CN117041088A - Network equipment temperature monitoring alarm method, system and storage medium - Google Patents

Abstract

The application belongs to the technical field of equipment monitoring management, and particularly relates to a network equipment temperature monitoring alarm method, a system and a storage medium. A network device temperature monitoring alarm method, comprising: the sensing module collects network equipment identifiers and determines monitored network equipment; the sensing module acquires temperature information and uploads the temperature information to the judging module; according to a preset algorithm and combining temperature information, a judging module judges the temperature condition of the network equipment, and the judging module outputs a control instruction to an early warning module; and according to the control instruction, the early warning module interacts with the cloud end to inform a manager of the temperature condition of the network equipment. The temperature of the network equipment is monitored from multiple aspects, and the temperature difference abnormality of the network equipment is early-warned according to the temperature fluctuation condition of the network equipment. In time, early warning is performed to management personnel through the cloud, so that the management personnel can have enough time to save data and troubleshoot equipment.

Description

Network equipment temperature monitoring alarm method, system and storage medium

Technical Field

The application belongs to the technical field of equipment monitoring management, and particularly relates to a network equipment temperature monitoring alarm method, a system and a storage medium.

Background

Along with the expansion of production, manufacturers integrate network equipment for monitoring the normal operation of a production line into a machine room, so that integrated management is realized. In the prior art, a temperature sensor and an image acquisition device are generally used for monitoring the operation condition of network equipment in a machine room, and the sensor can send out an alarm after the temperature exceeds the threshold value of the sensor. There is a risk of early warning delays leading to data loss of the network device.

Disclosure of Invention

The purpose of the application is that: the method and the device for monitoring and alarming the temperature of the network equipment and the storage equipment are provided, the temperature of the network equipment is monitored from multiple aspects, and the abnormal temperature difference of the network equipment is early warned according to the temperature fluctuation condition of the network equipment.

In order to achieve the technical purpose, the application adopts the following technical scheme:

in a first aspect, an embodiment of the present application provides a method for monitoring and alarming a temperature of a network device, which is applied to a device for monitoring and alarming a temperature of a network device, where the device includes a sensing module, a judging module, and an early warning module, where the judging module is used to judge a temperature condition of the network device, and the method includes:

the sensing module collects network equipment identifiers and determines monitored network equipment;

the sensing module acquires temperature information and uploads the temperature information to the judging module;

according to a preset algorithm, the judging module judges the temperature condition of the network equipment by combining the temperature information, and the judging module outputs a control instruction to the early warning module;

and according to the control instruction, the early warning module interacts with the cloud end to inform a manager of the temperature condition of the network equipment.

With reference to the first aspect, in some optional implementations, the sensing module collects temperature information, and uploads the temperature information to the determining module, including:

the temperature information collected by the sensing module comprises the ambient temperature, the historical temperature of the network equipment at intervals of preset time and the real-time temperature of the network equipment.

With reference to the first aspect, in some optional embodiments, in combination with the temperature information according to a preset algorithm, the determining module determines a temperature condition of the network device, and the determining module outputs a control instruction to the early warning module, including:

inputting the real-time temperature of the network equipment into the judging module, presetting an input sequence P and a comparison sequence Q in the judging module, inputting the real-time temperature of the network equipment into the input sequence P, wherein the input sequence P,

ΔP _n ＝P _n -P _n-1

wherein DeltaP _n For the temperature fluctuation value within the preset time, P _n For the real-time temperature, P _n-1 For the previous time history temperature, adjacent delta P is compared _n And DeltaP _n-1 When adjacent delta P _n And DeltaP _n-1 When positive and negative are the same, current P _n To the said comparison sequence Q is added,

if adjacent delta P _n And DeltaP _n-1 When the positive and negative are opposite, continue to add delta P _n+1 By comparison, if DeltaP _n+1 And delta P _n Is the same as the positive and negative of (A), then deltaP _n Corresponding to P _n Adding the comparison sequence Q, if ΔP _n+1 And delta P _n Is opposite in positive and negative, then deltaP is eliminated _n Corresponding to P _n ；

In the comparison sequence Q, the real-time temperature P is calculated _n Comparing with a preset safe working temperature interval to judge that the temperature of the network equipment isIf not, the method is normal;

meanwhile, in the comparison sequence Q, a temperature change trend DeltaS is calculated,

combining the variation trend Δs and the temperature fluctuation value Δp _n And further judging whether the temperature of the network equipment is normal.

