CN118605293A - Machine room safety real-time monitoring system and monitoring method thereof - Google Patents

Abstract

The invention relates to the technical field of communication, and discloses a machine room safety real-time monitoring system and a monitoring method thereof, wherein the monitoring method comprises the following steps: sensing and monitoring system: for monitoring and managing a particular environmental device; a transmission control system: for monitoring and managing data transmissions; an electric power monitoring system: for monitoring, managing and controlling power. By connecting the sensing and monitoring system with the transmission control system, the sensing and monitoring system comprises: the system comprises an electric power monitoring system, an environment sensing system, an equipment monitoring system, a security sensing system, an access control sensing system and a video monitoring system; the power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the transmission control system; the transmission control system comprises at least one monitoring server.

Description

Machine room safety real-time monitoring system and monitoring method thereof

Technical Field

The invention relates to the technical field of communication, in particular to a machine room safety real-time monitoring system and a monitoring method thereof.

Background

With the rapid development and popularization of information technology, the number of computer systems and communication devices is rapidly increased, and the computer systems and the communication devices become a core platform for business management of various enterprises and public institutions. When a computer room is configured with network equipment, a computer server and other communication equipment, the computer room is used as an important place for data exchange and storage, and the monitoring of potential safety hazards is indispensable, for example, the computer room is extremely easy to generate wire short circuit to cause fire, and great loss is caused to units to which the computer room belongs.

At present, in the safety hidden trouble monitoring process of a machine room, the machine room monitoring system plays a non-negligible role in order to ensure the safe, stable and reliable operation of a computer system and communication equipment. However, in existing machine room monitoring systems, monitoring is generally only performed for a certain class, for example, monitoring of fire is generally performed using monitoring of smoke or temperature. It can be seen that the traditional machine room monitoring neglects monitoring of other potential safety hazards, so that the monitoring category of the potential safety hazards is too single in the machine room monitoring process. Therefore, the problem that the monitoring category of the potential safety hazard is too single in the process of monitoring the machine room exists in the prior art.

Disclosure of Invention

The invention aims to provide a machine room safety real-time monitoring system and a monitoring method thereof, which are used for solving the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a machine room safety real-time monitoring system and a monitoring method thereof, wherein the monitoring method comprises the following steps:

sensing and monitoring system: for monitoring and managing a particular environmental device;

A transmission control system: for monitoring and managing data transmissions;

An electric power monitoring system: for monitoring, managing and controlling power;

environmental sensing system: for monitoring environmental parameters;

device monitoring system: for monitoring and managing device operating status and performance;

Security sensing system: monitoring and managing safety protection equipment, facilities and areas;

An access control sensing system: the system is used for controlling and monitoring access control;

video monitoring system: and carrying out real-time monitoring video recording on the specific area by using the camera.

Further, the sensing and monitoring system specifically comprises the following steps:

s101, demand analysis, namely defining the demand of a customer on a sensing monitoring system;

S102: planning a system: starting to carry out system planning according to the result of demand analysis, and determining the position of a monitoring point, the type of a sensor, the layout of monitoring equipment, the data storage demand and network connection;

s103: selection sensor: determining a required sensor type according to the system planning;

s104: and (3) system integration: integrating the selected sensor and monitoring device into the overall system;

S105: software development configuration: the customized monitoring software or data processing system is needed, and software development configuration may be needed to ensure that the system can meet specific monitoring requirements;

s106: testing and debugging: after the system integration is completed, testing and debugging the system are carried out;

S107: and (3) installation and deployment: after the system test is completed, deploying the sensing monitoring system into an actual use scene, and performing final debugging and verification;

S108: training and maintenance: training the system user ensures that they are proficient in operating the monitoring system.

