CN115750427A - Temperature control method and related device based on cooling fan - Google Patents

Abstract

The application discloses a temperature control method based on a cooling fan and a related device, comprising the following steps: the method comprises the steps that a preset cooling requirement is obtained, and meanwhile temperature information is obtained by combining a preset sensing device so as to determine a heat dissipation area; generating a cooling strategy for the heat dissipation area and implementing the cooling strategy for the heat dissipation area; judging whether the cooling is effective or not by the waiting time in the cooling strategy; if the temperature is effectively reduced, the temperature reduction strategy is stored as a rapid temperature reduction strategy; if the cooling is invalid, generating a second cooling strategy according to the current temperature information and cooling the heat dissipation area according to the second cooling strategy; the cooling effectiveness is judged after the cooling is implemented so as to ensure effective cooling, and the effective control of the cooling is further realized.

Description

Temperature control method and related device based on cooling fan

technical field

The present application relates to the field of temperature control, in particular to a cooling fan-based temperature control method and related devices.

Background technique

In the process of glass processing, the glass can be sent to the heating furnace to heat up to a certain temperature, and then the glass is sent out of the furnace and cooled quickly and uniformly by the cooling fan system to increase the stress value of the glass.

In the process of quickly and evenly cooling the glass, the fan is often manually controlled to dissipate heat and cool down. When the purpose is reached, the fan is turned off by the relevant staff.

Therefore, how to automatically adjust the fan to cool down during the heat dissipation process of the glass has become a technical problem to be solved urgently.

Contents of the invention

In order to realize automatic adjustment of the fan for cooling during the heat dissipation process of the glass, the present application provides a temperature control method based on a heat dissipation fan and a related device.

In the first aspect, a cooling fan-based temperature control method provided by the present application adopts the following technical solution:

Obtain preset cooling requirements;

Obtaining temperature information through a preset sensing device and determining a heat dissipation area according to the temperature information;

generating a cooling strategy according to the preset cooling requirement and the cooling area;

Sending an instruction corresponding to the cooling strategy to the preset heat dissipation device to enable the heat dissipation device to cool down the heat dissipation area;

Acquiring the waiting time corresponding to the cooling strategy, and judging the effectiveness of cooling according to the waiting time;

When it is determined that the cooling is effective, the cooling strategy is stored in a preset address as a quick cooling strategy;

When it is determined that the temperature reduction is invalid, a second temperature reduction strategy is generated according to the current temperature information, and the temperature of the heat dissipation area is reduced according to the second temperature reduction strategy.

Optionally, the step of obtaining temperature information through a preset sensing device and determining a heat dissipation area according to the temperature information includes:

Acquiring temperature information through a preset sensing device, and determining abnormal temperature information in combination with the temperature information according to the preset cooling requirement;

Determining a corresponding target sensing device and position information of the target sensing device according to the abnormal temperature information to determine a heat dissipation area.

Optionally, the step of generating a cooling strategy according to the preset cooling requirement and the heat dissipation area includes:

determining the cooling requirement according to the preset cooling requirement in combination with the temperature information;

determining a cooling effect in the heat dissipation area according to the cooling requirement;

Match the cooling strategy in the cooling strategy set according to the cooling effect.

Optionally, the step of determining the cooling effect according to the cooling demand in the heat dissipation area includes:

Obtain all cooling equipment information in the heat dissipation area;

Determining the target cooling device in the information of all the cooling devices;

The cooling effect is determined according to the cooling demand combined with the target cooling equipment.

Optionally, the step of obtaining the waiting time corresponding to the cooling strategy, and judging the effectiveness of cooling according to the waiting time includes:

Obtain the waiting time corresponding to the cooling strategy;

Obtaining the current temperature information as the second temperature information through the preset sensing device after the time corresponding to the waiting time has elapsed;

The effectiveness of cooling is determined according to the second temperature information combined with the preset cooling requirement.

Optionally, after the step of storing the cooling strategy in a preset address as a quick cooling strategy when it is determined that the cooling is effective, the method further includes:

Obtaining a first cooling requirement in the requested temperature reduction instruction when the temperature reduction instruction is detected;

generating a first cooling strategy according to the first cooling requirement combined with current environmental information;

matching in the preset address according to the first cooling strategy;

If the matching is successful, the matching result is used as the current quick cooling strategy and cooling is performed according to the current quick cooling strategy.

Optionally, the step of generating a second cooling strategy according to the current temperature information and cooling the cooling area according to the second cooling strategy includes:

Determine the temperature to be adjusted according to the current temperature information;

determining a second cooling strategy according to the situation to be adjusted in combination with the heat dissipation area;

The heat dissipation area is cooled according to the second cooling strategy.

In a second aspect, the present application provides a cooling fan-based temperature control device, the cooling fan-based temperature control device comprising:

A demand acquisition module, configured to acquire a preset cooling demand;

An area determination module, configured to obtain temperature information through a preset sensing device and determine a heat dissipation area according to the temperature information;

A strategy generation module, configured to generate a cooling strategy according to the preset cooling requirement and the heat dissipation area;

A cooling module, configured to send an instruction corresponding to the cooling strategy to the preset cooling device so that the cooling device cools down the cooling area;

An effectiveness judging module, configured to acquire the waiting time corresponding to the cooling strategy, and judge the effectiveness of cooling according to the waiting time;

An effective module is used to store the cooling strategy as a quick cooling strategy into a preset address when it is determined that the cooling is effective;

The invalid module is configured to generate a second cooling strategy according to the current temperature information and lower the temperature of the heat dissipation area according to the second cooling strategy when it is determined that the cooling is invalid.

In a third aspect, the present application provides a computer device, the device comprising: a memory and a processor, and the processor executes the method described in any one of the above when executing the computer instructions stored in the memory.

