CN219350967U - Intelligent environment monitoring system for power distribution room - Google Patents

Abstract

The application relates to a power distribution room intelligent environment monitoring system, the system includes: the cloud server comprises a sensor module, a central control module, intelligent equipment, a communication module, a cloud server and a mobile terminal, wherein the central control module is respectively connected with the sensor module, the intelligent equipment and the communication module; the communication module is connected with the cloud server; the cloud server is connected with the mobile terminal; according to the power distribution room environment data collection method, the central control end of the power distribution room is connected with the communication module, so that the power distribution room environment data collected by the sensor module can be uploaded to the cloud server; through the connection between the mobile terminal and the cloud server, a user can remotely monitor the power distribution room through the mobile terminal; through setting up intelligent device, when the emergency appears in the electricity distribution room, can make emergency treatment automatically, better realization electricity distribution room fortune dimension guarantees the power supply stability in electricity distribution room.

Description

Intelligent environment monitoring system for power distribution room

Technical Field

The application relates to the technical field of intelligent environment monitoring, in particular to an intelligent environment monitoring system for a power distribution room.

Background

With the increasing abundance of people in China, modern information and the technology of the Internet of things are continuously developed. Distribution room environmental monitoring intelligence has become an inevitable trend for penetration of many enterprise factories and high-rise buildings. The distribution room monitoring environmental data and control module (alarm, water pump, fan) on traditional meaning are not on the internet cloud, and operation and maintenance personnel can't use the cell-phone to look over current environmental data and control module anytime and anywhere, need go to the destination and look over current environmental data and open corresponding control module, work efficiency inefficiency. And the sensor and the control module cannot produce linkage work, so that the power supply reliability is greatly reduced. Meanwhile, when an emergency exists in the power distribution room, operation and maintenance personnel cannot arrive at the scene or take emergency measures in time, and even if an alarm device exists, the damage of the machine room is difficult to avoid.

Disclosure of Invention

In order to overcome the technical defects, the utility model provides an intelligent environment monitoring system for a power distribution room, which can improve the reliability of power supply of the power distribution room and the safety of the power distribution room.

In order to solve the problems, the utility model is realized according to the following technical scheme:

the utility model provides an intelligent environment monitoring system for a power distribution room, which comprises the following components:

the sensor module is used for collecting monitoring data of the power distribution room environment;

the central control module is connected with the sensor module and used for generating an adjusting instruction according to the monitoring data;

the intelligent equipment is connected with the central control module and used for adjusting the environment of the power distribution room according to the adjusting instruction;

the communication module is connected with the central control module and used for uploading regulation and control data of the central control module, wherein the regulation and control data comprise monitoring data and regulation instructions;

the cloud server is connected with the communication module and used for acquiring and storing the regulation and control data;

the mobile terminal is connected with the cloud server and used for displaying the regulation and control data; the mobile terminal sends a terminal adjusting instruction to the cloud server, the central control module obtains the terminal adjusting instruction through the communication module and sends the terminal adjusting instruction to the intelligent equipment, and the intelligent equipment readjusts the power distribution room environment according to the terminal adjusting instruction.

Further, the sensor module includes: the water level sensor is used for collecting environmental water level data of the power distribution room; the intelligent device comprises a water pump and is used for carrying out drainage treatment on the power distribution room according to the environmental water level data of the power distribution room.

Further, the sensor module comprises a temperature sensor for acquiring the ambient temperature of the power distribution room; the intelligent equipment comprises a fan and is used for conducting ventilation and cooling treatment on the power distribution room according to the ambient temperature data of the power distribution room.

Further, the sensor module comprises a humidity sensor for collecting the ambient humidity of the power distribution room; the intelligent device comprises a dehumidifier which is used for dehumidifying the power distribution room according to the environmental humidity data of the power distribution room.

Further, the sensor module comprises a smoke sensor for collecting environmental smoke data of the power distribution room; the intelligent equipment comprises a fire extinguishing device and is used for extinguishing fire at a smoke generation point according to the smoke concentration data of the power distribution room environment.

Further, the intelligent device further comprises an alarm device for alarming according to abnormal monitoring data.