Further, the transmission control system specifically includes the following steps:

S201: demand analysis: firstly, determining the requirements and targets of a client on a transmission control system;

S202: planning a system: performing system planning according to the result of demand analysis;

S203: designing a network architecture: designing a network topology structure and a communication path, and determining a connection mode and a data transmission path between network nodes;

S204: selecting a network device and technology: selecting proper network equipment and transmission technology according to system planning design;

s205: configuring a network device: configuring the selected network device;

s206: implementing safety measures: a security mechanism and an encryption technology are deployed, so that the security of data in the transmission process is ensured;

S207: testing and debugging: after the system deployment is completed, testing and debugging the network equipment and the transmission control system are carried out;

s208: operation and monitoring: after the system is put into operation, continuously monitoring network equipment and data transmission conditions;

S209: maintenance and optimization: the network equipment is maintained regularly, the software and the firmware are updated, and the network performance is optimized to adapt to the changing requirements and technical environments.

Further, the power monitoring system specifically includes the following steps:

S301: sensor and measuring device: the system is used for monitoring various parameters of the power system in real time;

s302: a data acquisition unit: the system is responsible for collecting data acquired by the sensor and the measuring equipment, converting the data into digital signals, and processing and storing the digital signals;

s303: and (3) a monitoring center: the power monitoring system is a core part of the power monitoring system and is responsible for receiving, processing and storing data from the data acquisition unit;

s304: communication network: the system is used for transmitting data between the monitoring point and the monitoring center;

S305: data storage and processing system: the system is used for storing and managing historical data acquired by the monitoring system and supporting data analysis and report generation;

s306: alarm and event management system: the system is responsible for monitoring the running state of the power system, giving an alarm when an abnormality or a fault occurs, and recording event information for subsequent analysis and processing;

S307: user interface: a graphical interface provided for an operator and used for monitoring the running state of the power system in real time, inquiring historical data and setting alarm parameters;

s308: remote access function: and a user is allowed to remotely access the power monitoring system through the Internet, so that remote monitoring and management are realized.

Further, the environment sensing system specifically includes:

s401: demand analysis: firstly, determining the requirements and targets of clients on an environment sensing system;

s402: selection sensor: selecting a proper sensor to monitor a required environmental parameter according to a result of the demand analysis;

S403: the sensor is arranged: determining the arrangement position of the sensor, and ensuring that the sensor can accurately monitor the required environmental parameters;

S404: data acquisition equipment: selecting proper data acquisition equipment for receiving data acquired by the sensor;

S405: communication network: determining a communication mode between the data acquisition equipment and the monitoring center;

s406: and (3) a monitoring center: the monitoring center is designed and configured for receiving, processing and storing the data acquired by the sensor;

s407: data storage and processing system: selecting a proper database and related software for storing and managing the historical data acquired by the monitoring system;

S408: alarm and event management system: setting alarm parameters, sending out an alarm when the environmental parameters exceed a preset range, and recording event information for subsequent analysis and processing;

s409: user interface: the graphical interface is designed, so that an operator can monitor the change of environmental parameters in real time, inquire historical data, and perform operations such as alarm parameter setting;

S410: remote access function: if necessary, realizing remote access function, allowing user to monitor environment parameters remotely via Internet;

S411: installing and debugging: installing a sensor, data acquisition equipment and a monitoring center, and performing comprehensive system debugging to ensure that all the components work normally in a cooperative manner;

s412: operation and maintenance: after the system is put into operation, the operation condition of the system is continuously monitored, and the system is regularly maintained and updated so as to ensure the stability and the reliability of the system.

Further, the transmission control system comprises at least one monitoring server; the electric power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the at least one monitoring server.

Further, the electric power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the transmission control system.

