CN114625604A - Computer temperature control method - Google Patents

Abstract

The invention relates to the field of computers, and discloses a computer temperature control method, which comprises the following steps: step 1: two cooling parts are arranged and respectively positioned on the display screen and the case; step 2: each group of cooling components is provided with three levels of starting power; step 3: temperature acquisition devices are arranged on the case and the display screen shell; step 4: editing three levels of temperature thresholds as trigger starting items of a cooling component; step 5: temperature measurement software is arranged in a computer system, and temperature measurement information is reported in real time; step 6: the power of the cooling component is manually set, and the required starting power is selected. The invention can automatically adjust the cooling capacity according to the heating value of the CPU, ensures that the heat can be dissipated timely, is more intelligent, saves energy, avoids waste, is more convenient for a user to use, can automatically adjust the starting mode of a cooling part according to the self requirement, and reduces the limitation when in use.

Description

A computer temperature control method

technical field

The invention relates to the technical field of computers, in particular to a computer temperature control method.

Background technique

The temperature of the central processing unit CPU when the computer is running. The CPU is guaranteed to be generally stable within the range of 20 to 30 degrees of temperature rise. The increase in CPU temperature is due to the fact that the heat generation of the CPU is greater than the heat dissipation of the radiator. Once the heat generation and heat dissipation tend to balance, the temperature will no longer rise. , the calorific value is determined by the power of the CPU, and the power is proportional to the voltage, so to control the temperature well, it is necessary to control the core voltage of the CPU, the computer CPU temperature is too high, it will cause restart or blue screen of death and other phenomena;

However, most of the existing temperature control for computers lacks measures to automatically adjust the heat dissipation capacity according to the heat generation. It is easy to cause energy waste caused by insufficient heat dissipation and excessive heat dissipation. It is difficult for users to know the time of temperature drop in time, which is inconvenient and affects user's use.

SUMMARY OF THE INVENTION

(1) Technical problems solved

Aiming at the above-mentioned shortcomings of the prior art, the present invention provides a computer temperature control method, which can effectively solve the lack of measures to automatically adjust the heat dissipation capacity according to the heat generation in the prior art, and it is easy to cause insufficient heat dissipation and excessive heat dissipation. Energy waste caused by heat dissipation, it is difficult for users to know the time of temperature drop in time, which is more inconvenient and affects the use of users.

(2) Technical solutions

To achieve the above purpose, the present invention is achieved through the following technical solutions:

The invention discloses a computer temperature control method, comprising the following steps:

Step1: Set up two cooling parts, which are located on the display screen and the chassis;

Step2: Each group of cooling components is set with three levels of starting power;

Step3: Set the temperature acquisition device on the chassis and the display case;

Step4: Edit the three-level temperature threshold as the triggering item of the cooling component;

Step5: Built-in temperature measurement software in the computer system to report temperature measurement information in real time;

Step6: Manually set the cooling component power, and select the required starting power;

Step7: By default, after the temperature exceeds the first temperature threshold, start the cooling component, and increase the startup power of the cooling component according to the increasing temperature threshold level;

Step8: After the actual temperature reaches the temperature threshold of the third level, a record report is generated, and the record report is written to the storage medium;

Step9: Submit the high temperature warning plan to the computer display terminal;

Step10: Report the temperature drop countdown prompt information in real time.

Further, the cooling component in Step 1 is a ball cooling fan, and the ball cooling fan is electrically connected to the computer case and the display screen.

Further, the starting power of the three levels of cooling components in the step Step2 includes: 4W, 6W and 8W;

Start the sequence, increasing from low to high.

Further, the temperature acquisition device in the step Step3 includes:

A sensor that senses temperature and converts it into a usable output signal;

A signal converter that converts the available output signal into a temperature magnitude;

The measurement range is the temperature within 1.6 ~ 300K.