With reference to the first aspect, in some optional embodiments, comparing the comparison with a preset safe operating temperature interval, determining whether the network device temperature is normal includes:

if the real-time temperature P _n The temperature upper limit of the preset safe working temperature interval is higher than the temperature upper limit of the preset safe working temperature interval, and the network equipment is judged to be too high in temperature;

if the real-time temperature P _n And judging that the temperature of the network equipment is too low when the temperature is lower than the lower limit of the preset safe working temperature interval.

With reference to the first aspect, in some optional embodiments, the method further includes:

when the network equipment temperature is judged to be too high, the judging module sends a preset first instruction to the early warning module;

when the temperature of the network equipment is judged to be too low, comparing the real-time temperature with the environment temperature, and when the real-time temperature is the same as the environment temperature, sending a preset second instruction to the early warning module by the judging module;

when the real-time temperature exceeds the environment temperature, the sensing module communicates with a cloud end, and the cloud end determines the working condition of the corresponding network equipment according to the communication between the network equipment identifier and the corresponding network equipment; if the cloud can normally communicate with the corresponding network equipment, determining that the corresponding network equipment normally works; if the cloud end cannot normally communicate with the corresponding network equipment, determining that the corresponding network equipment is abnormal in operation, and sending the second instruction to the early warning module by the judging module.

With reference to the first aspect, in some alternative embodiments, the trend of change Δs and the temperature fluctuation value Δp are combined _n Further judging whether the temperature of the network equipment is normal, including:

when the real-time temperature P _n Further verifying the change trend deltas and the temperature fluctuation value deltap during the preset safe working temperature interval _n When the change trend delta S is smaller than a preset safety change threshold, the network equipment temperature is normal, and when the change trend delta S is larger than the preset safety change threshold and the temperature fluctuation value delta P is larger than the preset safety change threshold _n When the preset safety fluctuation threshold value is smaller than the preset safety fluctuation threshold value, the judging module sends a preset third instruction to the early warning module; when the change trend DeltaS is greater than a preset safety change threshold value and the temperature fluctuation value DeltaP _n And when the preset safety fluctuation threshold value is larger than the preset safety fluctuation threshold value, the judging module sends a preset fourth instruction to the early warning module.

With reference to the first aspect, in some optional embodiments, according to the control instruction, the early warning module interacts with a cloud, including;

when the early warning module receives a preset first instruction, the early warning module sends a preset high-temperature early warning signal to the cloud;

when the early warning module receives a preset second instruction, the early warning module sends a preset low-temperature early warning signal to the cloud;

when the early warning module receives a preset third instruction, the early warning module sends a preset temperature generation abnormal signal to the cloud;

when the early warning module receives a preset fourth instruction, the early warning module sends a preset temperature fluctuation warning signal to the cloud.

In a second aspect, an embodiment of the present application further provides a network device temperature monitoring alarm system, including a sensing module, a judging module, an early warning module, and a storage module, where the judging module is configured to judge a temperature condition of a network device, and the storage module stores a computer program, and when the computer program is executed by the judging module or the early warning module, the network device temperature monitoring alarm device executes the method described above.

In a third aspect, embodiments of the present application also provide a computer-readable storage medium having a computer program stored therein, which when run on a computer causes the computer to perform the above-described method.

The application adopting the technical scheme has the following advantages:

1. in the scheme, the condition that the running temperature of the network equipment is too low is monitored, the condition that the network equipment cannot normally run can be detected, the running condition of the network equipment is further determined through communication between the cloud and the corresponding network equipment, and the running condition of the network equipment is monitored more comprehensively;

2. in this scenario, the acquired temperature is determined in the input sequence P by comparing adjacent ΔP _n And DeltaP _n-1 The positive and negative comparison of the device eliminates data generated by accidental false alarms of the acquisition equipment, and improves the reliability of early warning of the device;

2. in the scheme, the temperature fluctuation condition at the network equipment is classified and early-warned, and in general, when the temperature at the network equipment fluctuates, the fed back signal is an abnormal temperature generation signal, a temperature fluctuation warning signal, a temperature too high early-warning signal/a temperature too low early-warning signal, and early warning is timely carried out to a manager through a cloud, so that the manager has the effect of early warning in advance, and enough time is provided for storing data and finding out fault equipment.