The invention has the following beneficial effects:

By connecting the sensing and monitoring system with the transmission control system, the sensing and monitoring system comprises: the system comprises an electric power monitoring system, an environment sensing system, an equipment monitoring system, a security sensing system, an access control sensing system and a video monitoring system; the power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the transmission control system; the transmission control system comprises at least one monitoring server; the power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with at least one monitoring server. The sensing monitoring system comprises a plurality of systems, so that potential safety hazards of a machine room can be comprehensively monitored, and the problem that the monitoring category of the potential safety hazards is too single in the machine room monitoring process in the prior art is effectively solved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of the whole method of the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention is a real-time monitoring system for machine room security and a monitoring method thereof, comprising:

sensing and monitoring system: for monitoring and managing a particular environmental device;

A transmission control system: for monitoring and managing data transmissions;

An electric power monitoring system: for monitoring, managing and controlling power;

environmental sensing system: for monitoring environmental parameters;

device monitoring system: for monitoring and managing device operating status and performance;

Security sensing system: monitoring and managing safety protection equipment, facilities and areas;

An access control sensing system: the system is used for controlling and monitoring access control;

video monitoring system: and carrying out real-time monitoring video recording on the specific area by using the camera.

The sensing monitoring system specifically comprises the following steps:

s101, demand analysis, namely defining the demand of a customer on a sensing monitoring system;

S102: planning a system: starting to carry out system planning according to the result of demand analysis, and determining the position of a monitoring point, the type of a sensor, the layout of monitoring equipment, the data storage demand and network connection;

s103: selection sensor: determining a required sensor type according to the system planning;

s104: and (3) system integration: integrating the selected sensor and monitoring device into the overall system;

S105: software development configuration: the customized monitoring software or data processing system is needed, and software development configuration may be needed to ensure that the system can meet specific monitoring requirements;

s106: testing and debugging: after the system integration is completed, testing and debugging the system are carried out;

S107: and (3) installation and deployment: after the system test is completed, deploying the sensing monitoring system into an actual use scene, and performing final debugging and verification;

S108: training and maintenance: training the system user ensures that they are proficient in operating the monitoring system.

The sensing monitoring system has important functions in the aspects of improving production efficiency, guaranteeing safety, saving energy, reducing cost and the like.

The transmission control system specifically comprises the following steps:

S201: demand analysis: firstly, determining the requirements and targets of a client on a transmission control system;

S202: planning a system: performing system planning according to the result of demand analysis;

S203: designing a network architecture: designing a network topology structure and a communication path, and determining a connection mode and a data transmission path between network nodes;

S204: selecting a network device and technology: selecting proper network equipment and transmission technology according to system planning design;

s205: configuring a network device: configuring the selected network device;

s206: implementing safety measures: a security mechanism and an encryption technology are deployed, so that the security of data in the transmission process is ensured;

S207: testing and debugging: after the system deployment is completed, testing and debugging the network equipment and the transmission control system are carried out;

s208: operation and monitoring: after the system is put into operation, continuously monitoring network equipment and data transmission conditions;

S209: maintenance and optimization: the network equipment is maintained regularly, the software and the firmware are updated, and the network performance is optimized to adapt to the changing requirements and technical environments.

The transmission control system plays an important role in the aspects of reliability, safety, efficiency and the like of data transmission, and is an indispensable part in modern information communication systems.

The power monitoring system specifically comprises the following steps:

S301: sensor and measuring device: the system is used for monitoring various parameters of the power system in real time;

s302: a data acquisition unit: the system is responsible for collecting data acquired by the sensor and the measuring equipment, converting the data into digital signals, and processing and storing the digital signals;

s303: and (3) a monitoring center: the power monitoring system is a core part of the power monitoring system and is responsible for receiving, processing and storing data from the data acquisition unit;

s304: communication network: the system is used for transmitting data between the monitoring point and the monitoring center;

S305: data storage and processing system: the system is used for storing and managing historical data acquired by the monitoring system and supporting data analysis and report generation;

s306: alarm and event management system: the system is responsible for monitoring the running state of the power system, giving an alarm when an abnormality or a fault occurs, and recording event information for subsequent analysis and processing;

S307: user interface: a graphical interface provided for an operator and used for monitoring the running state of the power system in real time, inquiring historical data and setting alarm parameters;

s308: remote access function: and a user is allowed to remotely access the power monitoring system through the Internet, so that remote monitoring and management are realized.

The electric power monitoring system plays an important role in improving the operation efficiency of the electric power system, saving energy, reducing emission, improving safety and the like, and provides convenience and guarantee for users.