Further, the temperature thresholds of the three levels in the step Step4 are: 30 degrees Celsius, 45 degrees Celsius, and 60 degrees Celsius;

Among them, the CPU temperature is maintained at 30 degrees Celsius, and when the temperature fluctuates within five degrees Celsius, the cooling component will not trigger the startup. When the fluctuation exceeds this range, the cooling component will start immediately until the temperature drops below 30 degrees Celsius.

Further, the attributes of the record report in the step 8 include: the start time of exceeding the standard, the duration of exceeding the standard and the starting power of the cooling component;

Among them, the duration of the temperature exceeding the standard is updated every five minutes in the record report.

Further, the editing process of the high temperature warning scheme in the step Step9 includes:

S1: Analyze the current CPU usage of the system and the continuous operation time of the display screen;

S2: Predict the future temperature rise time and rise index;

S3: Analyze the temperature drop speed of the display screen after the shutdown;

S4: When the chassis temperature rises to the highest threshold and exceeds the rated holding time, submit a notification for shutdown and cooling;

S5: Provide recommendations for projects that can be stopped;

S6: According to the CPU release ratio in the chassis, predict the temperature drop time and drop speed;

S7: Submit the processing data to the display terminal.

Further, the display screen in the step S1 continues the operation time, and the determination criterion is that the load operation time is calculated when the start time exceeds the first temperature threshold.

Further, the prediction of the future temperature rise time and the rise index in the step S2 is based on the analysis of historical temperature rise data and the analysis of temperature rise data collected by the network.

Further, in the step S5, the recommendation of the stop operation items can be arranged in order according to the occupancy rate, from high to bottom, and the preferred recommended stop operation items are set and marked.

Further, the processing data in the step S7 is sent and submitted through the transmission link of the wireless network, and the operation to be processed is reminded every five minutes.

(3) Beneficial effects

Adopting the technical scheme provided by the present invention, compared with the known public technology, has the following beneficial effects:

1. The present invention can automatically adjust the cooling capability according to the calorific value of the CPU, ensure that the heat can be dissipated in time, is more intelligent, saves energy, avoids waste, is more convenient for users to use, and can automatically adjust the cooling components according to their own needs. Startup mode, reduce the limitations of use.

2. The present invention enables users to know the speed of CPU temperature drop in time during use, and can make predictions about future temperature rises, so as to warn users in advance to avoid normal operation of the computer due to excessive temperature, which is convenient for users. Process the computer CPU occupied resources.

Description of drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the following briefly introduces the accompanying drawings that are required to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only some embodiments of the present invention, and for those of ordinary skill in the art, other drawings can also be obtained from these drawings without creative effort.

Fig. 1 is a kind of schematic flow chart of the control method of computer temperature;

Fig. 2 is the schematic flow chart of the editing process of high temperature warning scheme in the present invention;

FIG. 3 is a schematic structural diagram of a computer temperature control method.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The present invention will be further described below in conjunction with the examples.

Example 1

A computer temperature control method of the present embodiment, as shown in Figure 1 and Figure 3, includes the following steps:

Step1: Set up two cooling parts, which are located on the display screen and the chassis;

Step2: Each group of cooling components is set with three levels of starting power;

Step3: Set the temperature acquisition device on the chassis and the display case;

Step4: Edit the three-level temperature threshold as the triggering item of the cooling component;

Step5: Built-in temperature measurement software in the computer system to report temperature measurement information in real time;

Step6: Manually set the cooling component power, and select the required starting power;

Step7: By default, after the temperature exceeds the first temperature threshold, start the cooling component, and increase the startup power of the cooling component according to the increasing temperature threshold level;

Step8: After the actual temperature reaches the temperature threshold of the third level, a record report is generated, and the record report is written to the storage medium;

Step9: Submit the high temperature warning plan to the computer display terminal;

Step10: Report the temperature drop countdown prompt information in real time.

As shown in FIG. 1 , the cooling component in Step 1 is a ball cooling fan, and the ball cooling fan is electrically connected to the computer case and the display screen.

As shown in Figure 1, the starting powers of the three levels of cooling components in Step 2 include: 4W, 6W and 8W;

Start the sequence, increasing from low to high.

