CN117479496A - Computer lab temperature regulation economizer system based on thing networking - Google Patents

Abstract

The invention relates to the technical field of machine room temperature regulation, and discloses a machine room temperature regulation energy-saving system based on the Internet of things. This computer lab temperature regulation economizer system based on thing networking, including on-the-spot acquisition layer, its characterized in that: the on-site collection layer is connected with a centralized monitoring layer, the centralized monitoring layer is connected with a remote browsing layer, the on-site collection layer further comprises a sensor module, the temperature and the humidity of each area in the machine room are measured through a set temperature and humidity sensor, and the pressurizing fan module can be started to start the pressurizing fan so as to rapidly ventilate the area with local overheating of the cold channel. Can twenty-four hours real-time supervision important regional hot spot change condition, in case the discovery hot spot is too high, linkage air conditioner or fixed point pressurization fan carry out the local cooling, and need not to use the air conditioner to reduce the temperature of whole region, effectual reduction the use energy consumption of air conditioner improves its life to can be with the regional rapid cooling of fixed point.

Description

Computer lab temperature regulation economizer system based on thing networking

Technical Field

The invention relates to the technical field of machine room temperature regulation, in particular to a machine room temperature regulation energy-saving system based on the Internet of things.

Background

A machine room refers to a particular space or building for housing computer equipment and related facilities. Computer rooms are commonly used to house servers, network devices, storage devices, and other computer devices for supporting the operation and management of various information technology and communication systems.

The existing machine room cabinet often has local hot spots, the cold load of the machine room is close to the maximum refrigerating capacity of an air conditioning system, the air conditioning system runs for a long time aiming at the hot spot areas, so that the energy consumption of the machine room is increased, the service life of an air conditioner is reduced, meanwhile, the problem of insufficient temperature and humidity control capability is easy to occur, the existing machine room is incomplete in comprehensive monitoring coverage of temperature and humidity, temperature and humidity out-of-limit events are easy to occur, adverse effects are brought to normal use command of the machine room, and therefore, the machine room temperature regulation energy-saving system based on the Internet of things is provided.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a machine room temperature regulation energy-saving system based on the Internet of things, which solves the problems mentioned in the background art.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a computer lab temperature regulation economizer system based on thing networking, includes on-the-spot collection layer, on-the-spot collection layer is connected with centralized monitoring layer, centralized monitoring layer is connected with long-range browsing layer, on-the-spot collection layer still includes:

the sensor module is used for measuring the temperature and humidity of each area in the machine room through the set temperature and humidity sensor;

the pressurizing fan module can be started to start the pressurizing fan so as to rapidly ventilate the area with the local overheating cold channel;

the camera module can check the temperature change of the area in the channel through the infrared thermal imaging cameras arranged in the machine rooms of each group;

the centralized monitoring layer comprises:

the AI intelligent processing module can analyze and process the data acquired by the field acquisition layer, including the temperature and humidity of the field and the thermal imaging video file of the field;

the digital inspection module can integrate the data of the sensors installed in each area and facility of the machine room and transmit the data to a remote browsing layer for display;

the temperature and humidity data analysis module is used for monitoring the temperature and humidity of the machine room in real time by setting data transmitted by the corresponding sensor;

and the air conditioner state monitoring module is used for monitoring and displaying whether the running states of all parts of the precise air conditioner are normal or not in real time by combining the running working conditions of the air conditioner.

Preferably, the field acquisition layer is directly connected with various sensors, acquires field signals of temperature, humidity and thermal imaging images, and uploads the acquired field signals to the embedded server in an RS485 mode.

Preferably, the pressurizing fan module and the camera module implement linkage operation. And according to an indoor and outdoor temperature algorithm, the intelligent linkage pressurizing fan is started and stopped to perform indoor and outdoor airflow replacement, and the indoor room temperature is kept normal.

Preferably, the pressurizing fan module is connected with the sensor module, and monitors the hot spot change condition of the important area in twenty-four hours a day in real time, and once the hot spot is found to be too high, the fixed-point pressurizing fan is started to cool.

Preferably, when the temperature is higher than the expected temperature, the camera module can send early warning information in time, and intelligently operate the fresh air system of the pressurizing fan module and the machine room through a feedback program, so that the temperature of the current area is adjusted, and the temperature adjustment of the fixed-point area can be realized through the installed heating fan.