The environment sensing system specifically comprises:

s401: demand analysis: firstly, determining the requirements and targets of clients on an environment sensing system;

s402: selection sensor: selecting a proper sensor to monitor a required environmental parameter according to a result of the demand analysis;

S403: the sensor is arranged: determining the arrangement position of the sensor, and ensuring that the sensor can accurately monitor the required environmental parameters;

S404: data acquisition equipment: selecting proper data acquisition equipment for receiving data acquired by the sensor;

S405: communication network: determining a communication mode between the data acquisition equipment and the monitoring center;

s406: and (3) a monitoring center: the monitoring center is designed and configured for receiving, processing and storing the data acquired by the sensor;

s407: data storage and processing system: selecting a proper database and related software for storing and managing the historical data acquired by the monitoring system;

S408: alarm and event management system: setting alarm parameters, sending out an alarm when the environmental parameters exceed a preset range, and recording event information for subsequent analysis and processing;

s409: user interface: the graphical interface is designed, so that an operator can monitor the change of environmental parameters in real time, inquire historical data, and perform operations such as alarm parameter setting;

S410: remote access function: if necessary, realizing remote access function, allowing user to monitor environment parameters remotely via Internet;

S411: installing and debugging: installing a sensor, data acquisition equipment and a monitoring center, and performing comprehensive system debugging to ensure that all the components work normally in a cooperative manner;

s412: operation and maintenance: after the system is put into operation, the operation condition of the system is continuously monitored, and the system is regularly maintained and updated so as to ensure the stability and the reliability of the system.

The environment sensing system has wide application prospect in the aspects of environment monitoring, early warning, energy conservation, emission reduction, resource management and the like, and has important significance for improving living environment and protecting natural environment.

The transmission control system comprises at least one monitoring server; the power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with at least one monitoring server.

And the electric power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the transmission control system.

The sensing monitoring system comprises a plurality of systems, so that potential safety hazards of a machine room can be comprehensively monitored, and the problem that the monitoring category of the potential safety hazards is too single in the machine room monitoring process in the prior art is effectively solved.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. A computer room safety real-time monitoring system and a monitoring method thereof are characterized by comprising the following steps:

sensing and monitoring system: for monitoring and managing a particular environmental device;

A transmission control system: for monitoring and managing data transmissions;

An electric power monitoring system: for monitoring, managing and controlling power;

environmental sensing system: for monitoring environmental parameters;

device monitoring system: for monitoring and managing device operating status and performance;

Security sensing system: monitoring and managing safety protection equipment, facilities and areas;

An access control sensing system: the system is used for controlling and monitoring access control;

video monitoring system: and carrying out real-time monitoring video recording on the specific area by using the camera.

2. The machine room safety real-time monitoring system and the monitoring method thereof according to claim 1, wherein: the sensing monitoring system specifically comprises the following steps:

s101, demand analysis, namely defining the demand of a customer on a sensing monitoring system;

S102: planning a system: starting to carry out system planning according to the result of demand analysis, and determining the position of a monitoring point, the type of a sensor, the layout of monitoring equipment, the data storage demand and network connection;

s103: selection sensor: determining a required sensor type according to the system planning;

s104: and (3) system integration: integrating the selected sensor and monitoring device into the overall system;

S105: software development configuration: the customized monitoring software or data processing system is needed, and software development configuration may be needed to ensure that the system can meet specific monitoring requirements;

s106: testing and debugging: after the system integration is completed, testing and debugging the system are carried out;

S107: and (3) installation and deployment: after the system test is completed, deploying the sensing monitoring system into an actual use scene, and performing final debugging and verification;

S108: training and maintenance: training the system user ensures that they are proficient in operating the monitoring system.

