CN116470638A - Intelligent machine room management and control system - Google Patents

Abstract

The invention belongs to the technical field of intelligent machine room management and control, and particularly provides an intelligent machine room management and control system, which comprises a comprehensive monitoring subsystem, a data processing subsystem and a control subsystem, wherein the comprehensive monitoring subsystem monitors a machine room and inputs monitoring data into the data processing subsystem; the data processing subsystem classifies the received data and inputs the processed data into the fault processing subsystem; the fault processing subsystem matches the received data with preset normal state data and different types of abnormal state data, and outputs alarm information when the matching similarity with the abnormal state data is greater than or equal to a set similarity threshold value; when the matching similarity with the abnormal state data is smaller than a set similarity threshold, the received corresponding data sent by the data processing subsystem is sent to the early warning analysis subsystem; the early warning analysis subsystem analyzes and processes the received data and outputs early warning information to the comprehensive monitoring subsystem. The centralized control of equipment in the machine room is realized, and the labor cost is reduced.

Description

Intelligent machine room management and control system

Technical Field

The invention relates to the technical field of intelligent machine room management and control, in particular to an intelligent machine room management and control system.

Background

Along with the progress of science and technology, people gradually increase the demand of electric power, the electric power industry has greatly developed, and an electric power machine room is used for controlling the normal operation of an electric power system, so that the electric power system can be effectively controlled to perform normal operation. The power grid scale is continuously enlarged, the importance of the machine room is gradually improved, the number of the established funds of the machine room is gradually increased, and in order to avoid the waste of the funds, most people design and carry control systems in the machine room.

The existing monitoring system realizes automatic line fault positioning, thereby changing the method of manually inspecting and searching faults in the past and processing fault alarm data on the power distribution network. But current monitored control system can exist the problem that the control is not in place in the use, to equipment management and control in the computer lab and data check etc. need the staff get into the computer lab and look over and control to need the staff to supervise the computer lab in real time, just so can lead to the staff comparatively dispersedly to the management and control of whole electric power computer lab, and the cost of labor is higher.

Along with the increasing of the information quantity of monitoring, higher requirements are put forward on a management and control system of an electric machine room, and how to design an intelligent management and control system so that the management and control of the machine room are intelligent, modularized and more convenient and efficient, namely how to improve the concentration and the automaticity of the management and control of the electric machine room, and the reduction of the labor cost is a technical problem which needs to be solved by a person skilled in the art.

Disclosure of Invention

Aiming at the problems of improving the centralization and the automaticity of controlling the electric machine room and reducing the labor cost, the invention provides an intelligent machine room control system.

The technical scheme of the invention provides an intelligent machine room management and control system which comprises a comprehensive monitoring subsystem, a data processing subsystem, a fault processing subsystem and an early warning analysis subsystem;

the comprehensive monitoring subsystem is used for monitoring the power distribution state, the temperature and humidity, the air conditioner, the UPS and the storage battery of the machine room, inputting monitoring data into the data processing subsystem and displaying the monitoring data in real time; the alarm information display module is also used for displaying the alarm information and outputting an alarm notification after receiving the alarm information;

the data processing subsystem is used for classifying the received data and inputting the processed data into the fault processing subsystem;

the fault processing subsystem is used for matching the received data with preset normal state data and different types of abnormal state data, and outputting alarm information to the comprehensive monitoring subsystem when the matching similarity with the abnormal state data is greater than or equal to a set similarity threshold value; when the matching similarity with the abnormal state data is smaller than a set similarity threshold, the received corresponding data sent by the data processing subsystem is sent to the early warning analysis subsystem;

and the early warning analysis subsystem is used for analyzing and processing the received data and outputting early warning information to the comprehensive monitoring subsystem.

According to the technical scheme, the operation parameters and the detection data of all the equipment in the machine room can be directly obtained outside the machine room, the energy consumption of the equipment in the machine room can be monitored, the equipment does not need to be queried and recorded one by one in the machine room, the centralized management and control of the equipment in the machine room is realized, and the labor cost is reduced.