Preferably, a front end camera in the camera module is connected with a video storage host, and is transmitted to a centralized monitoring layer in a TCP/IP communication networking mode, the centralized monitoring layer monitors videos in real time, and the thermal imaging camera is powered by POE.

Preferably, the centralized monitoring layer further comprises a pressurizing fan monitoring module, the pressurizing fan monitoring module can comprehensively monitor the running state of the pressurizing fan and various parameters, and real-time monitoring is carried out on the running state of the pressurizing fan, so that the condition that the pressurizing fan cannot be started due to abnormal data is avoided.

Preferably, the remote browsing layer includes a permission identification module, according to different acquired permissions within the actual responsibility range of the operator, the acquired data are different, and when the mobile terminal and the PC terminal operate or log in, the system has a function of judging whether the identity of the operator meets the current operation permission in real time.

Preferably, the remote browsing layer further comprises a record inquiring module, so that the device has inquiring and counting functions, and the operation record comprises a history record of the work number of an operator, the name of the operated device, the operation content and the operation time.

Preferably, the remote browsing layer is connected with the mobile terminal and the PC terminal, can display the information on the pad and the computer at the same time, and the staff identified by the permission identification module can inquire related information and have the function of corresponding permission on the user interfaces of the mobile terminal and the PC terminal.

(III) beneficial effects

The invention provides a machine room temperature regulation energy-saving system based on the Internet of things. The beneficial effects are as follows:

(1) When the machine room temperature regulation energy-saving system based on the Internet of things is used, the change condition of hot spots in an important area can be monitored in real time for twenty-four hours, and once the hot spots are found to be too high, the air conditioner or the fixed-point pressurizing fan is linked to perform local cooling, the air conditioner is not required to be used for reducing the temperature of the whole area, so that the use energy consumption of the air conditioner is effectively reduced, the service life of the air conditioner is prolonged, and the fixed-point area can be rapidly cooled.

(2) When the machine room temperature regulation energy-saving system based on the Internet of things is used, sensing equipment such as a temperature and humidity sensor and an infrared camera in a key area is added, a precise air conditioner and a ventilation control system can be integrated, linkage of the machine room sensing equipment and the air conditioner and the ventilation control system is realized, temperature abnormality of equipment can be rapidly checked by matching line inspection and line inspection, and reliability and safety of the machine room are improved.

(3) When the machine room temperature regulation energy saving system based on the Internet of things is used, monitoring simulation diagrams of temperature sensation, water leakage, air conditioner and the like of all positions can be displayed in a concentrated mode, simple states of all nodes are displayed, a detailed information check and alarm setting page capable of being jumped to corresponding equipment is clicked to acquire detailed information, corresponding alarm levels, alarm confirmation conditions, corresponding positions and the like, historical data and historical curve inquiry can be provided, corresponding authority can only check corresponding data through authority setting, and confidentiality is better.

Drawings

FIG. 1 is a schematic diagram of a system according to the present invention;

FIG. 2 is a schematic diagram of a centralized monitoring layer according to the present invention;

FIG. 3 is a schematic diagram of a remote browsing layer according to the present invention;

FIG. 4 is a schematic diagram of a remote browsing layer according to the present invention;

fig. 5 is a schematic diagram of a temperature and humidity data analysis module according to the present invention.

In the figure: 1. a field acquisition layer; 2. a centralized monitoring layer; 3. a remote browsing layer; 101. a sensor module; 102. a pressurized fan module; 103. a camera module; 201. an AI intelligent processing module; 202. a digital inspection module; 203. a pressurized fan monitoring module; 204. a temperature and humidity data analysis module; 205. an air conditioner state monitoring module; 301. a right identification module; 302. and a record query module.