Drawings

The application can be further illustrated by means of non-limiting examples given in the accompanying drawings;

FIG. 1 is a block diagram of a network device temperature monitoring alarm apparatus provided by an embodiment of the present application;

fig. 2 is a schematic flow chart of a network device temperature monitoring and alarming method according to an embodiment of the present application;

the main reference numerals are as follows:

10. a network equipment temperature monitoring alarm system; 11. a perception module; 12. a judging module; 13. and an early warning module.

Detailed Description

The present application will be described in detail below with reference to the drawings and the specific embodiments, wherein like or similar parts are designated by the same reference numerals throughout the drawings or the description, and implementations not shown or described in the drawings are in a form well known to those of ordinary skill in the art. In the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, in the network device temperature monitoring alarm system 10 of the present application, the network device temperature monitoring alarm device 10 may include a sensing module 11, a judging module 12, an early warning module 13 and a storage module, where the judging module 12 is used to judge the temperature condition of the network device.

In this embodiment, the sensing module 11 collects the label and temperature information of the network device, the judging module 12 respectively judges the conditions that the network device is in too high temperature, too low temperature and too large temperature fluctuation, the temperature monitoring of the network device is more comprehensive, the monitoring is more in place, and early warning is timely performed when the temperature of the network device is abnormal, so that early warning is performed, and a manager has enough time to save data and detect fault devices.

The storage module stores a computer program that, when executed by the judgment module 12 or the early warning module 13, causes the network device temperature monitoring alarm system 10 to perform the method described below.

As shown in fig. 2, the embodiment of the present application further provides a network device temperature monitoring and alarming method, where the network device temperature monitoring and alarming method may include the following steps:

step 110: the sensing module 11 collects network equipment identifiers and determines monitored network equipment;

step 120: the sensing module 11 collects temperature information and uploads the temperature information to the judging module 12;

step 130: according to a preset algorithm, in combination with the temperature information, the judging module 12 judges the temperature condition of the network equipment, and the judging module 12 outputs a control instruction to the early warning module 13;

step 140: according to the control instruction, the early warning module 13 interacts with the cloud end to inform the temperature condition of the network equipment to the manager.

In this embodiment, the sensing module 11 collects identification tag information and temperature information of the network device, determines a network device object to be monitored according to the identification information, and the judging module 12 judges the temperature information in combination with a preset algorithm, so as to monitor the conditions of excessively high operating temperature, excessively low temperature and excessively large temperature fluctuation of the network device, and timely early warn under the condition that the temperature of the network device is abnormal.

As an optional implementation manner, the sensing module 11 collects temperature information, and uploads the temperature information to the judging module 12, which includes:

the temperature information collected by the sensing module 11 includes an ambient temperature, a historical temperature of the network device at intervals of a preset time, and a real-time temperature of the network device.

In this embodiment, the sensing module 11 collects temperature information, so that the judging module 12 can conveniently perform judgment processing. It will be appreciated that the sensing module 11 includes a tag identification component for scanning device tags identifying network devices. The tag identification component can comprise a code scanner, a camera, a video camera and other image acquisition devices; the sensing module 11 also includes a sensor assembly for acquiring temperature information.

As an optional implementation manner, according to a preset algorithm, in combination with the temperature information, the judging module judges the temperature condition of the network device, and the judging module outputs a control instruction to the early warning module, where the control instruction includes:

inputting the real-time temperature of the network equipment into the judging module, presetting an input sequence P and a comparison sequence Q in the judging module, inputting the real-time temperature of the network equipment into the input sequence P, wherein the input sequence P,