Further, the communication module is a WiFi wireless communication module.

Further, the intelligent environmental monitoring system for the power distribution room further comprises a display module which is connected with the central control module and used for displaying the environmental monitoring data condition of the power distribution room.

Further, the intelligent environment monitoring system of the power distribution room further comprises a control device which is connected with the central control module and used for locally setting the threshold parameters of the sensor module and controlling the operation of intelligent equipment.

Compared with the prior art, the utility model has the following beneficial effects:

according to the power distribution room environment data collection method, the central control end of the power distribution room is connected with the communication module, so that the power distribution room environment data collected by the sensor module can be uploaded to the cloud server; through the connection between the mobile terminal and the cloud server, a user can remotely monitor the power distribution room through the mobile terminal; through setting up intelligent device, when the emergency appears in the electricity distribution room, can make emergency treatment automatically, better realization electricity distribution room fortune dimension guarantees the power supply stability in electricity distribution room.

Drawings

The utility model is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is an application diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 2 is a block diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 3 is a system architecture diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 4 is a pin diagram of an STM32F103C8T6 master control chip of a power distribution room intelligent environment monitoring system in one embodiment;

FIG. 5 is a circuit diagram of a Wi-Fi module of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 6 is a circuit diagram of a temperature and humidity sensor module of the intelligent environmental monitoring system of the power distribution room in one embodiment;

FIG. 7 is a circuit diagram of a water level sensor module of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 8 is a circuit diagram of a smoke sensor module of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 9 is a circuit diagram of an alarm module of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 10 is a circuit diagram of a smart device of a power distribution room smart environment monitoring system, in accordance with one embodiment;

FIG. 11 is a circuit diagram of an LED of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 12 is a circuit diagram of a USB interface of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 13 is a circuit diagram of a startup mode selection of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 14 is a power circuit diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 15 is a reset control circuit diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 16 is a circuit diagram of a SWD interface of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 17 is a key circuit diagram of a power distribution room intelligent environmental monitoring system in one embodiment;

FIG. 18 is a circuit diagram of a display interface of a power distribution room intelligent environmental monitoring system, in one embodiment;

fig. 19 is a circuit diagram of a crystal oscillator of an intelligent environmental monitoring system of a power distribution room in one embodiment.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

It should be noted that, in the electronic field, the pins of the electronic component are marked with the same line number, which indicates that the pins are connected, for example, the line number of the chip pin 13 in fig. 4 is "RXD3", and the line number of the chip pin 1 in fig. 5 is "RXD3", which indicates that the pins 1 and 13 of the two chips are connected.

Example 1

The embodiment provides an intelligent environment monitoring system for a power distribution room, and the application is shown in fig. 1. The power distribution room device 100 may establish a network connection with the cloud server 200, and the client may be installed in the mobile terminal 300, and send a request to the server 200 through the network to obtain environmental monitoring data of the power distribution room device 100 and adjust a functional configuration of the device.

In particular, the mobile terminal 300 may include, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers; cloud server 200 may be implemented using a stand-alone server or a server cluster composed of a plurality of servers.

In a specific implementation, the power distribution room device 100 is used for intelligent environmental monitoring of a power distribution room, the power distribution room device 100 can collect and acquire environmental data of the power distribution room in real time, including environmental temperature and humidity, water level, harmful gas and other data, and can adjust the monitored power distribution room environment according to the collected environmental data, meanwhile, the environmental collection data is uploaded to the cloud server 200 through the internet, the cloud server 200 can acquire and store the environmental collection data and adjustment log information, and a user can acquire the environmental collection data and adjustment log information through a client on the mobile terminal 300. The client may generate a function change request in response to a user operation, and transmit the function change request to the cloud server 200. After receiving the function change request, the cloud server 200 may generate function change information based on the function change request and send the function change information to the power distribution room device 100, and the power distribution room device 100 may perform application configuration change according to the function change information, so as to install a target function application, so that the power distribution room device 100 has a target function.