As the optimization of the technical scheme of the invention, the comprehensive monitoring subsystem comprises an air conditioner monitoring module, a power distribution monitoring module, a temperature and humidity monitoring module, a UPS monitoring module and a storage battery detection module;

the air conditioner monitoring module is used for monitoring the working voltage, current, air supply/return temperature and humidity, the working time and the running state of the compressor of the air conditioner, inputting monitoring data into the data processing subsystem, and simultaneously receiving a control instruction output by the data processing subsystem to control the on-off state and adjust the air supply temperature;

the power distribution monitoring module is used for monitoring input/output phase voltage, line voltage, current, frequency, power and switch state and inputting monitoring data into the data processing subsystem;

the temperature and humidity monitoring module is used for monitoring the temperature and humidity of the environment in the machine room and inputting monitoring data into the data processing subsystem;

the UPS monitoring module is used for monitoring the running states of the rectifier, the inverter, the battery, the bypass and the load and running parameters of the UPS and inputting monitoring data into the data processing subsystem;

the storage battery detection module is used for detecting the voltage and the charge-discharge current of the storage battery pack, detecting the voltage and the internal resistance of the single storage battery, and inputting detection data into the data processing subsystem.

As the optimization of the technical scheme of the invention, the power distribution monitoring module further comprises a power distribution link monitoring unit, a BA cold source monitoring unit and a network link topology monitoring unit;

the power distribution link monitoring unit is used for checking the working states of the local power distribution links and the equipment and the states of all air switches in real time;

the BA cold source monitoring unit is used for monitoring the water cooling unit, the cooling tower, the pipeline and each valve and accounting the cooling power consumption of the machine room partition;

and the network link topology monitoring unit is used for monitoring the real-time state of the IT equipment link.

As the optimization of the technical scheme of the invention, the comprehensive monitoring subsystem also comprises a video monitoring module and a large screen display module;

the video monitoring module is used for carrying out video acquisition on the machine room and providing real-time video calling and historical video viewing;

and the large screen display module is used for displaying the received information in real time and supporting the custom switching of the display content.

As the optimization of the technical scheme of the invention, the system also comprises an APP management subsystem which is communicated with the comprehensive monitoring subsystem and receives the data sent by the comprehensive monitoring subsystem;

the APP application management subsystem comprises an equipment monitoring module and an alarm management module;

the equipment monitoring module is used for monitoring the running states and running parameters of all the equipment and is provided with an equipment monitoring page for providing real-time checking of the running states of the equipment;

and the alarm management module is used for receiving the alarm notification sent by the comprehensive monitoring subsystem in real time, supporting real-time and historical viewing, supporting alarm searching and screening and supporting alarm remarks and confirmation.

As the optimization of the technical scheme of the invention, the APP management subsystem also comprises an energy efficiency management module and a knowledge base;

the energy efficiency management module is used for supporting the layered and hierarchical display of the PUE and the electricity consumption statistical information of the equipment and the energy consumption statistical analysis information of the equipment;

and the knowledge base is used for providing a fault list to view fault analysis.

As the optimization of the technical scheme of the invention, the system also comprises an asset management subsystem and a patrol management subsystem;

and the asset management subsystem is used for binding asset equipment through an RFID tag, automatically detecting whether the equipment is online or not through a scanning gun rapid regional asset checking system, or binding the asset and the U-bit bar with information, and establishing unified relevance of the equipment asset information to realize window visual management.

The patrol management subsystem is used for planning patrol contents to make a patrol plan, issuing patrol tasks to the APP management subsystem to execute the patrol tasks, and receiving patrol results returned by the APP management subsystem to count the patrol results;

as an optimization of the technical scheme of the invention, the system also comprises an operation management subsystem, wherein the operation management subsystem comprises a cabinet IT equipment resource management module, a network resource management module, a port management module and an available resource management module;

the equipment cabinet IT equipment resource management module is used for interfacing with the asset management subsystem and counting the current equipment cabinet renting and selling conditions and server related information;

the network resource management module is used for carrying out statistical management on IP addresses, bandwidths, private line links and optical module resources of network resources;

the port management module is used for carrying out data binding entry on various equipment ports through the visual graph;

and the available resource management module is used for carrying out availability analysis statistics on the number of cabinets, the hosting server and the electric quantity resources.