ΔP _n ＝P _n -P _n-1

wherein DeltaP _n For the temperature fluctuation value within the preset time, P _n For the real-time temperature, P _n-1 For the previous time history temperature, adjacent delta P is compared _n And DeltaP _n-1 When adjacent delta P _n And DeltaP _n-1 When positive and negative are the same, current P _n To the said comparison sequence Q is added,

if adjacent delta P _n And DeltaP _n-1 When the positive and negative are opposite, continue to add delta P _n+1 By comparison, if DeltaP _n+1 And delta P _n Is the same as the positive and negative of (A), then deltaP _n Corresponding to P _n Adding the comparison sequence Q, if ΔP _n+1 And delta P _n Is opposite in positive and negative, then deltaP is eliminated _n Corresponding to P _n ；

In the comparison sequence Q, the real-time temperature P is calculated _n Comparing the network equipment temperature with a preset safe working temperature interval, and judging whether the network equipment temperature is normal or not;

meanwhile, in the comparison sequence Q, a temperature change trend DeltaS is calculated,

combining the variation trend Δs and the temperature fluctuation value Δp _n And further judging whether the temperature of the network equipment is normal.

In this embodiment, the collected temperature is compared with adjacent positive and negative values in the input sequence P, so that data generated by accidental false alarm of the collecting device is eliminated, and the reliability of early warning of the device is improved.

As an optional implementation manner, inputting the real-time temperature of the network device into the judging module 12, comparing with a preset safe operation temperature interval, and judging whether the temperature of the network device is normal, including:

if the real-time temperature is higher than the upper temperature limit of the preset safe working temperature interval, judging that the temperature of the network equipment is too high;

and if the real-time temperature is lower than the temperature lower limit of the preset safe working temperature interval, judging that the temperature of the network equipment is too low.

In this embodiment, when it is determined that the temperature of the network device is not within the safe operating temperature range, the determining module 12 further determines that the temperature is abnormal, and determines whether the temperature of the network device is too high or too low.

As an alternative embodiment, the method further comprises:

when the network equipment temperature is judged to be too high, the judging module 12 sends a preset first instruction to the early warning module 13;

comparing the real-time temperature with the ambient temperature when the network equipment temperature is judged to be too low, and sending a preset second instruction to the early warning module 13 by the judging module 12 when the real-time temperature is the same as the ambient temperature;

when the real-time temperature exceeds the ambient temperature, the sensing module 11 communicates with a cloud end, and the cloud end determines the working condition of the corresponding network equipment according to the communication between the network equipment identifier and the corresponding network equipment; if the cloud can normally communicate with the corresponding network equipment, determining that the corresponding network equipment normally works; if the cloud end cannot normally communicate with the corresponding network device, it is determined that the corresponding network device is abnormal in operation, and the judging module 12 sends the second instruction to the early warning module 13.

In this embodiment, when it is determined that the temperature of the network device is too high, the judging module 12 only needs to send the first instruction; when determining that the temperature of the network device is too low, the judging module 12 needs to further analyze the reason for the temperature of the network device being too low, the real-time temperature is the same as the ambient temperature, and the network device may be in a shutdown state. The real-time temperature is higher than the ambient temperature, and the running temperature of the network equipment is possibly reduced due to the fact that the ambient temperature is too low, and the running temperature is determined through communication of the network equipment temperature monitoring and alarming device 10-cloud end and cloud end-network equipment.

As an optional implementation manner, combining the variation trend and the temperature fluctuation value, further determining whether the network device temperature is normal includes:

when the real-time temperature is in the preset safe working temperature interval, the change trend and the temperature fluctuation value are further checked, when the change trend is smaller than a preset safe change threshold, the network equipment temperature is normal, and when the change trend is larger than the preset safe change threshold and the temperature fluctuation value is smaller than the preset safe fluctuation threshold, the judging module sends a preset third instruction to the early warning module; and when the change trend is greater than a preset safety change threshold and the temperature fluctuation value is greater than a preset safety fluctuation threshold, the judging module sends a preset fourth instruction to the early warning module.

In this embodiment, the temperature fluctuation situation at the network device is classified and early-warned, and in general, when the temperature at the network device fluctuates, the fed back signal will be an abnormal temperature generation signal, a temperature fluctuation warning signal, a temperature too high early-warning signal and a temperature too low early-warning signal, so that early warning is performed to the manager through the cloud in time, the early warning is performed, and the manager has enough time to save data and troubleshoot the device.