In one implementation, as shown in fig. 2, the intelligent environmental monitoring system for a power distribution room includes:

the sensor module 102 is used for collecting monitoring data of the power distribution room environment; the sensor is used as a detection device, can sense the measured information, can convert the sensed information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like, and can set the sensor modules 102 with different functions to collect and monitor the environmental data of the power distribution room according to the environmental requirements of the power distribution room.

The central control module 101 is connected with the sensor module 102 and is used for generating an adjusting instruction according to the monitoring data; the central control module 101 acquires the environmental monitoring data of the power distribution room, which is acquired by the sensor module 102, and generates corresponding adjusting instructions according to the acquired environmental monitoring data for real-time environmental adjustment of the power distribution room.

The intelligent equipment 103 is connected with the central control module 101 and is used for adjusting the environment of the power distribution room according to the adjusting instruction; the intelligent devices 103 can be correspondingly arranged according to the acquired information of the functions and the sensors, and the central control module 101 is used for controlling the corresponding intelligent devices 103 to regulate and control the environment of the power distribution room in real time according to the regulating instruction acquired by the sensors on the monitoring data of the environment of the power distribution room.

The communication module 104 is connected with the central control module 101 and is used for uploading regulation and control data of the central control module 101, wherein the regulation and control data comprise monitoring data and regulation instructions; the communication module 104 is configured to transmit the collected sensor data, meter data, and an adjustment instruction of the central control module 101 to a server through the internet, so that the adjustment data of the power distribution room environment can be networked in real time.

The cloud server 200 is connected with the communication module 104 and is used for acquiring and storing the regulation and control data; the central control module 101 is connected with the cloud server 200 through the communication module 104, and the cloud server 200 can acquire all the regulation and control data of the power distribution room and can store the regulation and control data, and a user can acquire the regulation and control data through the Internet.

The mobile terminal 300 is connected with the cloud server 200 and is used for inquiring the regulation and control data; the mobile terminal 300 sends a terminal adjustment instruction to the cloud server 200, the central control module 101 obtains the terminal adjustment instruction through the communication module 104 and sends the terminal adjustment instruction to the intelligent device 103, and the intelligent device 103 readjusts the power distribution room environment according to the terminal adjustment instruction.

Specifically, the user can obtain the monitoring data and the adjustment log of the power distribution room on the cloud server 200 through the client on the mobile terminal 300, and further remotely monitor the environment of the power distribution room through the mobile terminal 300, meanwhile, the user can send a new terminal adjustment instruction through the mobile terminal 300 according to the fed-back monitoring data and the adjustment log, the terminal adjustment instruction can be sent to the central control module 101 through the cloud server 200, the central control module 101 regulates and controls the intelligent device 103 according to the terminal adjustment instruction, and further the effect of remotely and real-timely regulating the environment of the power distribution room is achieved. The construction of the client is shown in the prior art.

In one embodiment, as shown in FIG. 3, the sensor module 102 includes: the water level sensor is used for collecting environmental water level data of the power distribution room; the intelligent device 103 comprises a water pump for performing drainage treatment on the power distribution room according to the environmental water level data of the power distribution room.

Specifically, water level data of the power distribution room is collected by a water level sensor so as to monitor whether water seepage conditions occur in the environment of the power distribution room, and a water pump is used for carrying out drainage treatment on the power distribution room. The water level sensor sends the collected environmental water level data to the central control module 101, the central control module 101 obtains the environmental water level data, the environmental water level data is compared with a set water level threshold, if the environmental water level data is higher than the set water level threshold, the central control module 101 outputs a corresponding water level adjusting instruction to send a water supply pump, the water pump carries out drainage treatment of the power distribution room according to the water level adjusting instruction, and when the environmental water level data is lower than the water level threshold due to drainage, the central control module 101 outputs a corresponding closing adjusting instruction to stop the drainage work of the water pump. Correspondingly, a plurality of water pumps can be arranged according to the requirements and the environmental requirements, and the water drainage treatment of the power distribution room can be carried out in a combined or independent mode according to the adjusting instruction of the central control module 101. The related algorithm for implementing that each sensor obtains environmental data and sends the data to the central control module 101, and the central control module 101 sends an instruction to the intelligent device 103 to adjust the environment according to the collected data is an application technology of the internet of things, and the related content of the algorithm is referred to the prior art and will not be described in detail herein.

