CN114064430A - Computer temperature abnormity processing method and system - Google Patents

Abstract

The invention is suitable for the field of computers, and provides a method and a system for processing computer temperature abnormity, wherein the method comprises the following steps: acquiring indoor environmental parameters of a current computer during working, wherein the environmental parameters at least comprise indoor temperature and indoor humidity; acquiring temperature information of internal hardware when a current computer works; acquiring working information in an abnormal working state in a historical working record of a computer in advance; evaluating the working state of the current computer according to the indoor environmental parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state; the method and the device have the advantages that the duration of the automatic protection mode started by the computer is predicted according to the current working state of the computer obtained through evaluation, and the method and the device have the following beneficial effects: the computer temperature is effectively prevented from being abnormal, the heat dissipation is accelerated, effectiveness and pertinence are achieved, and the intelligent degree is high.

Description

Computer temperature abnormity processing method and system

Technical Field

The invention belongs to the field of computers, and particularly relates to a method and a system for processing computer temperature abnormity.

Background

The computer is commonly called as computer, and is a modern electronic computer for high-speed calculation, the computer is a modern intelligent electronic device which can be operated according to programs and can automatically process mass data at high speed, the computer is more and more widely applied to human life and work, and because the computer can carry out numerical calculation and logic calculation, and also has the function of storage and memory, the modern life of human is almost not separated from the computer.

In some application occasions, a computer is usually applied in a machine room, the influence of environmental conditions on the computer is often ignored by people in the use process of the computer, however, the computer has great influence on the normal operation and the effective utilization of the computer, various series of technical equipment and information recording media of the computer have technical regulations on the parameter range of the environmental conditions, the reliability of the computer is reduced and the service life is shortened if the environmental factors comprise temperature, humidity, cleanliness, illumination, corrosion, electromagnetic interference, static electricity and the like, the most important hardware CPU in the computer reduces the operation speed if the temperature is too high, the system is slower and slower until the computer is halted, restarted or directly restarted, if the self-protection function of the CPU is failed, the CPU is burnt out due to long-time high temperature (more than 85 degrees for a long time), and the relative humidity of the computer environment is too low, static electricity is easy to generate, interference is caused to a computer, and the contact resistance between the welding point in the computer and the welding point of the socket is increased due to overhigh relative humidity.

In the prior art, when a computer is applied, the problem of internal temperature abnormity often exists, so that important data is often lost, internal hardware and the like of the computer are damaged, and the service life of the computer is influenced.

Disclosure of Invention

An embodiment of the present invention provides a method and a system for processing a computer temperature anomaly, which aim to solve the problems in the background art.

The embodiment of the invention is realized in such a way that, on one hand, a method for processing the temperature abnormity of the computer comprises the following steps:

acquiring indoor environmental parameters of a current computer during working, wherein the environmental parameters at least comprise indoor temperature and indoor humidity;

acquiring temperature information of internal hardware when a current computer works;

acquiring working information in an abnormal working state in a historical working record of a computer in advance;

evaluating the working state of the current computer according to the indoor environmental parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state;

predicting the time length of the computer for starting the automatic protection mode according to the estimated working state of the computer at present, and prompting the reserved safety time length for the user according to the prediction result, wherein the reserved safety time length is not more than the time length for entering the automatic protection mode;

obtaining the estimated time length of continuous work of the current computer, if the estimated time length of continuous work of the current computer is less than the reserved safe time length, keeping the current working state of the computer, and if the estimated time length of continuous work of the current computer is not less than the reserved safe time length, starting a computer accelerated heat dissipation program.

As a further aspect of the present invention, in another aspect, a computer temperature abnormality processing system includes:

a first obtaining module: acquiring indoor environmental parameters of a current computer during working, wherein the environmental parameters at least comprise indoor temperature and indoor humidity;

a second obtaining module: acquiring temperature information of internal hardware when a current computer works;

a pre-acquisition module: acquiring working information in an abnormal working state in a historical working record of a computer in advance;

an evaluation module: evaluating the working state of the current computer according to the indoor environmental parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state;

a prediction module: predicting the time length of the computer for starting the automatic protection mode according to the current computer working state obtained by evaluation, and prompting a user when reserving the safe time length according to the prediction result, wherein the reserved safe time length is not more than the time length for entering the automatic protection mode;

an execution module: acquiring estimated continuous work duration of the current computer, and if the estimated continuous work duration of the current computer is less than the reserved safe duration, keeping the current working state of the computer; and if the estimated continuous working time of the current computer is not less than the reserved safe time, starting a computer accelerated heat dissipation program.

