CN113821062A - Intelligent temperature control system for communication network engineering - Google Patents
Intelligent temperature control system for communication network engineering Download PDFInfo
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- CN113821062A CN113821062A CN202110710094.1A CN202110710094A CN113821062A CN 113821062 A CN113821062 A CN 113821062A CN 202110710094 A CN202110710094 A CN 202110710094A CN 113821062 A CN113821062 A CN 113821062A
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- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D23/00—Control of temperature
- G05D23/19—Control of temperature characterised by the use of electric means
- G05D23/20—Control of temperature characterised by the use of electric means with sensing elements having variation of electric or magnetic properties with change of temperature
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Abstract
The invention relates to the technical field of intelligent temperature control, in particular to an intelligent temperature control system for communication network engineering, which comprises a registration login unit, a user side, a management server side and a cloud database, and is characterized in that: the user side is connected with the management server side through the wireless communication module, the management server side is connected with the cloud database through the wireless communication module, and the user side comprises a plurality of mobile terminals and is used for a user to log in a system through the registration login module and enter the management server side to control the temperature; the registration login module is used for submitting administrator data for registration through the mobile phone terminal by an administrator, and sending the administrator data which is successfully registered to the database for storage, and compared with the prior art, the registration login module has the advantages that: according to the temperature data in the space of using communication equipment of collection, carry out temperature control work, through protection unit, ventilation detection module, carry out subsequent supervision and detection work, be favorable to strengthening the life of equipment.
Description
Technical Field
The invention relates to the technical field of intelligent temperature control, in particular to an intelligent temperature control system for communication network engineering.
Background
Communication is the communication and transfer of information from person to person through some medium. A network is a data link formed by connecting isolated workstations or hosts together by physical links. The communication network is a link for physically connecting each isolated device to realize information exchange between people, people and computers, and computers, so as to achieve the purposes of resource sharing and communication. In order to ensure the rapid expansion of the network, communication engineering needs to be continuously built.
In the process of communication engineering construction, because communication equipment is too much, the room temperature often rises rapidly due to the generation of a large amount of heat, so that the working environment of the communication equipment is worse, and the reliability of network communication is influenced. In the process of establishing communication engineering, because the communication equipment that uses is too much, can produce a large amount of heats and make the space room temperature that uses communication equipment rise fast, influence communication equipment's work easily, bring inconvenience for the use, when indoor temperature is lower, also can bring inconvenience for communication equipment's work, moreover, in the in-process of temperature control system work, because the accuracy of temperature control circuit is not enough, thereby reduced temperature control system's reliability.
Disclosure of Invention
The invention aims to overcome the technical defects and provides an intelligent temperature control system for communication network engineering.
In order to solve the technical problems, the technical scheme provided by the invention is as follows: including registering login unit, user side, management service end and high in the clouds database, its characterized in that: the user side is connected with the management server side through the wireless communication module, the management server side is connected with the cloud database through the wireless communication module, the user side comprises a plurality of mobile terminals, and the mobile terminals are used for logging in a system through the registration login module and entering the management server side to control the temperature; the registration login module is used for submitting administrator data for registration through a mobile phone terminal by an administrator, and sending the administrator data which is successfully registered to the database for storage, wherein the administrator data comprises the name, age, time of entry and the mobile phone number for authenticating the real name of the administrator;
the management server comprises a temperature data collection module, a temperature measurement module, a temperature control module, an input module, a display module, an equipment detection unit, an alarm module, a protection unit and a ventilation detection module, wherein the temperature data collection module is used for collecting temperature data information of a space using communication equipment, the temperature control module is used for controlling and collecting the temperature data information of the space using the communication equipment and feeding the collected temperature information back to the management server, the management server processes the fed-back information through the temperature control module and adjusts the temperature of the space using the communication equipment according to the processed data information through the temperature detection module, the protection unit is used for monitoring dust pollution data of a server, and once more dust is generated, the dust pollution data can be sent to a mobile phone terminal of a manager through a dust cleaning signal in the server, the ventilation detection module is used for detecting the ventilation data inside the server, the input module comprises a control panel, the control unit is used for receiving normal signals and abnormal signals of equipment and controlling the server, the control panel is installed at an entrance of a space using communication equipment, the control panel is convenient to operate electrical equipment, the display module comprises a liquid crystal display screen and is used for displaying collected temperature information and temperature information of cooling or heating, the management server does not receive the temperature information, the alarm module is started, and a worker is prompted to check the temperature sensor.