3. The machine room safety real-time monitoring system and the monitoring method thereof according to claim 2, wherein: the transmission control system specifically comprises the following steps:

S201: demand analysis: firstly, determining the requirements and targets of a client on a transmission control system;

S202: planning a system: performing system planning according to the result of demand analysis;

S203: designing a network architecture: designing a network topology structure and a communication path, and determining a connection mode and a data transmission path between network nodes;

S204: selecting a network device and technology: selecting proper network equipment and transmission technology according to system planning design;

s205: configuring a network device: configuring the selected network device;

s206: implementing safety measures: a security mechanism and an encryption technology are deployed, so that the security of data in the transmission process is ensured;

S207: testing and debugging: after the system deployment is completed, testing and debugging the network equipment and the transmission control system are carried out;

s208: operation and monitoring: after the system is put into operation, continuously monitoring network equipment and data transmission conditions;

S209: maintenance and optimization: the network equipment is maintained regularly, the software and the firmware are updated, and the network performance is optimized to adapt to the changing requirements and technical environments.

4. The computer room safety real-time monitoring system and the monitoring method thereof according to claim 3, wherein: the power monitoring system specifically comprises the following steps:

S301: sensor and measuring device: the system is used for monitoring various parameters of the power system in real time;

s302: a data acquisition unit: the system is responsible for collecting data acquired by the sensor and the measuring equipment, converting the data into digital signals, and processing and storing the digital signals;

s303: and (3) a monitoring center: the power monitoring system is a core part of the power monitoring system and is responsible for receiving, processing and storing data from the data acquisition unit;

s304: communication network: the system is used for transmitting data between the monitoring point and the monitoring center;

S305: data storage and processing system: the system is used for storing and managing historical data acquired by the monitoring system and supporting data analysis and report generation;

s306: alarm and event management system: the system is responsible for monitoring the running state of the power system, giving an alarm when an abnormality or a fault occurs, and recording event information for subsequent analysis and processing;

S307: user interface: a graphical interface provided for an operator and used for monitoring the running state of the power system in real time, inquiring historical data and setting alarm parameters;

s308: remote access function: and a user is allowed to remotely access the power monitoring system through the Internet, so that remote monitoring and management are realized.

5. The computer room safety real-time monitoring system and the monitoring method thereof according to claim 4, wherein: the environment sensing system specifically comprises:

s401: demand analysis: firstly, determining the requirements and targets of clients on an environment sensing system;

s402: selection sensor: selecting a proper sensor to monitor a required environmental parameter according to a result of the demand analysis;

S403: the sensor is arranged: determining the arrangement position of the sensor, and ensuring that the sensor can accurately monitor the required environmental parameters;

S404: data acquisition equipment: selecting proper data acquisition equipment for receiving data acquired by the sensor;

S405: communication network: determining a communication mode between the data acquisition equipment and the monitoring center;

s406: and (3) a monitoring center: the monitoring center is designed and configured for receiving, processing and storing the data acquired by the sensor;

s407: data storage and processing system: selecting a proper database and related software for storing and managing the historical data acquired by the monitoring system;

S408: alarm and event management system: setting alarm parameters, sending out an alarm when the environmental parameters exceed a preset range, and recording event information for subsequent analysis and processing;

s409: user interface: the graphical interface is designed, so that an operator can monitor the change of environmental parameters in real time, inquire historical data, and perform operations such as alarm parameter setting;

S410: remote access function: if necessary, realizing remote access function, allowing user to monitor environment parameters remotely via Internet;

S411: installing and debugging: installing a sensor, data acquisition equipment and a monitoring center, and performing comprehensive system debugging to ensure that all the components work normally in a cooperative manner;

s412: operation and maintenance: after the system is put into operation, the operation condition of the system is continuously monitored, and the system is regularly maintained and updated so as to ensure the stability and the reliability of the system.

6. The computer room safety real-time monitoring system and the monitoring method thereof according to claim 5, wherein: the transmission control system comprises at least one monitoring server; the electric power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the at least one monitoring server.

7. The computer room safety real-time monitoring system and the monitoring method thereof according to claim 6, wherein: the electric power monitoring system, the environment sensing system, the equipment monitoring system, the security sensing system, the access control sensing system and the video monitoring system are all connected with the transmission control system.