The method and the system for processing the computer temperature abnormity can predict the time for starting the automatic protection mode of the computer, thereby providing reasonable prompt for the use of the computer by combining the working schedule of the computer, not only preventing the occurrence of data loss and the like caused by the abnormal working of the computer due to overhigh internal temperature, but also starting a computer accelerated heat dissipation program with pertinence for the estimated time for the continuous working of the current computer not less than the reserved safe time, ensuring the normal working on the one hand, ensuring the effectiveness and pertinence of the accelerated heat dissipation on the other hand, avoiding the blind accelerated heat dissipation for all computers, reducing the power consumption of a computer group and ensuring the service life of a heat dissipation part to a certain extent, and not only considering the temperature of hardware in the step of starting the computer accelerated heat dissipation program, the continuous estimated working time is fully considered, and the longer the continuous working time is, the larger the correction coefficient is, so that the rotation speed of the cooling fan is increased intelligently.

Drawings

Fig. 1 is a main flow chart of a computer temperature abnormality processing method.

FIG. 2 is a flow chart of steps in a method for processing a computer temperature anomaly to evaluate the current operating state of the computer.

FIG. 3 is a flow chart of steps in a method for processing a temperature anomaly of a computer for predicting a duration of time that the computer activates an auto-protect mode.

FIG. 4 is a flowchart of steps for starting a computer accelerated heat dissipation program in a computer temperature anomaly handling method.

Fig. 5 is a main structural diagram of a temperature abnormality processing system of a computer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a main flow chart of a method for processing a temperature abnormality of a computer according to an embodiment of the present invention is provided, where the method for processing a temperature abnormality of a computer includes:

step S10: acquiring indoor environmental parameters of a current computer during working, wherein the environmental parameters at least comprise indoor temperature and indoor humidity;

step S11: acquiring temperature information of internal hardware when a current computer works;

step S12: acquiring working information in an abnormal working state in a historical working record of a computer in advance;

step S13: evaluating the working state of the current computer according to the indoor environmental parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state;

step S14: predicting the time length of the computer for starting the automatic protection mode according to the estimated working state of the computer at present, and prompting the reserved safety time length for the user according to the prediction result, wherein the reserved safety time length is not more than the time length for entering the automatic protection mode;

step S15: obtaining the estimated time length of continuous work of the current computer, if the estimated time length of continuous work of the current computer is less than the reserved safe time length, keeping the current working state of the computer, and if the estimated time length of continuous work of the current computer is not less than the reserved safe time length, starting a computer accelerated heat dissipation program.

In the embodiment, when the method is applied, the working state of the current computer is estimated through the acquired indoor environment parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state, the duration of starting the automatic protection mode of the computer is predicted according to the working state of the current computer obtained through estimation, and the reserved safe duration prompt is carried out on a user according to the prediction result, wherein the reserved safe duration is not more than the duration of starting the automatic protection mode, the estimated duration of continuous working of the current computer is acquired, finally, the estimated duration of continuous working is compared with the reserved safe duration, if the estimated duration of continuous working of the current computer is less than the reserved safe duration, the current working state of the computer is kept, and if the estimated duration of continuous working of the current computer is not less than the reserved safe duration, starting a computer accelerated heat dissipation program, reasonably comparing and analyzing the current environment of the computer with the internal operation condition of the computer and the relevant environmental information and the internal operation condition in the historical working record of the computer, and predicting the time length of starting the automatic protection mode of the computer, thereby providing a reasonable prompt for the use of the computer by combining the working progress of the computer, not only preventing the occurrence of data loss and the like caused by abnormal working of the computer due to overhigh internal temperature, but also starting the computer accelerated heat dissipation program with pertinence for the computer of which the estimated time length of continuous working of the current computer is not less than the reserved safe time length, ensuring the normal working on one hand, ensuring the effectiveness and pertinence of accelerated heat dissipation on the other hand, and not needing to carry out blind accelerated heat dissipation on all computers, the power consumption of the computer group can be reduced to a certain extent, and the service life of the heat dissipation part can be ensured.

