CN207424698U - A kind of power distribution room humiture cloud monitoring system - Google Patents

Abstract

The utility model discloses a temperature and humidity cloud monitoring system for a power distribution room, which includes a temperature and humidity detection terminal, a wireless communication device and a data cloud platform; the temperature and humidity detection terminal is set in the power distribution room, and the temperature and humidity detection terminal passes through the The wireless communication device communicates with the data cloud platform, and uploads the temperature and humidity measurement data of the corresponding power distribution room in real time; the data cloud platform includes a data analysis module, a database module and an alarm module, and the data analysis module monitors the temperature in real time Humidity detects the measurement data transmitted by the terminal, and sends an alarm signal through the alarm module when the humidity exceeds a preset threshold, and the obtained historical measurement data is stored in the database module. The utility model provides a temperature and humidity cloud monitoring system for a power distribution room, which can monitor the temperature and humidity in the power distribution station and cabinet panel in real time online, and effectively improve the operation reliability of the power distribution network.

Description

A temperature and humidity cloud monitoring system for power distribution room

technical field

The utility model relates to an online monitoring system, in particular to a temperature and humidity cloud monitoring system for a distribution room.

Background technique

The 10KV distribution station building is an important hub for power supply and distribution, and its internal environment (temperature, humidity, etc.) is an important basic guarantee for the normal operation of the power distribution network. Longyan is located in a mountainous area, and the climate is relatively humid all year round. Excessive air humidity will cause poor contact of devices, rust and jamming of machines, resulting in difficult operation, and in the long run, it will easily lead to a decrease in the insulation performance of electrical equipment. However, if the indoor temperature is too high, the insulation of electrical equipment will age rapidly, reducing its life and rated current. If the heat of the device is not dissipated in time, it will cause the device to overheat and trip, or even burn the device.

At present, the detection of the temperature and humidity of the substation room still relies on the traditional method of on-site inspection and perception by personnel. Due to the long inspection cycle, it will take up to 3 months to find out when there is a defect in the equipment. Environmental monitoring of distribution substations has become an indispensable normal work for power distribution operation and maintenance. The temperature and humidity monitoring in the station and cabinet panel is an effective way to realize real-time environmental monitoring of the distribution station room.

Utility model content

The purpose of the utility model is to overcome the deficiencies of the existing technology, and provide a temperature and humidity cloud monitoring system for power distribution room, which can monitor the temperature and humidity in the power distribution station and cabinet panel in real time online, and effectively improve the power distribution network. operational reliability.

The technical scheme that the utility model solves its technical problem adopts is:

A temperature and humidity cloud monitoring system for a power distribution room, including a temperature and humidity detection terminal, a wireless communication device, and a data cloud platform; the temperature and humidity detection terminal is set in the power distribution room, and the temperature and humidity detection terminal communicates with the wireless communication device The data cloud platform communicates and interconnects, and uploads the temperature and humidity measurement data of the corresponding power distribution room in real time;

The data cloud platform includes a data analysis module, a database module, and an alarm module. The data analysis module monitors the measurement data transmitted by the temperature and humidity detection terminal in real time, and sends an alarm signal through the alarm module when the preset threshold value is exceeded. The obtained The historical measurement data is stored in the database module.

As a preference, it also includes a monitoring center, the monitoring center is interconnected with the data cloud platform, and regularly downloads the temperature and humidity data of the database module of the data cloud platform in a certain period, and obtains the alarm signal sent by the alarm module.

As a preference, it also includes a mobile monitoring terminal, the mobile monitoring terminal is interconnected with the data cloud platform, and obtains the alarm signal sent by the alarm module.

As a preference, the mobile monitoring terminal is a smart phone.

The beneficial effects of the utility model are: the temperature and humidity monitoring system of the 10KV power distribution station adopts technologies such as the Internet of Things and big data processing, and conducts online real-time monitoring of the temperature and humidity in the station and cabinet screen, effectively improving the operation of the distribution network reliability. The temperature and humidity detection terminal (realized by the temperature and humidity sensor) is used to collect the environment of the distribution station room, the telecontrol panel and the DC panel, and the temperature and humidity in real time. And use wireless communication equipment to complete the collection and transmission of temperature and humidity data to the data cloud platform. Taking the substation room as the unit, the real-time operating status can be displayed visually through the 2D model, and the historical data can be displayed in different dimensions such as days, weeks, months and years through chart curves. Through the setting of temperature and humidity alarm parameter thresholds (upper limit and lower limit), the temperature and humidity changes of the station building can be monitored in real time. When an alarm occurs, the system automatically generates an alarm event, notifies the operation and maintenance personnel of the monitoring center through the platform monitoring sound alarm, and notifies the relevant operators by SMS reminder.