In one embodiment, as shown in FIG. 3, the sensor module 102 includes a temperature sensor for acquiring the ambient temperature of the power distribution room; the intelligent device 103 comprises a fan and is used for conducting ventilation and cooling treatment on the power distribution room according to the ambient temperature data of the power distribution room.

Specifically, temperature data of the power distribution room is collected by a temperature sensor so as to monitor whether the environment of the power distribution room has an overhigh temperature or not, and the fan is used for cooling the power distribution room. The temperature sensor sends the collected environmental temperature data to the central control module 101, the central control module 101 obtains the environmental temperature data, the environmental temperature data is compared with a set temperature threshold value, if the environmental temperature data is higher than the set temperature threshold value, the central control module 101 outputs a corresponding temperature regulation instruction to be sent to the fan, the fan carries out cooling treatment of the power distribution room according to the temperature regulation instruction, and when the fan is opened so that the environmental temperature data collected by the temperature sensor is lower than the temperature threshold value, the central control module 101 outputs a corresponding closing regulation instruction to stop cooling work of the fan to the power distribution room.

In one embodiment, as shown in fig. 3, the sensor module 102 includes a humidity sensor for collecting the ambient humidity of the power distribution room; the intelligent device 103 comprises a dehumidifier for performing humidity treatment on the power distribution room according to the power distribution room environment humidity data.

Specifically, when the humidity of the electricity distribution room environment is too high, the electrical apparatus is easy to corrode under the condition of high humidity and high voltage, and the danger is easy to generate for a long time, and meanwhile, the operation of the transformer also has corresponding humidity requirements.

The humidity sensor sends the collected environmental humidity data to the central control module 101, the central control module 101 obtains the environmental humidity data, and compares the environmental humidity data with a set humidity threshold, if the environmental humidity data is higher than the set humidity threshold, the central control module 101 outputs a corresponding humidity adjustment instruction to be sent to the dehumidifier, the dehumidifier performs cooling treatment of the power distribution room according to the humidity adjustment instruction, and when the dehumidifier is opened to enable the environmental humidity data collected by the humidity sensor to be lower than the humidity threshold, the central control module 101 outputs a corresponding closing adjustment instruction to stop the dehumidification work of the dehumidifier to the power distribution room.

In one embodiment, as shown in FIG. 3, the sensor module 102 includes a smoke sensor for collecting environmental smoke data of the power distribution room; the intelligent device 103 comprises a fire extinguishing device and is used for processing smoke and fire sources of the power distribution room according to the smoke concentration data of the environment of the power distribution room.

Specifically, when the power distribution room appears smog, there is corresponding conflagration hidden danger, this embodiment is gathered the smog data of power distribution room by smoke transducer, whether the power distribution room environment has produced smog or the too high situation of smog concentration, and set up corresponding extinguishing device and carry out smog and fire source and handle, wherein extinguishing device can adopt electromagnetic suspension formula dry powder fire extinguisher, the medium-high voltage environment in power distribution room, dry powder fire extinguisher mainly adorns the ammonium phosphate, intelligent device 103 uses this kind of fire extinguisher can produce fine powder, be suitable for the power distribution room and use.

The smoke sensor sends collected environmental smoke concentration data to the central control module 101, the central control module 101 obtains the environmental smoke concentration data, the environmental smoke concentration data is compared with a set smoke concentration threshold, if the environmental smoke concentration data is higher than the set smoke concentration threshold, the central control module 101 outputs a corresponding fire extinguishing adjustment instruction to be sent to the fire extinguishing device, the fire extinguishing device performs smoke removal and fire extinguishing treatment of a power distribution room according to the fire extinguishing adjustment instruction, and when the fire extinguishing device is started, the central control module 101 outputs a corresponding closing adjustment instruction to stop the fire extinguishing device from extinguishing smoke of the power distribution room when the environmental smoke concentration data collected by the smoke sensor is lower than the smoke concentration threshold.

In one embodiment, as shown in fig. 3, the smart device 103 further includes an alarm device for alarming according to the abnormal monitoring data of the power distribution room environment.