As the optimization of the technical scheme of the invention, the early warning analysis subsystem predicts the fault information in advance by monitoring the change rate model of the equipment points in unit time; the method is particularly used for carrying out database modeling on historical operation parameters of various devices under different loads to serve as a datum data reference value; and comparing and analyzing the received data processed by the data processing subsystem with the reference data, and outputting and analyzing the data meeting the conditions for early warning events.

For example, the three-phase unbalance early warning of the switch is carried out by firstly configuring three-phase current unbalance ratio for the power supply switch, automatically scanning and executing algorithm according to the set frequency by the system, outputting related information to the three-phase unbalance switch to a manager, and preventing the occurrence of the fault of current unbalance of the distribution switch.

The power distribution cabinet early warning is carried out, the internal temperature of the switch contacts of the power distribution cabinet is collected, the degree of classification and the running state of key parts are found in time according to the relation between current and temperature and the consistency calculation of three-phase load and temperature, and therefore risks possibly existing in the early warning are avoided, and power distribution cabinet faults are eliminated.

As an optimization of the technical scheme of the invention, the system further comprises an energy consumption management subsystem, wherein the energy consumption management subsystem comprises an energy consumption monitoring module, an energy consumption analysis module and an energy saving management module;

the energy consumption monitoring module is used for acquiring and monitoring point, say and warm energy data in real time through different types of sensors and transmitting the acquired data to the energy consumption analysis module;

the energy consumption analysis module is used for integrating the acquired energy data, carrying out statistical analysis on the energy data according to different modes to establish an algorithm plan, generating a multi-dimensional statistical analysis table and transmitting the multi-dimensional statistical analysis table to the energy conservation management module;

the energy-saving management module is used for establishing corresponding energy-saving strategies for different analysis results based on the data of the energy consumption analysis, executing energy-saving measures according to preset execution strategies and generating energy-saving reports from the execution results of different plans.

According to the technical scheme, the operation parameters and the detection data of all the equipment in the machine room can be directly obtained outside the machine room, the energy consumption of the equipment in the machine room can be monitored, the equipment does not need to be queried and recorded one by one in the machine room, the centralized management and control of the equipment in the machine room is realized, and the labor cost is reduced.

From the above technical scheme, the invention has the following advantages:

monitoring the running conditions and key parameter conditions of all equipment, and having a standard equipment monitoring page, wherein the equipment is used as a center, so that the running state of the equipment, the alarm and measurement point information can be conveniently checked; receiving alarm notification in real time at any time and any place, supporting real-time and historical viewing, and supporting alarm searching and screening operation; supporting alarm remarks, confirmation and other operations; the PUF and electricity consumption statistical information are displayed in a hierarchical mode through supporting space, and the equipment energy consumption statistical analysis information is displayed intuitively; the fault list checking and analyzing system has the advantages that fault list checking and analyzing are realized, and maintenance personnel can quickly locate and process faults. A plurality of output information; integrated centralized management service, real-time monitoring, intelligent analysis, business energy-saving scheme management and value-added service; different data are collected, unified data management is constructed, data are standardized, and unified output is achieved.

In addition, the invention has reliable design principle, simple structure and very wide application prospect.

It can be seen that the present invention has outstanding substantial features and significant advances over the prior art, as well as its practical advantages.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic block diagram of a system of one embodiment of the present invention.

