment;

5. The drainage pipe network, sewage treatment facilities, reclaimed water reuse and other drainage systems are not sound.

In response to the market demand of the water industry, the figure below shows that Tupu IOT has launched a smart water Internet of Things solution

Based on the concept of the Internet of Things, the scheme adopts information technology, combined with GIS display, to achieve real-time monitoring of the operation indicators of the pipe network, including the liquid level, flow, water quality, gas, pumping station operation status and other information of the pipe network, to ensure that the pipe network plays a safe and efficient role, through the construction of a safety early warning platform, improve the emergency command and rapid disposal capabilities, and ensure the safe operation of the urban drainage pipeline, so that the safe operation of the entire urban drainage pipeline can be grasped, controlled, and improved. Advanced city-level hydraulic analysis capabilities for a more comprehensive assessment of urban drainage network capacity. Based on the data of urban drainage facilities, combined with the monitoring data of the pipe network and the meteorological and rainy conditions, it provides a decision-making basis for the intelligent division of urban catchment areas, drainage planning and flood prevention.