As a preferred embodiment of the present invention, the step of acquiring the environmental parameter of the room in which the current computer is operated includes:

step S101: presetting a time interval;

step S102: and acquiring the indoor temperature of the current computer at each preset time interval.

Step S103: and acquiring the indoor humidity of the current computer at each preset time interval.

When the embodiment is applied, for example, the indoor temperature and the indoor humidity of the computer are collected every 2s, the collection period can be determined according to the change rate of the indoor temperature, the collection period can be shortened if the temperature change is predicted to be fast, and the collection period is set to be 1 s.

As a preferred embodiment of the present invention, the step of acquiring the temperature information of the internal hardware when the current computer is working includes:

step S111: acquiring a change value of the internal hardware temperature along with time when the computer works;

step S112: and marking the highest temperature in the internal hardware temperature and the hardware position corresponding to the highest temperature.

In the embodiment, when the method is applied, the change value of the internal hardware temperature of the computer along with time is obtained, and the hardware part with the highest temperature is marked, for example, the part with the internal temperature of the computer hardware comprises a processor, a graphics card, a hard disk and a memory, and the graphics card and the processor are generally the fastest temperature rise in the computer hardware.

As a preferred embodiment of the present invention, the step of obtaining in advance the work information in the abnormal work state in the historical work record of the computer includes:

step S121: acquiring the temperature change range of internal hardware of a computer in an abnormal working state, setting the temperature change range as a computer temperature abnormal range, and setting a floating time interval corresponding to the computer temperature abnormal range as a computer abnormal working time period;

step S122: acquiring the indoor temperature change interval of the computer in the historical working record within the abnormal working time period;

step S123: acquiring a humidity change interval of a room where the computer is located in the historical working record within an abnormal working time period;

step S124: acquiring an internal hardware temperature change interval of the computer in the historical working record within an abnormal working time period;

step S125: and acquiring memory occupation information of internal hardware of the computer in the historical working record within the abnormal related set time period.

In the application of the embodiment, by respectively obtaining the indoor temperature change interval and humidity change interval in the abnormal working state in the history record of the computer, the memory occupation information of the internal hardware and the memory occupation information of the internal hardware, the history record can be obtained from a manufacturer, or can be obtained by taking the record of the abnormal working of the computer in the working environment as a reference, and each item of information is obtained in the floating time interval corresponding to the abnormal temperature range of the computer, where the floating time corresponding to the abnormal temperature range of the computer means that a time period is obtained from the time interval of the abnormal working state of the computer, for example, the time period when the computer enters the abnormal working is 30min, when the abnormal working time period of the computer is set, the floating time is floated forward for 10min or more, and thus, the abnormal working time period of the computer is set to be 40min, and sequentially aiming at the change values of the above information when the work is switched from normal work to abnormal work, the working state of the current computer is comprehensively evaluated.

As shown in fig. 2, a flowchart of a step of evaluating an operating state of a current computer according to an embodiment of the present invention is provided, and as another preferred embodiment of the present invention, the step of evaluating the operating state of the current computer includes:

step S131: establishing a corresponding change relation between the indoor temperature change interval and humidity change interval of the computer in the historical work record within the abnormal work time period and the memory occupation information of internal hardware and the abnormal work time period of the computer;

the corresponding change relationship is actually the change relationship of the indoor temperature change interval, the indoor humidity change interval and the internal hardware along with the time in a specific time period, the corresponding change relationship can be displayed on the same coordinate system in an image form, the dependent variable is the indoor temperature, the indoor humidity and the internal memory occupation information of the internal hardware, and the independent variable is the time;

step S132: marking a change relation section corresponding to the temperature range of the early warning environment and the humidity range of the early warning environment in the corresponding change relation as an abnormal working change relation comparison section, and marking a change value of the memory occupation information in the abnormal working time period of the computer corresponding to the change relation section;

the early warning environmental temperature range and the early warning environmental humidity range are computer working environmental temperature range and environmental humidity range given by a manufacturer, and the early warning environmental temperature range and the early warning environmental humidity range are given as reference to further reduce the comparison section range of the subsequent abnormal working change relation, so as to further ensure the safety of the working state of the computer, generally speaking, the computer can still normally work when the working environmental temperature range and the environmental humidity range of the early warning computer are not exceeded, but risks exist, and the computer can start self-protection to cause abnormal working when the working environmental temperature range is exceeded, for example, the ideal working environmental temperature of a certain computer is 10-30 ℃ and is normal, the computer is early warned at high temperature between 30-45 ℃, and has great risk when the temperature is over 45 ℃, the early warning environment humidity range is used for assisting in judging the temperature of computer hardware, the relative humidity of 30% -70% belongs to the recommended humidity range, when the computer exceeds the humidity early warning range, such as 70% -85%, hardware short circuit and the like can be caused, and fire can be caused.