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. 1-5, the invention provides a machine room temperature regulation energy saving system based on internet of things, which comprises a field acquisition layer 1, wherein the field acquisition layer 1 is connected with a centralized monitoring layer 2, the centralized monitoring layer 2 is connected with a remote browsing layer 3, and the field acquisition layer 1 comprises:

the sensor module 101 is used for measuring the temperature and humidity of each area in the machine room, the temperature sensors are placed in places with evenly distributed positions in the machine room so as to cover the temperature change of the whole machine room, the sensors are needed to be placed in the center of the machine room or in a position far away from a heat source, the influence of a local heat source is avoided, the humidity sensors are placed in positions with better air flow in the machine room so as to accurately monitor the humidity change in the machine room, for example, the sensors are placed near a ventilation opening or in the center of the machine room, the operation performance of equipment is reduced due to overhigh temperature, and fire alarm can be caused in some cases. The influence of air humidity is large, and the humidity is too low, so that static electricity accumulation of equipment is possibly caused to damage the equipment and influence data; the humidity is too high, short circuit fault is easy to occur to equipment, and therefore, it is very important to ensure that the temperature and the humidity of a machine room are normal.

The pressurizing fan module 102 can start the pressurizing fan to quickly ventilate the area with local overheat of the cold channel, the local overheat area of the cold channel exists for a long time, and the arrangement position of the equipment is difficult to adjust, so that a plurality of groups of fixed-point pressurizing fans are added in the cold channel area, the cold channel forms a positive pressure environment, the cold air flow circulation is accelerated, and the linkage operation is implemented with the camera module 103. According to an indoor and outdoor temperature algorithm, an intelligent linkage pressurizing fan is started and stopped to perform indoor and outdoor airflow replacement, the indoor room temperature is kept normal, a pressurizing fan is installed under an electrostatic floor in a cold channel, a cold channel positive pressure environment is realized, cold airflow circulation is accelerated, important area hot spot change conditions are monitored in twenty-four hours a day in real time, and once the hot spot is found to be too high, the linkage fixed-point pressurizing fan is used for cooling.

The camera module 103 checks the temperature change of the area in the channel through the infrared thermal imaging cameras arranged in each group of machine rooms, when the temperature is higher than the expected temperature, early warning information is sent out in time, a fresh air system of the pressurizing fan module 102 and the machine rooms is intelligently operated through a feedback program, the temperature of the current area is adjusted, the temperature of the current area is prevented from being too high, meanwhile, the temperature of the whole machine room is not required to be adjusted in a certain range through the arranged heating fan, the energy-saving effect is realized, the front-end camera is connected to a video storage host, the video storage host is transmitted to the centralized monitoring layer 2 through a TCP/IP communication networking mode, the real-time monitoring of video is carried out through monitoring platform software, and the thermal imaging camera is powered by POE;

the field acquisition layer 1 is directly connected with various monitored equipment, acquires field signals such as temperature and humidity, thermal imaging images and the like, and uploads the acquired field signals to the embedded server in an RS485 mode; the embedded server is responsible for collecting, analyzing and storing each bus signal, accessing the management station, providing strong functional support for the collection, processing and display of the centralized monitoring layer 2, and the centralized monitoring layer 2 comprises:

the AI intelligent processing module 201, the AI intelligent processing module 201 can analyze and process the data collected by the field collection layer 1, including the temperature and humidity of the field and the thermal imaging video file of the field, and make decision and optimize the input data through the training of the algorithm, it can make decision automatically according to the predefined rule and target, propose advice or execute corresponding control action, also can analyze the different data collected by different seasons and time after learning, so that it can make automatic adjustment according to the current seasons and time, the relatively constant temperature of the machine room can be ensured without manual intervention operation, and meanwhile, the waste of some air conditioning systems can be avoided through the self-decision of AI, and a certain energy saving effect is achieved;

the digital inspection module 202, the digital inspection module 202 can integrate the data of the sensors installed in each area and facility of the machine room, and display the data through the remote browsing layer 3 in real time, the display content comprises the real-time temperature in each area, the real-time temperature of each device is monitored by the camera module 103, the real-time video inspection can be carried out on the heavy area, the environment in the machine room can be more intuitively checked by matching with the VR technology, the situation that certain danger is generated due to overhigh temperature of the device is avoided, the manual inspection is inconvenient, the inspection is carried out by combining the under-line matching, the inspection is more convenient, and the actual conditions of the temperature and the important area in each area can be more intuitively displayed.