As an improvement, the temperature data collection module comprises a temperature sensor, an A/D converter, a data amplification module and a data receiving module, the temperature sensor is installed in a space using the communication equipment and used for collecting temperature information, the A/D converter is used for converting the collected temperature information, the data amplification module amplifies the converted temperature information, the temperature data collection module receives the amplified data information through the data receiving module and transmits the collected temperature information to the feedback module.
As an improvement, the temperature sensor adopts a fiber temperature sensor based on Sagnac fiber interferometer polarization nonreciprocal.
As an improvement, the equipment detection unit is used for detecting the equipment information of the service, and once the detected data is different from the correct numerical value stored in the temperature control module, the equipment detection unit transmits the data to the alarm module to prompt a worker to check the equipment.
As an improvement, the control unit specifically controls the following processes:
a1: when the control unit receives a normal signal of the equipment, the working temperature of the server is recorded in real time, and meanwhile, the equipment detection coefficient of the server is monitored;
a2: when the equipment detection coefficient of the server is greater than the equipment detection coefficient threshold value, the temperature side quantity module marks the equipment detection coefficient as a stable temperature limit value, meanwhile, when the real-time working temperature of the server reaches the limit value stored by the temperature measurement module, no operation is carried out, the starting time is recorded when the real-time working temperature of the server reaches the stable temperature limit value, the starting time is marked as the limit temperature starting time, and when the server cannot normally run, the running of the server is stopped and the running time of the server is recorded;
a3: comparing the time of ending the operation of the server with the start time of the limit temperature, and acquiring the bearing time of the limit temperature of the server by comparing the time of ending the operation of the server with the start time of the limit temperature;
a4: the method comprises the steps of sending a stable temperature limit value and the bearing time of a limit temperature to a cloud control platform, setting a timing temperature and a timing time for the stable temperature limit value and the bearing time of the limit temperature, when the working temperature of a server rises to the timing temperature, controlling the server to dissipate heat by the cloud control platform, starting timing at the same time, marking the server as the working time, when the real-time temperature is in an ascending trend, obtaining the expected closing time through the comparison of the timing time and the real-time working time, and sending the expected closing time to a mobile phone terminal of a manager.
As an improvement, the operation steps comprise:
s1, starting, initializing the system, logging in a user side by a user, entering the system, entering a management server side through a wireless communication module, and controlling a temperature sensor to start working;
s2, the temperature sensor collects the temperature in the space using the communication equipment, the collected temperature information is received by the temperature measuring module after being converted and amplified, the temperature information is transmitted to the temperature control module, the collected information is fed back to the management server through the feedback module, and the management server processes the information through the equipment detection unit;
s3, according to the processed information, when the temperature is high, the management server side operates the refrigeration equipment through the main temperature adjusting module to work, and performs the cooling operation, and when the temperature is low, the management server side operates the heating equipment through the main temperature adjusting module to perform the heating operation, and adjusts the temperature in the space of the communication equipment;
s4, detecting the dust content of the surrounding environment of the server by the protection unit, generating a normal dust content signal when judging that the dust content of the server is low, generating an internal server dust cleaning signal when judging that the dust content of the server is high, sending the internal server dust cleaning signal to a mobile phone terminal of an administrator, and replacing the position of the server after the administrator cleans the server;
s5, the ventilation detection module detects the ventilation effect of the server, if the ventilation value of the server is higher than the normal value range of the ventilation value, the server is judged to be ventilated normally, a ventilation normal signal is generated, and the ventilation normal signal is sent to the mobile phone terminal of the administrator;
and if the ventilation value of the server is lower than the normal value range of the ventilation value, judging that the server is abnormal, generating a ventilation abnormal signal and sending the ventilation abnormal signal to a mobile phone terminal of an administrator.
And S6, the user uses the mobile device to perform remote operation through the mobile phone terminal.
The invention has the advantages compared with the prior art that:
1. this an intelligent temperature control system for communication network engineering, according to the temperature data in the space of the use communication equipment of collection, carry out temperature control work, the communication equipment work of being convenient for carries out subsequent supervision detection work through protection unit, ventilation detection module, is favorable to strengthening the life of equipment.
2. The temperature detection module is used for detecting the temperature of the server, so that the working efficiency of the server is improved, and meanwhile, the probability of the server breaking down is reduced.
Detailed Description
The invention is further described below.