Step S133: judging whether the indoor temperature and indoor humidity of the current computer and the internal hardware temperature change value in the working process are in the range of the comparison section of the abnormal working change relation;

step S134: when the three are not in the range of the abnormal working change relation comparison section, the working state of the current computer is marked as a safe working state, when at least one of the three is in the range of the abnormal working change relation comparison section, the working state of the current computer is marked as a non-safe working state, and the duration of starting the automatic protection mode of the computer is predicted.

In a case of this embodiment, as shown in fig. 3, a flowchart of a step of predicting a duration of the computer starting the automatic protection mode according to an embodiment of the present invention is provided, where the step S14 of predicting the duration of the computer starting the automatic protection mode includes:

step S141: respectively obtaining the indoor temperature and indoor humidity of the current computer and the time difference of the comparison section critical value of the corresponding value in the corresponding change relation and the abnormal work change relation in the internal hardware temperature change value during work;

step S142: comparing the time difference and setting the shortest time difference of the time differences as a reserved safe time length;

step S143: and displaying the reserved safe time length on a computer working interface.

When the method is applied, whether the indoor temperature, the indoor humidity and the working internal hardware temperature change value of the current computer are in the range of the abnormal working change relation comparison section or not is judged, the working state of the current computer is marked as the safe working state when all the three are in the range of the abnormal working change relation comparison section, the working state of the current computer is marked as the unsafe working state when at least one of the three is in the range of the abnormal working change relation comparison section, the duration of the automatic protection mode started by the computer is predicted, and the minimum value of the time difference between the corresponding value in the corresponding change relation and the abnormal working change relation comparison section critical value in the indoor temperature, the indoor humidity and the working internal hardware temperature change value of the current computer is compared as the reserved safe duration, so that the working state can be judged according to the indoor temperature, the indoor humidity and the working internal hardware temperature change value, The shortest time when any one of the indoor humidity and the internal hardware temperature change value reaches a critical value threatening the normal work of the computer is taken as a reserved time prompting value, so that the damage to the computer during abnormal work can be reduced as much as possible.

As shown in fig. 4, a flowchart of a step of starting a computer accelerated heat dissipation program according to an embodiment of the present invention is provided, where the step of starting the computer accelerated heat dissipation program includes:

step S161: closing unnecessary running programs in the computer in a non-safe working state so as to release the internal hardware memory of the computer;

step S162: the computer with the difference mark in the non-safety working state whose estimated time length of continuous working is not less than the reserved safety time length is the computer processed in the step S161;

step S163: judging whether the temperature of internal hardware in the differentially marked computer is higher than that of the computer at the adjacent positions at the two sides of the computer, if so, sending an instruction for suggesting the computer to sleep to a computer group control center, and determining whether to sleep the computer by the computer group control center according to the use condition of the computer, wherein the heat productivity of the computer is reduced after the computer is dormant, and the space for fully radiating the heat of the computer at the adjacent positions at the left and the right is effectively provided;

step S164: acquiring the maximum temperature difference value of the same hardware part of the computer when the estimated time length of continuous work is not less than the preset safety time length, dividing the temperature difference value into equal gradient sections according to the preset number of the sections, and dividing the temperature value of the hardware part of the computer, the internal hardware temperature of which is within the equal gradient section value range, into corresponding equal gradient division sections;

step S165: the method comprises the steps of differentiating the maximum rotating speed of a cooling fan inside a computer with the current rotating speed of the fan to obtain a fan rotating speed increasing difference interval, dividing the fan rotating speed increasing difference interval into equal-gradient intervals according to a preset interval number, and matching the equal-gradient dividing intervals of the rotating speed increasing difference with the equal-gradient dividing intervals of temperature difference one by one, wherein the larger the temperature difference interval boundary value is, the larger the corresponding fan rotating speed increasing difference interval boundary value is;

step S166: taking the product of a preset fan rotating speed increasing value selected from the corresponding fan rotating speed increasing difference interval and a set correction coefficient as a fan rotating speed increasing value of a corresponding computer;

step S167: and carrying out rotation speed increase on the corresponding computer according to the fan rotation speed increase value of the computer.