Specifically, when the monitoring data collected by the power distribution room sensor module 102 is abnormal, the central control module 101 sends out a corresponding adjusting instruction and simultaneously generates an alarm signal, the alarm signal is sent to an alarm device, and the alarm device carries out alarm processing to remind machine room personnel of the occurrence of the abnormality in the machine room environment.

In one embodiment, as shown in fig. 3, the communication module 104 is a WiFi wireless communication module 104.

Specifically, the communication module 104 that the central control module 101 communicates with the cloud server 200 adopts the WiFi wireless communication module 104, and the monitoring data of the power distribution room is converged to the cloud server 200 of the network layer through the WiFi wireless communication module 104, and then the mobile terminal 300 of the application layer is used for remotely controlling the equipment, and meanwhile, the management efficiency is improved through data analysis.

Further, the intelligent environmental monitoring system for the power distribution room further comprises a display module, which is connected with the central control module 101 and is used for displaying the environmental monitoring data condition of the power distribution room.

Specifically, a display module is disposed in the power distribution room, and the display module is connected with the central control module 101, so that environmental monitoring data and regulation logs of the power distribution room can be displayed.

Further, the intelligent environmental monitoring system of the power distribution room further comprises a control device, wherein the control device is realized by a key circuit, is connected with the central control module 101, and is used for locally setting the threshold parameter of the sensor module 102 and controlling the operation of the intelligent equipment 103.

Specifically, in the power distribution room environment, a local control device is further provided, the control device is connected with the central control module 101, and machine room personnel can locally set parameter thresholds of each environment of the central control module 101 and threshold parameters of the sensor module 102 through the control device, and meanwhile, the operation of the intelligent device 103 can be controlled through the control device.

Preferably, as shown in fig. 4, according to the requirements of the intelligent environment monitoring system of the power distribution room based on cloud computing, the central control module 101 adopts an STM32F103C8T6 main control chip for processing data acquired by a sensor, controlling the intelligent device 103 to adjust the environment of the power distribution room according to the data, and simultaneously connecting with the cloud server 200 through a WiFi module for uploading the data and acquiring a remote control instruction of a user;

the WiFi module can use a WiFi module with the model number of ESP8266-1s, as shown in FIG. 5, pins 1 and 8 of the WiFi module are respectively connected with pins PA2 and PA3 of the main control chip, and pins 7 and 2 of the WiFi module are respectively connected to 3.3V and GND; the temperature and humidity sensor adopts a DHT11 sensor, the DHT11 sensor adopts a simplified single-bus communication protocol, the DHT11 sensor has a calibration function, temperature and humidity DATA are acquired through DATA pin operation, and as shown in fig. 6, a pin 2 of the sensor is connected with a PB0 pin of a main control chip. The 1 and 4 pins of the sensor are respectively connected with 3.3V and grounded; the Water level Sensor can be adopted for the Water level Sensor, the Water level state is obtained by operating the DATA pin, as shown in FIG. 7, the No. 1 pin of the Water level Sensor is connected with the PA1 pin of the main control chip, and the 2 pin and the 3 pin of the Water level Sensor are respectively connected with 5V and grounded; the smoke sensor module 102 can adopt an MQ2 smoke sensor, operate on an AO pin to obtain smoke concentration, as shown in fig. 8, a No. 4 pin of the smoke sensor is connected with a PA0 pin of a main control chip, and pins 1 and 2 of the smoke sensor are respectively connected with 5V and grounded; as shown in fig. 9, the DATA pin of the alarm module is connected with the PA8 pin of the main control chip, and the VCC and GND pins of the alarm are respectively connected to 3V and ground; as shown in fig. 10, the water pump circuit is connected with the PB10 pin of the main control chip, and the fan circuit is connected with the PA6 pin of the main control chip; in addition, the intelligent environment monitoring system for the power distribution room further comprises an LED circuit, a USB interface circuit, a starting mode selection circuit, a power supply circuit, a reset control circuit, an SWD interface circuit, a key circuit, a display interface circuit, a crystal oscillator circuit and the like, which are specifically shown in fig. 11-19 in sequence, wherein pins among hardware output the same or access the same signals, default hardware is corresponding connection, and the connection is electric connection.