The utility model provides an intelligence temperature control system for communication network engineering, includes registration login unit, user side, management server and cloud end database, its characterized in that: the user side is connected with the management server side through the wireless communication module, the management server side is connected with the cloud database through the wireless communication module, the user side comprises a plurality of mobile terminals, and the mobile terminals are used for a user to log in a system through the registration login module and enter the management server side to control the temperature; the registration login module is used for submitting administrator data for registration through a mobile phone terminal by an administrator, and sending the administrator data which is successfully registered to the database for storage, wherein the administrator data comprises the name, age, time of entry and the mobile phone number for authenticating the real name of the administrator;
the management server comprises a temperature data collection module, a temperature measurement module, a temperature control module, an input module, a display module, an equipment detection unit, an alarm module, a protection unit and a ventilation detection module, wherein the temperature data collection module is used for collecting temperature data information of a space using communication equipment, the temperature control module is used for controlling and collecting the temperature data information of the space using the communication equipment and feeding the collected temperature information back to the management server, the management server processes the fed-back information through the temperature control module and adjusts the temperature of the space using the communication equipment according to the processed data information through the temperature detection module, the protection unit is used for monitoring dust pollution data of a server, and once more dust is generated, the dust pollution data can be sent to a mobile phone terminal of a manager through a dust cleaning signal in the server, the ventilation detection module is used for detecting the ventilation data inside the server, the input module comprises a control panel, the control unit is used for receiving normal signals and abnormal signals of equipment and controlling the server, the control panel is installed at an entrance of a space using communication equipment, the control panel is convenient to operate electrical equipment, the display module comprises a liquid crystal display screen and is used for displaying collected temperature information and temperature information of cooling or heating, the management server does not receive the temperature information, the alarm module is started, and a worker is prompted to check the temperature sensor.
The temperature data collection module comprises a temperature sensor, an A/D converter, a data amplification module and a data receiving module, wherein the temperature sensor is installed in a space using the communication equipment and used for collecting temperature information, the A/D converter is used for converting the collected temperature information, the data amplification module amplifies the converted temperature information, the temperature data collection module receives the amplified data information through the data receiving module and transmits the collected temperature information to the feedback module.
The temperature sensor adopts a fiber temperature sensor based on polarization nonreciprocal of a Sagnac fiber interferometer.
The equipment detection unit is used for detecting the equipment information of the service, and once the detected data is different from the correct numerical value stored in the temperature control module, the equipment detection unit transmits the data to the alarm module to prompt a worker to check the equipment.
The control unit comprises the following specific control processes:
a1: when the control unit receives a normal signal of the equipment, the working temperature of the server is recorded in real time, and meanwhile, the equipment detection coefficient of the server is monitored;
a2: when the equipment detection coefficient of the server is greater than the equipment detection coefficient threshold value, the temperature side quantity module marks the equipment detection coefficient as a stable temperature limit value, meanwhile, when the real-time working temperature of the server reaches the limit value stored by the temperature measurement module, no operation is carried out, the starting time is recorded when the real-time working temperature of the server reaches the stable temperature limit value, the starting time is marked as the limit temperature starting time, and when the server cannot normally run, the running of the server is stopped and the running time of the server is recorded;
a3: comparing the time of ending the operation of the server with the start time of the limit temperature, and acquiring the bearing time of the limit temperature of the server by comparing the time of ending the operation of the server with the start time of the limit temperature;
a4: the method comprises the steps of sending a stable temperature limit value and the bearing time of a limit temperature to a cloud control platform, setting a timing temperature and a timing time for the stable temperature limit value and the bearing time of the limit temperature, when the working temperature of a server rises to the timing temperature, controlling the server to dissipate heat by the cloud control platform, starting timing at the same time, marking the server as the working time, when the real-time temperature is in an ascending trend, obtaining the expected closing time through the comparison of the timing time and the real-time working time, and sending the expected closing time to a mobile phone terminal of a manager.