Fig. 2 is a schematic block diagram of a system of another embodiment of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

FIG. 1 is a schematic block diagram of an intelligent machine room management and control system provided by an embodiment of the present invention, the system including a comprehensive monitoring subsystem, a data processing subsystem, a fault handling subsystem, and an early warning analysis subsystem;

the comprehensive monitoring subsystem is used for monitoring the power distribution state, the temperature and humidity, the air conditioner, the UPS and the storage battery of the machine room, inputting monitoring data into the data processing subsystem and displaying the monitoring data in real time; the alarm information display module is also used for displaying the alarm information and outputting an alarm notification after receiving the alarm information;

the data processing subsystem is used for classifying the received data and inputting the processed data into the fault processing subsystem;

the data processing subsystem is specifically used for acquiring monitored historical data, carrying out feature extraction on the acquired historical data to establish a normal state feature set and a plurality of abnormal state feature sets of different types, and inputting the established normal state feature set and the plurality of abnormal state feature sets of different types to the fault processing subsystem; when monitoring data input by the comprehensive monitoring subsystem are received, performing noise removal processing on the acquired monitoring data, performing feature extraction on the processed data, and transmitting the extracted feature data to the fault processing subsystem;

the fault processing subsystem is used for matching the received data with preset normal state data and different types of abnormal state data, and outputting alarm information to the comprehensive monitoring subsystem when the matching similarity with the abnormal state data is greater than or equal to a set similarity threshold value; when the matching similarity with the abnormal state data is smaller than a set similarity threshold, the received corresponding data sent by the data processing subsystem is sent to the early warning analysis subsystem;

the fault processing subsystem respectively carries out similarity matching on the received characteristic data with a normal state characteristic set and a plurality of abnormal state characteristic sets of different types, when the similarity is larger than or equal to a set similarity threshold value, a characteristic set corresponding to the maximum similarity value of the characteristic data, which is respectively subjected to similarity matching with the normal state characteristic set and the abnormal state characteristic sets of different types, is obtained, whether the characteristic set is the abnormal state characteristic set is judged, and if yes, alarm information is output to the comprehensive monitoring subsystem; if the similarity is not greater than or equal to the similarity threshold, acquiring the current maximum similarity value, judging whether the current maximum similarity value is a corresponding abnormal state feature set, if so, judging whether the current maximum similarity value is greater than an early warning threshold, and if so, transmitting the corresponding data transmitted by the received data processing subsystem to the early warning analysis subsystem.

And the early warning analysis subsystem is used for analyzing and processing the received data and outputting early warning information to the comprehensive monitoring subsystem.

The early warning analysis subsystem can establish an early warning analysis module, and input the received data into the early warning analysis module to output an early warning analysis event. The early warning analysis model can be established by adopting the existing establishment mode of the early warning model, and details are not repeated here.

The method and the device provide effective information assistance for subsequent maintenance of staff by comparing the categories of the direct locking problems through similarity; the state in the computer lab can be monitored in real time, efficiency is higher, and the discovery problem is more timely, is applicable to the control of all computer lab.

In some embodiments, the integrated monitoring subsystem includes an air conditioner monitoring module, a power distribution monitoring module, a temperature and humidity monitoring module, a UPS monitoring module, and a battery detection module;

the air conditioner monitoring module is used for monitoring the working voltage, current, air supply/return temperature and humidity, the working time and the running state of the compressor of the air conditioner, inputting monitoring data into the data processing subsystem, and simultaneously receiving a control instruction output by the data processing subsystem to control the on-off state and adjust the air supply temperature;

the power distribution monitoring module is used for monitoring input/output phase voltage, line voltage, current, frequency, power and switch state and inputting monitoring data into the data processing subsystem;

the temperature and humidity monitoring module is used for monitoring the temperature and humidity of the environment in the machine room and inputting monitoring data into the data processing subsystem;

the UPS monitoring module is used for monitoring the running states of the rectifier, the inverter, the battery, the bypass and the load and running parameters of the UPS and inputting monitoring data into the data processing subsystem;

the storage battery detection module is used for detecting the voltage and the charge-discharge current of the storage battery pack, detecting the voltage and the internal resistance of the single storage battery, and inputting detection data into the data processing subsystem.