The pressurization fan monitoring module 203, the operation condition and various parameters of the pressurization fan can be monitored comprehensively by the pressurization fan monitoring module 203, the operation condition of the pressurization fan is monitored in real time, the situation that the pressurization fan cannot be started due to abnormal data is avoided, meanwhile, the areas where the plurality of groups of pressurization fans are located are numbered, after the pressurization fan with a certain number is abnormal, the area where the pressurization fan is located can be positioned accurately, and the pressurization fan is convenient to maintain in the first time.

The temperature and humidity data analysis module 204 can monitor the temperature and humidity of the machine room in real time by setting data transmitted by corresponding sensors, and the too high temperature can reduce the running performance of equipment and sometimes can also cause fire alarm. The influence of air humidity is large, and the humidity is too low, so that static electricity accumulation of equipment is possibly caused to damage the equipment and influence data; too high humidity, the equipment is prone to short circuit failure. Therefore, it is very important to ensure that the temperature and humidity of the machine room are normal. Therefore, temperature and humidity data acquisition is needed through a corresponding temperature and humidity sensor, and data are received through a receiving module in real time, so that temperature and humidity conditions of a dispatching matching area can be accurately known, meanwhile, the upper limit value can be controlled between 26 ℃ and 28 ℃ (78-82 DEG F), the lower limit value is not lower than 18 ℃ (64 DEG F), the upper limit value of humidity is controlled between 45% -60% RH (relative humidity), the lower limit value is not lower than 30% RH, when the temperature and humidity of the machine room exceeds a preset value, alarm information can be automatically sent to the outside through an alarm module, an acousto-optic color alarm can be carried out, short message notification or voice notification can also be carried out through a remote browsing layer 3, meanwhile, an administrator can adjust an air conditioner in the machine room after receiving a system temperature and humidity alarm, so as to control the temperature and humidity of the machine room environment, the values can be finely adjusted according to specific requirements and equipment requirements of the machine room, the obtained historical data are transmitted into a cloud server through a transmission module, the historical data are made into a historical curve and numbered according to the date, any data of the day and any data can be stored as a default time of the system is deleted, and the system is required to be deleted, and the system is stored for a time of a most time of a day is higher than a default, and a user is required to be deleted.

The air conditioner state monitoring module 205 is newly added with a precise air conditioner in each key machine room, and is connected into an existing automatic machine room embedded server in a RS485 or TCP/IP interface mode by the system, the integrated monitoring system platform realizes a remote monitoring function, monitors and displays whether the running states of all parts (such as a compressor, a fan, a heater, a humidifier, a dehumidifier and a filter screen) of the air conditioner are normal or not in real time, monitors and displays all parameters (such as a return air temperature and humidity, an air supply temperature and humidity, a high-low alarm value of the temperature and humidity and a compressor running time) in real time when the air conditioner runs, monitors and displays all parameters (such as a return air temperature and humidity, a high-low alarm value of the temperature and humidity and a compressor running time) in real time, and can carry out sound and light color alarm, short message notification or voice notification on the important parameters (such as the fan fault, the temperature and the humidity), can be recorded in a curve graph, a user can intuitively see the running quality of the air conditioner set through the graph, meanwhile, the query results can be generated and can be printed out according to different conditions, the query results can be generated and output, the query results can be printed out, the precise control and the water leakage of the air conditioner can be more accurately controlled, the air conditioner can be prevented from being more accurately controlled, and the air conditioner can not leak the air conditioner environment is prevented from being polluted, and the air conditioner is more accurate.

The remote browsing layer 3 includes:

the permission identification module 301 can perform corresponding operations when an operator obtains corresponding permissions, and according to different obtained permissions in the actual responsibility range of the operator, the obtained data are different, when the mobile terminal and the PC terminal perform operations or log-in, the system has the function of judging whether the personnel identity meets the current operation permissions in real time, and simultaneously has perfect security precautions, the transmitted data need to be encrypted and authenticated, the real-time data interaction does not use the traditional http format for transmission, but uses the asymmetric algorithm standard authenticated by the national secret standard SM2, the security protection is enhanced in the aspects of data storage and identity verification, the data extraction needs to be decrypted through a specific algorithm, the external program cannot directly obtain the data, the security transmission of the data is realized, and the integrity and confidentiality of the data are ensured.