The invention is implemented as follows:
s1, starting, initializing the system, logging in a user side by a user, entering the system, entering a management server side through a wireless communication module, and controlling a temperature sensor to start working;
s2, the temperature sensor collects the temperature in the space using the communication equipment, the collected temperature information is received by the temperature measuring module after being converted and amplified, the temperature information is transmitted to the temperature control module, the collected information is fed back to the management server through the feedback module, and the management server processes the information through the equipment detection unit;
s3, according to the processed information, when the temperature is high, the management server side operates the refrigeration equipment through the main temperature adjusting module to work, and performs the cooling operation, and when the temperature is low, the management server side operates the heating equipment through the main temperature adjusting module to perform the heating operation, and adjusts the temperature in the space of the communication equipment;
s4, detecting the dust content of the surrounding environment of the server by the protection unit, generating a normal dust content signal when judging that the dust content of the server is low, generating an internal server dust cleaning signal when judging that the dust content of the server is high, sending the internal server dust cleaning signal to a mobile phone terminal of an administrator, and replacing the position of the server after the administrator cleans the server;
s5, detecting the ventilation effect of the server by a ventilation detection module, if the ventilation coefficient of the server is higher than a ventilation coefficient threshold value, judging that the server is ventilated normally, generating a ventilation normal signal and sending the ventilation normal signal to a mobile phone terminal of an administrator;
and if the ventilation coefficient of the server is lower than the ventilation coefficient threshold value, judging that the server is abnormal, generating a ventilation abnormal signal and sending the ventilation abnormal signal to the mobile phone terminal of the administrator.
And S6, the user uses the mobile device to perform remote operation through the mobile phone terminal.
The control unit receives the equipment normal signal and the equipment abnormal signal and controls the server, and when the control unit receives the equipment normal signal, the working temperature of the server is recorded in real time, and the equipment detection coefficient of the server is monitored; when the equipment detection coefficient of the server is greater than the equipment detection coefficient threshold value, recording the temperature of the server and marking the temperature as a stable temperature limit value, when the real-time working temperature of the server reaches the stable temperature limit value, not performing any operation, recording the starting time when the real-time working temperature of the server reaches the stable temperature limit value, marking the starting time as the limit temperature starting time, and when the server cannot normally run, stopping the running of the server and recording the time when the server finishes running; comparing the time of ending the operation of the server with the start time of the limit temperature, acquiring the bearing time of the limit temperature of the server through the comparison of the time of ending the operation of the server with the start time of the limit temperature, and recording the bearing time of the limit temperature; sending the stable temperature limit value and the bearing time of the limit temperature to a cloud control platform, setting a timing temperature and a timing time, when the working temperature of the server rises to the timing temperature, controlling the server to dissipate heat by the cloud control platform, starting timing, when the real-time temperature is in a rising trend, obtaining the expected closing time by comparing the timing time with the real-time working time, and sending the expected closing time to a mobile phone terminal of a manager; the temperature in the server is effectively controlled, the closing time of the server is set, the problem that the efficiency of the server is reduced due to overhigh temperature is solved while the efficiency of the server is maximized, and the service life of the server is prolonged;
detecting ventilation data in the server through a ventilation detection unit, acquiring the number of available ventilation openings of the server and the flow speed of air in the server, judging that the server is abnormal if the ventilation value of the server is lower than the range of the normal ventilation value, generating a ventilation abnormal signal and sending the ventilation abnormal signal to a mobile phone terminal of a manager; the heat dissipation of the server is detected, and the problems that the work efficiency of the server is low and even the server is damaged due to poor heat dissipation effect are solved.
The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown therein is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (6)
1. The utility model provides an intelligence temperature control system for communication network engineering, includes registration login unit, user side, management server and high in the clouds database, its characterized in that: the user side is connected with the management server side through the wireless communication module, the management server side is connected with the cloud database through the wireless communication module, and the user side comprises a plurality of mobile terminals and is used for a user to log in a system through the registration login module and enter the management server side to control the temperature; the registration login module is used for submitting administrator data to register through a mobile phone terminal by an administrator, and sending the administrator data which is successfully registered to the database to be stored, wherein the administrator data comprises the name, age, time of entry and the mobile phone number of real name authentication of the administrator;
the management server comprises a temperature data collection module, a temperature measurement module, a temperature control module, an input module, a display module, an equipment detection unit, an alarm module, a protection unit and a ventilation detection module, wherein the temperature data collection module is used for collecting temperature data information of a space using communication equipment, the temperature control module is used for controlling and collecting the temperature data information of the space using the communication equipment and feeding the collected temperature information back to the management server, the management server processes the fed-back information through the temperature control module and adjusts the temperature of the space using the communication equipment according to the processed data information through the temperature detection module, the protection unit is used for monitoring dust pollution data of a server, once more dust is generated, the dust pollution data can be sent to a mobile phone terminal of an administrator through a dust cleaning signal in the server, and the ventilation detection module is used for detecting ventilation data in the server, input module includes control panel, the control unit is used for receiving equipment normal signal and equipment abnormal signal to control the server, and control panel installs in the entrance in the space that uses communication equipment, conveniently operates electrical equipment through control panel, and display module includes liquid crystal display, and is used for showing the temperature information of collecting and cooling down or the temperature information that heaies up, does not receive temperature information when the management server, starts alarm module, suggestion staff inspection temperature sensor.