As shown in Figure 1, the temperature acquisition device in Step 3 includes:

A sensor that senses temperature and converts it into a usable output signal;

A signal converter that converts the available output signal into a temperature magnitude;

The measurement range is the temperature within 1.6 ~ 300K.

As shown in Figure 1, the temperature thresholds of the three levels in Step 4 are: 30 degrees Celsius, 45 degrees Celsius, and 60 degrees Celsius;

Among them, the CPU temperature is maintained at 30 degrees Celsius, and when the temperature fluctuates within five degrees Celsius, the cooling component will not trigger the startup. When the fluctuation exceeds this range, the cooling component will start immediately until the temperature drops below 30 degrees Celsius.

As shown in Figure 1, the attributes of the record report in step 8 include: start time of exceeding the standard, duration of exceeding the standard and starting power of the cooling component;

Among them, the duration of the temperature exceeding the standard is updated every five minutes in the record report.

In the specific implementation of this embodiment, when the computer starts up, the cooling component starts the corresponding power according to the temperature detected by the CPU, and the user can manually set the startup power of the cooling component. When the CPU temperature reaches the set maximum threshold, it is recorded, and Provide a high temperature warning plan, after the implementation, the temperature drop countdown reminder.

The present invention can automatically adjust the cooling capability according to the calorific value of the CPU, ensure that the heat can be dissipated in time, is more intelligent, saves energy, avoids waste, is more convenient for users to use, and can automatically adjust the startup of the cooling components according to their own needs. way to reduce the limitations of use.

Example 2

At other levels, this embodiment also provides an editing process for a high temperature warning scheme, as shown in FIG. 2 , including:

S1: Analyze the current CPU usage of the system and the continuous operation time of the display screen;

S2: Predict the future temperature rise time and rise index;

S3: Analyze the temperature drop speed of the display screen after the shutdown;

S4: When the chassis temperature rises to the highest threshold and exceeds the rated holding time, submit a notification for shutdown and cooling;

S5: Provide recommendations for projects that can be stopped;

S6: According to the CPU release ratio in the chassis, predict the temperature drop time and drop speed;

S7: Submit the processing data to the display terminal.

As shown in FIG. 2 , the display screen in the step S1 continues the operation time, and the determination criterion is that the load operation time is calculated when the start time exceeds the first temperature threshold.

As shown in FIG. 2 , in the step S5 , the recommendation of items that can be stopped running is arranged in order according to the occupancy rate, from high to bottom, and the items that are preferably recommended to stop running are set and marked.

As shown in FIG. 2 , the processing data in the step S7 is sent and submitted through the transmission link of the wireless network, and the operation to be processed is reminded every five minutes.

In the specific implementation of this embodiment, the user can know the speed of the CPU temperature drop in time when using it, and can make predictions about the future temperature rise, so as to warn the user in advance, so as to avoid the normal operation of the computer due to the high temperature. Running, it is convenient for users to process the resources occupied by the computer CPU.

Example 3

In this embodiment, according to the monitoring chip integrated on the computer hardware, the corresponding temperature data can be detected in real time, any software can read the temperature data in the chip as long as it follows the corresponding specifications, and the data of the monitoring chip can be directly retrieved through the software to display in real time The temperature and monitoring chips can be installed under the CPU socket of the motherboard, in the hard disk body, and the data sources read are all I/O chips.

To sum up, when the computer starts up, the cooling component starts the corresponding power according to the temperature detected by the CPU. The user can manually set the startup power of the cooling component. When the CPU temperature reaches the set maximum threshold, it will be recorded and a high temperature warning will be provided. The plan, after the implementation, will remind the temperature drop countdown;

The invention can automatically adjust the cooling ability according to the heat generation of the CPU, ensure that the heat can be dissipated in time, is more intelligent, saves energy, avoids waste, is more convenient for users to use, and can automatically adjust the startup mode of the cooling components according to their own needs. , reduce the limitations of use;

It enables users to know the speed of CPU temperature drop in time when using it, make predictions about future temperature rises, and warn users in advance to avoid the normal operation of the computer due to excessive temperature, and to facilitate users to occupy the computer CPU. resources are processed.