The record inquiring module 302 enables the device to have inquiring and counting functions, operation records, wherein the operation records of the device comprise the work number of an operator, the name of the operated device, the operation content, the operation time and the like, the history records are all available, the system can record the login and exit time of the operator for various operation records (except the password of the operator), the related staff can be tracked, and the secret leakage or misoperation can be quickly traced.

Meanwhile, the remote browsing layer 3 is connected with the mobile terminal and the PC terminal, can display the information on the pad and the computer at the same time, and can inquire related information and the function with corresponding authority on the user interfaces of the mobile terminal and the PC terminal by the staff identified by the authority identification module 301.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Computer lab temperature regulation economizer system based on thing networking, including on-the-spot acquisition layer (1), its characterized in that: the field acquisition layer (1) is connected with a centralized monitoring layer (2), the centralized monitoring layer (2) is connected with a remote browsing layer (3), and the field acquisition layer (1) further comprises:

the sensor module (101) is used for measuring the temperature and the humidity of each area in the machine room through the set temperature and humidity sensor;

a pressurizing fan module (102) capable of starting the pressurizing fan to rapidly ventilate the area where the cold channel is locally overheated;

the camera module (103) can check the temperature change of the area in the channel through the infrared thermal imaging cameras arranged in the machine rooms of each group;

the centralized monitoring layer (2) comprises:

the AI intelligent processing module (201) can analyze and process the data acquired by the field acquisition layer (1) including the field temperature and humidity and the field thermal imaging video file;

the digital inspection module (202) can integrate data of sensors installed in various areas and facilities of a machine room and transmit the data to the remote browsing layer (3) for display;

the temperature and humidity data analysis module (204) is used for monitoring the temperature and humidity of the machine room in real time by setting data transmitted by the corresponding sensor;

and the air conditioner state monitoring module (205) is used for monitoring and displaying whether the operation states of all parts of the precise air conditioner are normal or not in real time by combining the operation working conditions of the air conditioner.

2. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the field acquisition layer (1) is directly connected with various sensors, acquires field signals of temperature, humidity and thermal imaging images, and uploads the acquired field signals to the embedded server in an RS485 mode.

3. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the pressurizing fan module (102) and the camera module (103) implement linkage operation, and the intelligent linkage pressurizing fan is started and stopped to perform indoor and outdoor airflow replacement according to an indoor and outdoor temperature algorithm, so that the indoor room temperature is kept normal.

4. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the pressurizing fan module (102) is connected with the sensor module (101), the change condition of the hot spot of the important area is monitored in twenty-four hours a whole day, and once the hot spot is found to be too high, the fixed-point pressurizing fan is started to cool.

5. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: when the temperature of the camera module (103) is higher than the expected temperature, early warning information can be sent out in time, a fresh air system of the pressurizing fan module (102) and a machine room is intelligently operated through a feedback program, the temperature of a current area is adjusted, and the temperature adjustment of a fixed point area can be realized through an installed heating fan.

6. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the front end camera in the camera module (103) is connected with the video storage host, and is transmitted to the centralized monitoring layer (2) in a TCP/IP communication networking mode, the centralized monitoring layer (2) monitors videos in real time, and the thermal imaging camera is powered by POE.

7. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the centralized monitoring layer (2) further comprises a pressurizing fan monitoring module (203), the pressurizing fan monitoring module (203) can comprehensively monitor the running state of the pressurizing fan and various parameters, and real-time monitoring is carried out on the running state of the pressurizing fan, so that the condition that the pressurizing fan cannot be started due to abnormal data is avoided.

8. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the remote browsing layer (3) comprises a permission identification module (301), the acquired permissions are different according to the difference of acquired permissions in the actual responsibility range of operators, and the system has the function of judging whether the identities of the operators meet the current operation permissions in real time when the mobile terminal and the PC terminal operate or log in.

9. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the remote browsing layer (3) further comprises a record inquiring module (302) which enables the equipment to have inquiring and counting functions, and the operation records comprise the work number of an operator, the name of the operated equipment, the operation content and the operation time, and the history records are all formed.

10. The machine room temperature regulation energy saving system based on the internet of things according to claim 1, wherein: the remote browsing layer (3) is connected with the mobile terminal and the PC terminal, can display the information on the pad and the PC terminal at the same time, and the staff identified by the authority identification module (301) can inquire related information and the function with corresponding authority on the user interfaces of the mobile terminal and the PC terminal.