The power distribution monitoring module further comprises a power distribution link monitoring unit, a BA cold source monitoring unit and a network link topology monitoring unit;

the power distribution link monitoring unit is used for checking the working states of the local power distribution links and the equipment and the states of all air switches in real time;

the BA cold source monitoring unit is used for monitoring the water cooling unit, the cooling tower, the pipeline and each valve and accounting the cooling power consumption of the machine room partition;

and the network link topology monitoring unit is used for monitoring the real-time state of the IT equipment link.

In some embodiments, the integrated monitoring subsystem further comprises a video monitoring module and a large screen display module;

the video monitoring module is used for carrying out video acquisition on the machine room and providing real-time video calling and historical video viewing;

and the large screen display module is used for displaying the received information in real time and supporting the custom switching of the display content.

The system also comprises an APP management subsystem which is communicated with the comprehensive monitoring subsystem and receives data sent by the comprehensive monitoring subsystem;

the APP application management subsystem comprises an equipment monitoring module and an alarm management module;

the equipment monitoring module is used for monitoring the running states and running parameters of all the equipment and is provided with an equipment monitoring page for providing real-time checking of the running states of the equipment;

and the alarm management module is used for receiving the alarm notification sent by the comprehensive monitoring subsystem in real time, supporting real-time and historical viewing, supporting alarm searching and screening and supporting alarm remarks and confirmation.

It should be noted that the APP application management subsystem further includes an energy efficiency management module and a knowledge base;

the energy efficiency management module is used for supporting the layered and hierarchical display of the PUE and the electricity consumption statistical information of the equipment and the energy consumption statistical analysis information of the equipment;

and the knowledge base is used for providing a fault list to view fault analysis.

The APP management subsystem is arranged in the handheld terminal of the operation and maintenance personnel, and the operation and maintenance personnel can be helped to reduce the maintenance difficulty and improve the maintenance efficiency by mastering the movement of the site through the terminal.

As shown in fig. 2, in some embodiments, the system further includes an asset management subsystem and a patrol management subsystem;

and the asset management subsystem is used for binding asset equipment through an RFID tag, automatically detecting whether the equipment is online or not through a scanning gun rapid regional asset checking system, or binding the asset and the U-bit bar with information, and establishing unified relevance of the equipment asset information to realize window visual management.

The patrol management subsystem is used for planning patrol contents to make a patrol plan, issuing patrol tasks to the APP management subsystem to execute the patrol tasks, and receiving patrol results returned by the APP management subsystem to count the patrol results;

in some embodiments, the system further comprises an operation management subsystem comprising a cabinet IT equipment resource management module, a network resource management module, a port management module, and an available resource management module;

the equipment cabinet IT equipment resource management module is used for interfacing with the asset management subsystem and counting the current equipment cabinet renting and selling conditions and server related information;

the network resource management module is used for carrying out statistical management on IP addresses, bandwidths, private line links and optical module resources of network resources;

the port management module is used for carrying out data binding entry on various equipment ports through the visual graph;

and the available resource management module is used for carrying out availability analysis statistics on the number of cabinets, the hosting server and the electric quantity resources.

In addition, in some embodiments, the early warning analysis subsystem predicts fault information in advance by monitoring a change rate model of the equipment points in unit time; the method is particularly used for carrying out database modeling on historical operation parameters of various devices under different loads to serve as a datum data reference value; and comparing and analyzing the received data processed by the data processing subsystem with the reference data, and outputting and analyzing the data meeting the conditions for early warning events.

For example, the three-phase unbalance early warning of the switch is carried out by firstly configuring three-phase current unbalance ratio for the power supply switch, automatically scanning and executing algorithm according to the set frequency by the system, outputting related information to the three-phase unbalance switch to a manager, and preventing the occurrence of the fault of current unbalance of the distribution switch.

The power distribution cabinet early warning is carried out, the internal temperature of the switch contacts of the power distribution cabinet is collected, the degree of classification and the running state of key parts are found in time according to the relation between current and temperature and the consistency calculation of three-phase load and temperature, and therefore risks possibly existing in the early warning are avoided, and power distribution cabinet faults are eliminated.