The example of the above embodiment is given, the maximum temperature difference value of the same hardware part of the computer is 20, and the maximum temperature difference value is divided into 5 temperature intervals, 0-4, 4-8, 8-12, 12-16, and 16-20, according to the preset interval of 4 degrees, if the current hardware internal temperature is 34 and the minimum temperature value is 20, the current hardware internal temperature is divided into the range of 12-16 intervals; the current fan rotation speed is 2000r/min, the maximum rotation speed is 5000r/min, the difference is 3000r/min, the equal gradient is divided into five fan rotation speed increasing difference intervals which are respectively 0-600, 600-1200, 1200-1800, 1800-2400 and 2400-3000, the 5 temperature intervals are respectively matched, namely 0-4, 4-8, 8-12, 12-26 and 26-30, then the rotation speed increasing interval corresponding to the computer with the current hardware internal temperature of 34 is 1800-2400r/min, the median rotation speed 2100r/min can be selected as the fan rotation speed increasing value, and the fan rotation speed increasing values selected in the same temperature interval can be the same.

In one case of this embodiment, the preset correction coefficient satisfies the following condition: the different estimated time lengths of continuous work correspond to different correction coefficients, the correction coefficients are in positive correlation, the longer the estimated time length of continuous work is, the larger the correction coefficients are, and the product of the rotating speed increasing value of the computer fan and the set maximum value of the correction coefficients is not more than the maximum rotating speed of the cooling fan inside the computer.

When the method is applied, the lifting rotating speed of the computer fan can be corrected by combining with continuous estimated working time, so that the temperature of hardware is considered, the continuous estimated working time is fully considered, the longer the continuous working time is, the larger the correction coefficient is, and the intelligentization of the rotating speed lifting of the cooling fan is realized.

As shown in fig. 5, a main structure diagram of a temperature anomaly handling system of a computer according to another embodiment of the present invention is provided, and in another aspect, the system includes:

a first obtaining module 100, configured to obtain indoor environment parameters of a current computer during working, where the environment parameters at least include indoor temperature and indoor humidity;

the second obtaining module 200: the temperature information acquisition module is used for acquiring the temperature information of internal hardware when the current computer works;

the pre-acquisition module 300: the system is used for acquiring the working information in the abnormal working state in the historical working record of the computer in advance;

the evaluation module 400: the system comprises a computer, a monitoring module and a control module, wherein the monitoring module is used for evaluating the working state of the current computer according to indoor environment parameters of the current computer, temperature information of internal hardware and working information in an abnormal working state;

the prediction module 500: the system comprises a computer, a computer starting automatic protection mode and a computer monitoring system, wherein the computer starting automatic protection mode is used for predicting the time length of the computer starting automatic protection mode according to the current computer working state obtained by evaluation, and prompting a user when reserving safe time length according to the prediction result, wherein the reserved safe time length is not more than the time length of entering the starting automatic protection mode;

the execution module 600: the system comprises a computer, a processor, a storage unit and a control unit, wherein the computer is used for acquiring estimated time length of continuous work of the current computer, and keeping the current working state of the computer if the estimated time length of the continuous work of the current computer is less than the reserved safe time length; and if the estimated continuous working time of the current computer is not less than the reserved safe time, starting a computer accelerated heat dissipation program.