It can be understood that the preset temperature collection period can be changed according to the received command, the normal temperature collection period can be 3m, when the early warning module 13 receives the fourth command, i.e. the network device starts to have a trend of abnormal temperature generation, the device early warns in time, meanwhile, the frequency of the collected temperature becomes 1m once, and the real-time temperature P _n From this point on.

As an optional implementation manner, according to the control instruction, the early warning module 13 interacts with the cloud, including;

when the early warning module 13 receives a preset first instruction, the early warning module 13 sends a preset high-temperature early warning signal to the cloud;

when the early warning module 13 receives a preset second instruction, the early warning module 13 sends a preset low-temperature early warning signal to the cloud;

when the early warning module 13 receives a preset third instruction, the early warning module 13 sends a preset temperature generation abnormal signal to the cloud;

when the pre-warning module 13 receives a preset fourth instruction, the pre-warning module 13 sends a preset temperature fluctuation warning signal to the cloud.

In this embodiment, the early warning module 13 sends an early warning signal to the manager through the cloud, and the manager saves data according to the early warning signal, checks the network device, and eliminates the network fault.

The embodiment of the application also provides a computer readable storage medium. The computer readable storage medium has stored therein a computer program which, when run on a computer, causes the computer to perform the network device temperature monitoring alarm method as described in the above embodiments.

From the foregoing description of the embodiments, it will be apparent to those skilled in the art that the present application may be implemented in hardware, or by means of software plus a necessary general hardware platform, and based on this understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disc, a removable hard disk, etc.), and includes several instructions for causing a computer device (may be a personal computer, a storage device, or a network device, etc.) to execute the method described in the respective implementation scenario of the present application.

In summary, the embodiment of the application provides a method, a system and a storage medium for monitoring and alarming temperature of network equipment. In the scheme, the sensing module 11 collects the label and the temperature information of the network equipment, the judging module 12 judges the conditions that the network equipment is in too high temperature, too low temperature and too large temperature fluctuation respectively, the temperature monitoring of the network equipment is more comprehensive, the monitoring is more in place, and early warning is timely performed when the temperature of the network equipment is abnormal, so that early warning is performed, and a manager has enough time to save data and detect fault equipment.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The above-described apparatus and method embodiments are merely illustrative, for example, flow diagrams and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions. In addition, functional modules in the embodiments of the present application may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (9)

1. A network equipment temperature monitoring alarm method is characterized in that: the application has a network equipment temperature monitoring alarm device, the device includes a perception module, a judging module and an early warning module, the judging module is used for judging the temperature condition of the network equipment, the method includes:

the sensing module collects network equipment identifiers and determines monitored network equipment;

the sensing module acquires temperature information and uploads the temperature information to the judging module;

according to a preset algorithm, the judging module judges the temperature condition of the network equipment by combining the temperature information, and the judging module outputs a control instruction to the early warning module;

and according to the control instruction, the early warning module interacts with the cloud end to inform a manager of the temperature condition of the network equipment.

2. The network device temperature monitoring and alarming method according to claim 1, wherein: the sensing module collects temperature information and uploads the temperature information to the judging module, and the sensing module comprises:

the temperature information collected by the sensing module comprises the ambient temperature, the historical temperature of the network equipment at intervals of preset time and the real-time temperature of the network equipment.

3. The network device temperature monitoring and alarming method according to claim 2, wherein: according to a preset algorithm, in combination with the temperature information, the judging module judges the temperature condition of the network equipment, and the judging module outputs a control instruction to the early warning module, and the method comprises the following steps:

inputting the real-time temperature of the network equipment into the judging module, presetting an input sequence P and a comparison sequence Q in the judging module, inputting the real-time temperature of the network equipment into the input sequence P, wherein the input sequence P,

ΔP _n ＝P _n -P _n-1

wherein DeltaP _n For the temperature fluctuation value within the preset time, P _n For the real-time temperature, P _n-1 For the previous time history temperature, adjacent delta P is compared _n And DeltaP _n-1 When adjacent delta P _n And DeltaP _n-1 When positive and negative are the same, current P _n To the said comparison sequence Q is added,

if adjacent delta P _n And DeltaP _n-1 When the positive and negative are opposite, continue to add delta P _n+1 By comparison, if DeltaP _n+1 And delta P _n Is the same as the positive and negative of (A), then deltaP _n Corresponding to P _n Adding the comparison sequence Q, if ΔP _n+1 And delta P _n Is opposite in positive and negative, then deltaP is eliminated _n Corresponding to P _n ；