The above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: The recorded technical solutions are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (11)

1. a control method of computer temperature, is characterized in that, comprises the following steps: Step1: Set up two cooling parts, which are located on the display screen and the chassis; Step2: Each group of cooling components is set with three levels of starting power; Step3: Set the temperature acquisition device on the chassis and the display case; Step4: Edit the three-level temperature threshold as the triggering item of the cooling component; Step5: Built-in temperature measurement software in the computer system to report temperature measurement information in real time; Step6: Manually set the cooling component power, and select the required starting power; Step7: By default, after the temperature exceeds the first temperature threshold, start the cooling component, and increase the startup power of the cooling component according to the increasing temperature threshold level; Step8: After the actual temperature reaches the temperature threshold of the third level, a record report is generated, and the record report is written to the storage medium; Step9: Submit the high temperature warning plan to the computer display terminal; Step10: Report the temperature drop countdown prompt information in real time. 2 . The method for controlling the temperature of a computer according to claim 1 , wherein the cooling component in Step 1 is a ball cooling fan, and the ball cooling fan is electrically connected to a computer case and a display screen. 3 . 3. the control method of a kind of computer temperature according to claim 1, is characterized in that, in described step Step2, the starting power of three grades of cooling parts, comprises: 4W, 6W and 8W; Start the sequence, increasing from low to high. 4. a kind of computer temperature control method according to claim 1, is characterized in that, the temperature acquisition device in described step Step3, comprises: A sensor that senses temperature and converts it into a usable output signal; A signal converter that converts the available output signal into a temperature magnitude; The measurement range is the temperature within 1.6 ~ 300K. 5. The control method of a computer temperature according to claim 1, wherein the temperature thresholds of three levels in the step Step4 are respectively: 30 degrees Celsius, 45 degrees Celsius and 60 degrees Celsius; Among them, the CPU temperature is maintained at 30 degrees Celsius, and when the temperature fluctuates within five degrees Celsius, the cooling component will not trigger the startup. When the fluctuation exceeds this range, the cooling component will start immediately until the temperature drops below 30 degrees Celsius. 6. the control method of a kind of computer temperature according to claim 1, is characterized in that, the attribute of the record report in described step 8, comprises: exceeding standard starting time, exceeding standard duration and cooling part start-up power; Among them, the duration of the temperature exceeding the standard is updated every five minutes in the record report. 7. A kind of computer temperature control method according to claim 1, is characterized in that, the editing process of high temperature warning scheme in described step Step9, comprises: S1: Analyze the current CPU usage of the system and the continuous operation time of the display screen; S2: Predict the future temperature rise time and rise index; S3: Analyze the temperature drop speed of the display screen after the shutdown; S4: When the chassis temperature rises to the highest threshold and exceeds the rated holding time, submit a notification for shutdown and cooling; S5: Provide recommendations for projects that can be stopped; S6: According to the CPU release ratio in the chassis, predict the temperature drop time and drop speed; S7: Submit the processing data to the display terminal. 8 . The computer temperature control method according to claim 7 , wherein the display screen in the step S1 continues to operate for a time, and the criterion is that the start time exceeding the first temperature threshold is used to calculate the load operation time. 9 . . 9. the control method of a kind of computer temperature according to claim 7, is characterized in that, in described step S2, to the prediction of future temperature rise time and rising index, reference basis is, historical temperature rise data analysis and network collection temperature rise data analyze. 10. A computer temperature control method according to claim 7, characterized in that, in the step S5, the recommendation of the operation items can be stopped, and the occupancy rate is arranged in order from high to low, and the preferred settings are set. It is recommended to stop running the project and mark it. 11. A kind of computer temperature control method according to claim 7, is characterized in that, the processing data in described step S7, transmits and submits through the transmission link of wireless network, and reminds the operation to be processed every five minutes .

Images