The embodiment of the invention provides a computer temperature abnormity processing method, and provides a computer temperature abnormity processing system based on the computer temperature abnormity processing method, the working state of the current computer is estimated through the acquired indoor environment parameters of the current computer, the temperature information of internal hardware and the working information in an abnormal working state, the duration of the automatic protection mode started by the computer is predicted according to the working state of the current computer obtained by estimation, and the reserved safe duration prompt is carried out to a user according to the prediction result, wherein the reserved safe duration is not more than the duration of starting the automatic protection mode, the estimated duration of continuous working of the current computer is acquired, finally, the estimated duration of continuous working is compared with the reserved safe duration, if the estimated duration of continuous working of the current computer is less than the reserved safe duration, keeping the current working state of the computer, if the estimated duration of the continuous working of the current computer is not less than the reserved safe duration, starting the accelerated heat dissipation program of the computer, reasonably comparing and analyzing the internal running condition of the computer and the relevant environmental information and the internal running condition in the historical working record of the computer through the environment where the current computer is located, and predicting the duration of the automatic protection mode started by the computer, thereby providing reasonable prompt for the use of the computer by combining the working progress of the computer, not only preventing the occurrence of data loss and the like caused by the abnormal working of the computer due to overhigh internal temperature, but also starting the accelerated heat dissipation program of the computer with the estimated duration of the continuous working of the current computer being not less than the reserved safe duration in a targeted manner, on one hand ensuring the normal working, on the other hand, the effectiveness and pertinence of accelerated heat dissipation can be ensured, blind accelerated heat dissipation is not required to be carried out on all computers, the power consumption of a computer group can be reduced to a certain extent, the service life of a heat dissipation part is ensured, the step of starting a computer accelerated heat dissipation program not only considers the temperature of hardware, but also fully considers the continuous estimated working time, the longer the continuous working time is, the larger the correction coefficient is, and the rotation speed of the heat dissipation fan is increased to realize intellectualization.

In order to load the above method and system to operate successfully, the system may include more or less components than those described above, or combine some components, or different components, in addition to the various modules described above, for example, input/output devices, network access devices, buses, processors, memories, and the like.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily executed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A computer temperature exception handling method, comprising:

acquiring indoor environmental parameters of a current computer during working, wherein the environmental parameters at least comprise indoor temperature and indoor humidity;

acquiring temperature information of internal hardware when a current computer works;

acquiring working information in an abnormal working state in a historical working record of a computer in advance;

evaluating the working state of the current computer according to the indoor environmental parameters of the current computer, the temperature information of internal hardware and the working information in the abnormal working state;

predicting the time length of the computer for starting the automatic protection mode according to the estimated working state of the computer at present, and prompting the reserved safety time length for the user according to the prediction result, wherein the reserved safety time length is not more than the time length for entering the automatic protection mode;

obtaining the estimated time length of continuous work of the current computer, if the estimated time length of continuous work of the current computer is less than the reserved safe time length, keeping the current working state of the computer, and if the estimated time length of continuous work of the current computer is not less than the reserved safe time length, starting a computer accelerated heat dissipation program.

2. The method for processing computer temperature anomaly according to claim 1, wherein the step of obtaining environmental parameters of a room in which the current computer is operating comprises:

presetting a time interval;

acquiring the indoor temperature of the current computer at each preset time interval;

and acquiring the indoor humidity of the current computer at each preset time interval.

3. The method for processing computer temperature anomaly according to claim 1, wherein the step of acquiring the temperature information of internal hardware when the current computer is working comprises the following steps:

acquiring a change value of the internal hardware temperature along with time when the computer works;

and marking the highest temperature in the internal hardware temperature and the hardware position corresponding to the highest temperature.

4. The method for processing computer temperature abnormality according to claim 1, wherein the step of acquiring in advance the operation information in the abnormal operation state in the history operation record of the computer includes:

acquiring the temperature change range of internal hardware of a computer in an abnormal working state, setting the temperature change range as a computer temperature abnormal range, and setting a floating time interval corresponding to the computer temperature abnormal range as a computer abnormal working time period;

acquiring the indoor temperature change interval of the computer in the historical working record within the abnormal working time period;

acquiring a humidity change interval of a room where the computer is located in the historical working record within an abnormal working time period;

acquiring an internal hardware temperature change interval of the computer in the historical working record within an abnormal working time period;

and acquiring memory occupation information of internal hardware of the computer in the historical working record within the abnormal related set time period.

5. The computer temperature anomaly handling method according to claim 4, wherein said step of evaluating the current operating state of the computer comprises:

establishing a corresponding change relation between the indoor temperature change interval and humidity change interval of the computer in the historical work record within the abnormal work time period and the memory occupation information of internal hardware and the abnormal work time period of the computer;

marking a change relation section corresponding to the temperature range of the early warning environment and the humidity range of the early warning environment in the corresponding change relation as an abnormal working change relation comparison section, and marking a change value of the memory occupation information in the abnormal working time period of the computer corresponding to the change relation section;

judging whether the indoor temperature and indoor humidity of the current computer and the internal hardware temperature change value in the working process are in the range of the comparison section of the abnormal working change relation;

when the three are not in the range of the abnormal working change relation comparison section, the working state of the current computer is marked as a safe working state, when at least one of the three is in the range of the abnormal working change relation comparison section, the working state of the current computer is marked as a non-safe working state, and the duration of starting the automatic protection mode of the computer is predicted.