Preferably, the cloud server 200 can adopt an ali cloud server to build an MQT message proxy server, wherein the MQT proxy has Mosquitto, verneMQ, EMQTT, and can be built on the basis of an EMQTT cloud server environment; in addition, the mobile terminal 300 can acquire the monitoring data of the intelligent environment monitoring system of the power distribution room by adopting a WeChat applet terminal, and a user can remotely control the environment of the power distribution room according to the adjustment requirement of the environment of the power distribution room through the applet. It should be noted that, the related algorithm in this embodiment is an application technology of the internet of things, and the related content of the algorithm is referred to the prior art and will not be described in detail herein.

According to the power distribution room environment data collection method, the central control end of the power distribution room is connected with the communication module, so that the power distribution room environment data collected by the sensor module can be uploaded to the cloud server; through the connection between the mobile terminal and the cloud server, a user can remotely monitor the power distribution room through the mobile terminal; through setting up intelligent device, when the emergency appears in the electricity distribution room, can make emergency treatment automatically, better realization electricity distribution room fortune dimension guarantees the power supply stability in electricity distribution room.

The foregoing description of the preferred embodiments of the present application is not intended to be limiting, but rather is intended to cover any and all modifications, equivalents, alternatives, and improvements within the spirit and principles of the present application.

Claims (9)

1. An intelligent environmental monitoring system for a power distribution room, comprising:

the sensor module is used for collecting monitoring data of the power distribution room environment;

the central control module is connected with the sensor module and used for generating an adjusting instruction according to the monitoring data;

the intelligent equipment is connected with the central control module and used for adjusting the environment of the power distribution room according to the adjusting instruction;

the communication module is connected with the central control module and used for uploading regulation and control data of the central control module, wherein the regulation and control data comprise monitoring data and regulation instructions;

the cloud server is connected with the communication module and used for acquiring and storing the regulation and control data;

the mobile terminal is connected with the cloud server and used for displaying the regulation and control data; the mobile terminal sends a terminal adjusting instruction to the cloud server, the central control module obtains the terminal adjusting instruction through the communication module and sends the terminal adjusting instruction to the intelligent equipment, and the intelligent equipment readjusts the power distribution room environment according to the terminal adjusting instruction.

2. The electrical distribution room intelligent environmental monitoring system of claim 1, wherein the sensor module comprises: the water level sensor is used for collecting environmental water level data of the power distribution room; the intelligent device comprises a water pump and is used for carrying out drainage treatment on the power distribution room according to the environmental water level data of the power distribution room.

3. The intelligent environmental monitoring system of a power distribution room of claim 1, wherein the sensor module comprises a temperature sensor for acquiring the ambient temperature of the power distribution room; the intelligent equipment comprises a fan and is used for conducting ventilation and cooling treatment on the power distribution room according to the ambient temperature data of the power distribution room.

4. The intelligent environmental monitoring system of a power distribution room of claim 1, wherein the sensor module comprises a humidity sensor for collecting the ambient humidity of the power distribution room; the intelligent device comprises a dehumidifier which is used for dehumidifying the power distribution room according to the environmental humidity data of the power distribution room.

5. The intelligent environmental monitoring system of a power distribution room of claim 1, wherein the sensor module comprises a smoke sensor for collecting environmental smoke data of the power distribution room; the intelligent equipment comprises a fire extinguishing device and is used for extinguishing fire at a smoke generation point according to the smoke concentration data of the power distribution room environment.

6. The intelligent environmental monitoring system of a power distribution room of claim 1, wherein the intelligent device further comprises an alarm device for alerting based on abnormal monitoring data.

7. The intelligent environmental monitoring system of a power distribution room of any one of claims 1 to 6, wherein the communication module is a WiFi wireless communication module.

8. The intelligent environmental monitoring system of a power distribution room of claim 7, further comprising a display module coupled to the central control module for displaying environmental monitoring data conditions of the power distribution room.

9. The intelligent environmental monitoring system of a power distribution room of claim 8, comprising a control device connected to the central control module for locally setting the threshold parameters of the sensor module and controlling the operation of the intelligent device.

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