2. The intelligent temperature control system for communication network engineering according to claim 1, wherein: the temperature data collection module comprises a temperature sensor, an A/D converter, a data amplification module and a data receiving module, wherein the temperature sensor is installed in a space using the communication equipment and used for collecting temperature information, the A/D converter is used for converting the collected temperature information, the data amplification module amplifies the converted temperature information, the temperature data collection module receives the amplified data information through the data receiving module and transmits the collected temperature information to the feedback module.
3. The intelligent temperature control system for communication network engineering according to claim 1, wherein: the temperature sensor adopts a fiber temperature sensor based on polarization nonreciprocal of a Sagnac fiber interferometer.
4. The intelligent temperature control system for communication network engineering according to claim 1, wherein: the equipment detection unit is used for detecting the equipment information of the service, and once the detected data is different from the correct numerical value stored in the temperature control module, the equipment detection unit transmits the data to the alarm module to prompt a worker to check the equipment.
5. The intelligent temperature control system for communication network engineering according to claim 1, wherein: the control unit comprises the following specific control processes:
a1: when the control unit receives a normal signal of the equipment, the working temperature of the server is recorded in real time, and meanwhile, the equipment detection coefficient of the server is monitored;
a2: when the equipment detection coefficient of the server is greater than the equipment detection coefficient threshold value, the temperature side quantity module marks the equipment detection coefficient as a stable temperature limit value, meanwhile, when the real-time working temperature of the server reaches the limit value stored by the temperature measurement module, no operation is carried out, the starting time is recorded when the real-time working temperature of the server reaches the stable temperature limit value, the starting time is marked as the limit temperature starting time, and when the server cannot normally run, the running of the server is stopped and the running ending time of the server is recorded;
a3: comparing the time of ending the operation of the server with the start time of the limit temperature, and acquiring the bearing time of the limit temperature of the server by comparing the time of ending the operation of the server with the start time of the limit temperature;
a4: the method comprises the steps of sending a stable temperature limit value and the bearing time of a limit temperature to a cloud control platform, setting a timing temperature and a timing time for the stable temperature limit value and the bearing time of the limit temperature, when the working temperature of a server rises to the timing temperature, controlling the server to dissipate heat by the cloud control platform, starting timing at the same time, marking the server as the working time, when the real-time temperature is in a rising trend, obtaining a predicted closing time through the comparison of the timing time and the real-time working time, and sending the predicted closing time to a mobile phone terminal of a manager.
6. The intelligent temperature control system for communication network engineering according to claim 1, wherein: the operation steps comprise:
s1, starting, initializing the system, logging in a user side by a user, entering the system, entering a management server side through a wireless communication module, and controlling a temperature sensor to start working;
s2, the temperature sensor collects the temperature in the space using the communication equipment, the collected temperature information is received by the temperature measuring module after being converted and amplified, the temperature information is transmitted to the temperature control module, the collected information is fed back to the management server through the feedback module, and the management server processes the information through the equipment detection unit;
s3, according to the processed information, when the temperature is high, the management server side operates the refrigeration equipment through the main temperature adjusting module to work, and performs the cooling operation, and when the temperature is low, the management server side operates the heating equipment through the main temperature adjusting module to perform the heating operation, and adjusts the temperature in the space of the communication equipment;
s4, detecting the dust content of the surrounding environment of the server by the protection unit, generating a normal dust content signal when judging that the dust content of the server is low, generating an internal server dust cleaning signal when judging that the dust content of the server is high, sending the internal server dust cleaning signal to a mobile phone terminal of an administrator, and replacing the position of the server after the administrator cleans the server;
s5, the ventilation detection module detects the ventilation effect of the server, if the ventilation value of the server is higher than the normal value range of the ventilation value, the server is judged to be ventilated normally, a ventilation normal signal is generated, and the ventilation normal signal is sent to the mobile phone terminal of the administrator; and if the ventilation value of the server is lower than the normal value range of the ventilation value, judging that the server is abnormal, generating a ventilation abnormal signal and sending the ventilation abnormal signal to a mobile phone terminal of an administrator.
And S6, the user uses the mobile device to perform remote operation through the mobile phone terminal.
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Application publication date: 20211221 |