6. The computer temperature anomaly handling method according to claim 5, wherein said step of predicting a duration of time that the computer initiates the auto-protect mode comprises:

respectively obtaining the indoor temperature and indoor humidity of the current computer and the time difference of the comparison section critical value of the corresponding value in the corresponding change relation and the abnormal work change relation in the internal hardware temperature change value during work;

comparing the time difference and setting the shortest time difference of the time differences as a reserved safe time length;

and displaying the reserved safe time length on a computer working interface.

7. The method for processing computer temperature anomaly according to claim 5, wherein the step of starting the computer accelerated heat dissipation program comprises:

closing unnecessary running programs in the computer in a non-safe working state so as to release the internal hardware memory of the computer;

distinguishing and marking computers with estimated time length of continuous work in the computers in the non-safe working state not less than the reserved safe time length;

judging whether the temperature of internal hardware in the differentially marked computer is higher than that of the computer at the adjacent positions at two sides of the computer, if so, sending an instruction for suggesting the computer to sleep to a computer group control center;

acquiring the maximum temperature difference value of the same hardware part of the computer when the estimated time length of continuous work is not less than the preset safety time length, dividing the temperature difference value into equal gradient sections according to the preset number of the sections, and dividing the temperature value of the hardware part of the computer, the internal hardware temperature of which is within the equal gradient section value range, into corresponding equal gradient division sections;

the method comprises the steps of differentiating the maximum rotating speed of a cooling fan inside a computer with the current rotating speed of the fan to obtain a fan rotating speed increasing difference interval, dividing the fan rotating speed increasing difference interval into equal-gradient intervals according to a preset interval number, and matching the equal-gradient dividing intervals of the rotating speed increasing difference with the equal-gradient dividing intervals of temperature difference one by one, wherein the larger the temperature difference interval boundary value is, the larger the corresponding fan rotating speed increasing difference interval boundary value is;

taking the product of a preset fan rotating speed increasing value selected from the corresponding fan rotating speed increasing difference interval and a set correction coefficient as a fan rotating speed increasing value of a corresponding computer;

and carrying out rotation speed increase on the corresponding computer according to the fan rotation speed increase value of the computer.

8. The computer temperature abnormality processing method according to claim 7, wherein the preset correction coefficient satisfies a condition that: the different estimated duration of continuous work corresponds to different correction coefficients, and the correction coefficients are in positive correlation, wherein the product of the rotation speed increasing value of the computer fan and the maximum value of the set correction coefficient is not more than the maximum rotation speed of the cooling fan inside the computer.

9. A computer temperature exception handling system, the system comprising:

a first obtaining module: the system comprises a computer, a control unit and a control unit, wherein the control unit is used for acquiring indoor environmental parameters when the computer works currently, and the environmental parameters at least comprise indoor temperature and indoor humidity;

a second obtaining module: the temperature information acquisition module is used for acquiring the temperature information of internal hardware when the current computer works;

a pre-acquisition module: the system is used for acquiring the working information in the abnormal working state in the historical working record of the computer in advance;

an evaluation module: the system comprises a computer, a monitoring module and a control module, wherein the monitoring module is used for evaluating the working state of the current computer according to indoor environment parameters of the current computer, temperature information of internal hardware and working information in an abnormal working state;

a prediction module: the system comprises a computer, a computer starting automatic protection mode and a computer monitoring system, wherein the computer starting automatic protection mode is used for predicting the time length of the computer starting automatic protection mode according to the current computer working state obtained by evaluation, and prompting a user when reserving safe time length according to the prediction result, wherein the reserved safe time length is not more than the time length of entering the starting automatic protection mode;

an execution module: the system comprises a computer, a processor, a storage unit and a control unit, wherein the computer is used for acquiring estimated time length of continuous work of the current computer, and keeping the current working state of the computer if the estimated time length of the continuous work of the current computer is less than the reserved safe time length; and if the estimated continuous working time of the current computer is not less than the reserved safe time, starting a computer accelerated heat dissipation program.

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