The utility model will be further described in detail below with reference to the accompanying drawings and embodiments; however, the temperature and humidity cloud monitoring system for power distribution room of the utility model is not limited to the embodiments.

Description of drawings

Fig. 1 is a system network topology diagram of the present utility model;

Fig. 2 is a system business flowchart of the utility model.

Among them, 1. Temperature and humidity detection terminal; 2. Wireless communication equipment; 3. Data cloud platform; 4. Monitoring center; 5. Mobile monitoring terminal; 6. Communication network;

Detailed ways

Example:

Referring to Fig. 1, a temperature and humidity cloud monitoring system for a power distribution room of the present invention includes a temperature and humidity detection terminal 1, a wireless communication device 2 and a data cloud platform 3; the temperature and humidity detection terminal 1 is set in the power distribution room Inside, the temperature and humidity detection terminal 1 communicates and interconnects with the data cloud platform 3 through the wireless communication device 2, and uploads the temperature and humidity measurement data of the corresponding power distribution room in real time; the data cloud platform 3 includes a data analysis module and a database module and an alarm module, the data analysis module monitors the measurement data transmitted by the temperature and humidity detection terminal 1 in real time, and sends an alarm signal through the alarm module when the preset threshold value is exceeded, and the obtained historical measurement data is stored in the database module .

Also includes a monitoring center 4, the monitoring center 4 is interconnected with the data cloud platform 3, and regularly downloads the temperature and humidity data of the database module of the data cloud platform 3 with a certain period, and obtains the alarm signal sent by the alarm module. It also includes a mobile monitoring terminal 5, the mobile monitoring terminal 5 is interconnected with the data cloud platform 3, and obtains the alarm signal sent by the alarm module. The mobile monitoring terminal 5 is a smart phone.

The wireless communication device 2, the data cloud platform 3, the monitoring center 4 and the mobile monitoring terminal 5 are interconnected through a communication network 6, which may be a 2G/3G/4G data network.

The system business process is shown in Figure 2. The temperature and humidity data collected by the temperature and humidity sensor of the temperature and humidity monitoring terminal 1 in the distribution station room are transmitted to the data cloud platform 3 through the wireless communication device 2. After the data cloud platform 3 receives the data, it stores and makes historical statistics of these data in real time on the one hand, and analyzes whether to generate an automatic alarm on the other hand. If an alarm occurs, an alarm event is sent to the monitoring center 4 respectively, and a short message reminder is sent to the mobile monitoring terminal 5 of the relevant staff at the same time.

The above embodiments are only used to further illustrate a temperature and humidity cloud monitoring system for power distribution rooms of the present invention, but the present invention is not limited to the embodiments, and any simple modification made to the above embodiments based on the technical essence of the present invention Amendments, equivalent changes and modifications all fall within the scope of protection of the technical solution of the utility model.

Claims (4)

1. a kind of power distribution room humiture cloud monitoring system, it is characterised in that：Including Temperature and Humidity terminal, wireless telecom equipment and Data cloud platform；The Temperature and Humidity terminal is arranged in power distribution room, which passes through the wireless communication Equipment is interconnected with the data cloud Platform communication, and uploads the temperature and humidity measurement data of corresponding switchgear house in real time；

The data cloud platform includes data analysis module, database module and alarm module, and the data analysis module is real-time The measurement data of Temperature and Humidity terminal transmission is monitored, and alarm letter is sent by the alarm module when beyond predetermined threshold value Number, the historical measurement data obtained is stored in the database module.

2. a kind of power distribution room humiture cloud monitoring system according to claim 1, it is characterised in that：It further includes in monitoring The heart, the monitoring center are interconnected with the data cloud platform, and with the database mould of the regular downloading data cloud platform of some cycles The alarm signal that the data of the Temperature and Humidity module and acquisition alarm module of block are sent.

3. a kind of power distribution room humiture cloud monitoring system according to claim 1, it is characterised in that：Further include mobile monitor Terminal, the mobile monitoring terminal is interconnected with the data cloud platform, and obtains the alarm signal that the alarm module is sent.

4. a kind of power distribution room humiture cloud monitoring system according to claim 3, it is characterised in that：The mobile monitor is whole It holds as smart mobile phone.