In the comparison sequence Q, the real-time temperature P is calculated _n Comparing the network equipment temperature with a preset safe working temperature interval, and judging whether the network equipment temperature is normal or not;

meanwhile, in the comparison sequence Q, a temperature change trend DeltaS is calculated,

combining the variation trend Δs and the temperature fluctuation value Δp _n And further judging whether the temperature of the network equipment is normal.

4. A method for monitoring and alarming temperature of network equipment according to claim 3, wherein: comparing the temperature with a preset safe working temperature interval to judge whether the temperature of the network equipment is normal, wherein the method comprises the following steps:

if the real-time temperature P _n The temperature upper limit of the preset safe working temperature interval is higher than the temperature upper limit of the preset safe working temperature interval, and the network equipment is judged to be too high in temperature;

if the real-time temperature P _n And judging that the temperature of the network equipment is too low when the temperature is lower than the lower limit of the preset safe working temperature interval.

5. The method for monitoring and alarming the temperature of network equipment according to claim 4, wherein the method comprises the following steps: the method further comprises the steps of:

when the network equipment temperature is judged to be too high, the judging module sends a preset first instruction to the early warning module;

when the temperature of the network equipment is judged to be too low, comparing the real-time temperature with the environment temperature, and when the real-time temperature is the same as the environment temperature, sending a preset second instruction to the early warning module by the judging module;

when the real-time temperature exceeds the environment temperature, the sensing module communicates with a cloud end, and the cloud end determines the working condition of the corresponding network equipment according to the communication between the network equipment identifier and the corresponding network equipment; if the cloud can normally communicate with the corresponding network equipment, determining that the corresponding network equipment normally works; if the cloud end cannot normally communicate with the corresponding network equipment, determining that the corresponding network equipment is abnormal in operation, and sending the second instruction to the early warning module by the judging module.

6. The network device temperature monitoring and alarming method according to claim 5, wherein: combining the variation trend Δs and the temperature fluctuation value Δp _n Further judging whether the temperature of the network equipment is normal, including:

when the real-time temperature P _n Further verifying the change trend deltas and the temperature fluctuation value deltap during the preset safe working temperature interval _n When the change trend delta S is smaller than a preset safety change threshold, the network equipment temperature is normal, and when the change trend delta S is larger than the preset safety change threshold and the temperature fluctuation value delta P is larger than the preset safety change threshold _n When the preset safety fluctuation threshold value is smaller than the preset safety fluctuation threshold value, the judging module sends a preset third instruction to the early warning module; when the change trend DeltaS is greater than a preset safety change threshold value and the temperature fluctuation value DeltaP _n And when the preset safety fluctuation threshold value is larger than the preset safety fluctuation threshold value, the judging module sends a preset fourth instruction to the early warning module.

7. The network device temperature monitoring and alarming method according to claim 1, wherein: according to the control instruction, the early warning module interacts with the cloud, and the early warning module comprises;

when the early warning module receives a preset first instruction, the early warning module sends a preset high-temperature early warning signal to the cloud;

when the early warning module receives a preset second instruction, the early warning module sends a preset low-temperature early warning signal to the cloud;

when the early warning module receives a preset third instruction, the early warning module sends a preset temperature generation abnormal signal to the cloud;

when the early warning module receives a preset fourth instruction, the early warning module sends a preset temperature fluctuation warning signal to the cloud.

8. A network equipment temperature monitoring alarm system is characterized in that: the system comprises a sensing module, a judging module, an early warning module and a storage module, wherein the judging module is used for judging the temperature condition of network equipment, a computer program is stored in the storage module, and when the computer program is executed by the judging module or the early warning module, the network equipment temperature monitoring alarm device is enabled to execute the method as claimed in any one of claims 1-7.

9. A computer-readable storage medium, characterized by: the computer readable storage medium having stored therein a computer program which, when run on a computer, causes the computer to perform the method of any of claims 1-7.