In some embodiments, the system further comprises an energy consumption management subsystem comprising an energy consumption monitoring module, an energy consumption analysis module, and an energy saving management module;

the energy consumption monitoring module is used for acquiring and monitoring point, say and warm energy data in real time through different types of sensors and transmitting the acquired data to the energy consumption analysis module;

the energy consumption analysis module is used for integrating the acquired energy data, carrying out statistical analysis on the energy data according to different modes to establish an algorithm plan, generating a multi-dimensional statistical analysis table and transmitting the multi-dimensional statistical analysis table to the energy conservation management module;

the energy-saving management module is used for establishing corresponding energy-saving strategies for different analysis results based on the data of the energy consumption analysis, executing energy-saving measures according to preset execution strategies and generating energy-saving reports from the execution results of different plans.

The system provided by the embodiment of the invention can directly acquire the operation parameters and the detection data of all the equipment in the machine room outside the machine room, can monitor the energy consumption of the equipment in the machine room, does not need to enter the machine room to inquire the equipment one by one, realizes the centralized management and control of the equipment in the machine room, and reduces the labor cost.

Although the present invention has been described in detail by way of preferred embodiments with reference to the accompanying drawings, the present invention is not limited thereto. Various equivalent modifications and substitutions may be made in the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and it is intended that all such modifications and substitutions be within the scope of the present invention/be within the scope of the present invention as defined by the appended claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The intelligent machine room management and control system is characterized by comprising a comprehensive monitoring subsystem, a data processing subsystem, a fault processing subsystem and an early warning analysis subsystem;

the comprehensive monitoring subsystem is used for monitoring the power distribution state, the temperature and humidity, the air conditioner, the UPS and the storage battery of the machine room, inputting monitoring data into the data processing subsystem and displaying the monitoring data in real time; the alarm information display module is also used for displaying the alarm information and outputting an alarm notification after receiving the alarm information;

the data processing subsystem is used for classifying the received data and inputting the processed data into the fault processing subsystem;

the fault processing subsystem is used for matching the received data with preset normal state data and different types of abnormal state data, and outputting alarm information to the comprehensive monitoring subsystem when the matching similarity with the abnormal state data is greater than or equal to a set similarity threshold value; when the matching similarity with the abnormal state data is smaller than a set similarity threshold, the received corresponding data sent by the data processing subsystem is sent to the early warning analysis subsystem;

and the early warning analysis subsystem is used for analyzing and processing the received data and outputting early warning information to the comprehensive monitoring subsystem.

2. The intelligent machine room management and control system of claim 1, wherein the integrated monitoring subsystem comprises an air conditioner monitoring module, a power distribution monitoring module, a temperature and humidity monitoring module, a UPS monitoring module and a battery detection module;

the air conditioner monitoring module is used for monitoring the working voltage, current, air supply/return temperature and humidity, the working time and the running state of the compressor of the air conditioner, inputting monitoring data into the data processing subsystem, and simultaneously receiving a control instruction output by the data processing subsystem to control the on-off state and adjust the air supply temperature;

the power distribution monitoring module is used for monitoring input/output phase voltage, line voltage, current, frequency, power and switch state and inputting monitoring data into the data processing subsystem;

the temperature and humidity monitoring module is used for monitoring the temperature and humidity of the environment in the machine room and inputting monitoring data into the data processing subsystem;

the UPS monitoring module is used for monitoring the running states of the rectifier, the inverter, the battery, the bypass and the load and running parameters of the UPS and inputting monitoring data into the data processing subsystem;

the storage battery detection module is used for detecting the voltage and the charge-discharge current of the storage battery pack, detecting the voltage and the internal resistance of the single storage battery, and inputting detection data into the data processing subsystem.

3. The intelligent machine room management and control system according to claim 2, wherein the power distribution monitoring module further comprises a power distribution link monitoring unit, a BA cold source monitoring unit, and a network link topology monitoring unit;

the power distribution link monitoring unit is used for checking the working states of the local power distribution links and the equipment and the states of all air switches in real time;

the BA cold source monitoring unit is used for monitoring the water cooling unit, the cooling tower, the pipeline and each valve and accounting the cooling power consumption of the machine room partition;

and the network link topology monitoring unit is used for monitoring the real-time state of the IT equipment link.

4. The intelligent machine room control system of claim 3, wherein the integrated monitoring subsystem further comprises a video monitoring module and a large screen display module;

the video monitoring module is used for carrying out video acquisition on the machine room and providing real-time video calling and historical video viewing;

and the large screen display module is used for displaying the received information in real time and supporting the custom switching of the display content.

5. The intelligent machine room management system of claim 4, further comprising an APP application management subsystem in communication with the integrated monitoring subsystem for receiving data transmitted by the integrated monitoring subsystem;

the APP application management subsystem comprises an equipment monitoring module and an alarm management module;

the equipment monitoring module is used for monitoring the running states and running parameters of all the equipment and is provided with an equipment monitoring page for providing real-time checking of the running states of the equipment;

and the alarm management module is used for receiving the alarm notification sent by the comprehensive monitoring subsystem in real time, supporting real-time and historical viewing, supporting alarm searching and screening and supporting alarm remarks and confirmation.

6. The intelligent machine room management and control system of claim 5, wherein the APP application management subsystem further comprises an energy efficiency management module and a knowledge base;

the energy efficiency management module is used for supporting the layered and hierarchical display of the PUE and the electricity consumption statistical information of the equipment and the energy consumption statistical analysis information of the equipment;

and the knowledge base is used for providing a fault list to view fault analysis.

7. The intelligent machine room management system of claim 6, further comprising an asset management subsystem and a patrol management subsystem;

the asset management subsystem is used for binding asset equipment through an RFID tag, automatically detecting whether the equipment is online or not through a scanning gun rapid area asset checking system, or binding the asset and the U-bit bar with information, and establishing unified relevance of the asset information of the equipment to realize window visual management;

the patrol management subsystem is used for planning patrol contents to make a patrol plan, issuing patrol tasks to the APP management subsystem to execute the patrol tasks, and receiving patrol results returned by the APP management subsystem to count the patrol results.

8. The intelligent machine room management system of claim 7, further comprising an operations management subsystem comprising a cabinet IT equipment resource management module, a network resource management module, a port management module, and an available resource management module;

the equipment cabinet IT equipment resource management module is used for interfacing with the asset management subsystem and counting the current equipment cabinet renting and selling conditions and server related information;

the network resource management module is used for carrying out statistical management on IP addresses, bandwidths, private line links and optical module resources of network resources;

the port management module is used for carrying out data binding entry on various equipment ports through the visual graph;

and the available resource management module is used for carrying out availability analysis statistics on the number of cabinets, the hosting server and the electric quantity resources.

9. The intelligent machine room control system according to claim 8, wherein the early warning analysis subsystem predicts fault information in advance by monitoring a rate of change model of the equipment points in unit time; the method is particularly used for carrying out database modeling on historical operation parameters of various devices under different loads to serve as a datum data reference value; and comparing and analyzing the received data processed by the data processing subsystem with the reference data, and outputting and analyzing the data meeting the conditions for early warning events.

10. The intelligent machine room management and control system of claim 9, further comprising an energy consumption management subsystem comprising an energy consumption monitoring module, an energy consumption analysis module, and an energy conservation management module;

the energy consumption monitoring module is used for acquiring and monitoring point, say and warm energy data in real time through different types of sensors and transmitting the acquired data to the energy consumption analysis module;

the energy consumption analysis module is used for integrating the acquired energy data, carrying out statistical analysis on the energy data according to different modes to establish an algorithm plan, generating a multi-dimensional statistical analysis table and transmitting the multi-dimensional statistical analysis table to the energy conservation management module;

the energy-saving management module is used for establishing corresponding energy-saving strategies for different analysis results based on the data of the energy consumption analysis, executing energy-saving measures according to preset execution strategies and generating energy-saving reports from the execution results of different plans.