In a fourth aspect, the present application provides a computer-readable storage medium, including instructions, which, when run on a computer, cause the computer to execute the method as described above.

In summary, the application includes the following beneficial technical effects:

In this application, the heat dissipation area is determined by obtaining the preset cooling demand combined with the temperature information obtained by the preset sensing device; generating a cooling strategy for the heat dissipation area and implementing the cooling strategy for the heat dissipation area; Effective; if the cooling is effective, the cooling strategy will be stored as a quick cooling strategy; if the cooling is invalid, a second cooling strategy will be generated according to the current temperature information and the heat dissipation area will be cooled according to the second cooling strategy; the effectiveness of the cooling will be determined after the cooling is implemented In order to ensure effective cooling, the effective control of cooling is further realized.

Description of drawings

Fig. 1 is a schematic diagram of the computer equipment structure of the hardware operating environment involved in the solution of the embodiment of the present invention;

2 is a schematic flow chart of the first embodiment of the temperature control method based on the cooling fan of the present invention;

3 is a schematic flowchart of a second embodiment of the temperature control method based on a cooling fan in the present invention;

Fig. 4 is a structural block diagram of the first embodiment of the temperature control device based on the cooling fan of the present invention.

Detailed ways

In order to make the purpose, technical solution and advantages of the present application clearer, the present application will be further described in detail below with reference to the drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present application, not to limit the present application.

Referring to FIG. 1 , FIG. 1 is a schematic structural diagram of a computer device in a hardware operating environment involved in an embodiment of the present invention.

As shown in FIG. 1 , the computer device may include: a processor 1001 , such as a central processing unit (Central Processing Unit, CPU), a communication bus 1002 , a user interface 1003 , a network interface 1004 , and a memory 1005 . Wherein, the communication bus 1002 is used to realize connection and communication between these components. The user interface 1003 may include a display screen (Display), an input unit such as a keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface and a wireless interface. The network interface 1004 may optionally include a standard wired interface and a wireless interface (such as a Wireless-Fidelity (Wi-Fi) interface). The memory 1005 may be a high-speed random access memory (Random Access Memory, RAM), or a stable non-volatile memory (Non-Volatile Memory, NVM), such as a disk memory. Optionally, the memory 1005 may also be a storage device independent of the aforementioned processor 1001 .

Those skilled in the art can understand that the structure shown in FIG. 1 does not constitute a limitation on the computer equipment, and may include more or less components than shown in the figure, or combine some components, or arrange different components.

As shown in FIG. 1 , the memory 1005 as a storage medium may include an operating system, a network communication module, a user interface module, and a cooling fan-based temperature control program.

In the computer equipment shown in Figure 1, the network interface 1004 is mainly used for data communication with the network server; the user interface 1003 is mainly used for data interaction with the user; In the device, the computer device invokes the cooling fan-based temperature control program stored in the memory 1005 through the processor 1001, and executes the cooling fan-based temperature control method provided by the embodiment of the present invention.

An embodiment of the present invention provides a cooling fan-based temperature control method. Referring to FIG. 2 , FIG. 2 is a schematic flowchart of a first embodiment of the cooling fan-based temperature control method of the present invention.

In this embodiment, the temperature control method based on cooling fans includes the following steps:

Step S10: Obtain a preset cooling requirement.

It should be noted that in some large glass processing factories, large furnaces are used to heat and process multiple pieces of glass at the same time. There are multiple heating equipment evenly installed in the large furnace, and the heating temperature of multiple heating equipment can be controlled through the furnace control system. In the related technology, multiple pieces of glass to be processed can be sent to the middle position in the large furnace at the same time through the loading table, and then all the heating equipment in the furnace are controlled to be turned on at the same time, so that the average temperature in the furnace is within the preset temperature range , after the preset time, the heating equipment is turned off, and the heating process of the glass to be processed is completed. Therefore, the main implementation process of this embodiment is the process of dissipating heat after the glass is heated.

It can be understood that obtaining the preset cooling requirements is for different types of glass processing heat dissipation requirements, so the specific cooling temperature and the cooling time limit in the cooling requirements are both set according to different glasses.

In a specific implementation, before the implementation of temperature reduction in this embodiment, the specifications of all different types of glass manufacturing will be obtained, and different cooling requirements will be preset according to the specifications to generate a list of cooling requirements. Therefore, when it is detected that there is glass that needs to be cooled, it will be matched in the cooling demand list according to the glass type to obtain the cooling demand.

It should be noted that before step S10, before the same batch of glass to be processed is moved to the furnace, the picture information of the glass to be processed is collected one by one, and the size information of the glass to be processed is obtained by analyzing the picture information. The information moves the glass to be processed from the loading table to a suitable heating area in the furnace. When all the glass to be processed in the batch has been moved to the heating area, adjust the heating temperature of the corresponding heating area in combination with the average size and the number of glasses. The heating area When the average size of the glass to be processed is small and/or the number of glasses is small, the required temperature of the glass to be processed in the heating zone is also lower, which can save the overall energy consumption of the furnace when processing glass.

It should be noted that cooling fans, English name: Cooling fans. The technology and performance of cooling fans have fully reached a mature stage, and new technologies are constantly emerging. Fan sizes range from 8mm to 280mm, voltages include 5V, 12V, 24V, 48V, 110V, 220V, 380V, and shapes include square, round, olive, etc. The working principle of the cooling fan is realized by energy conversion, namely: electrical energy→electromagnetic energy→mechanical energy→kinetic energy. The circuit principle is generally divided into various forms, and the performance of the fan will be different if the circuit used is different. The radiating fan in the present embodiment mainly includes the following characteristics to be used for cooling down. Forget it, it’s CMM. The air volume unit often used by cooling fans is CFM (about 0.028 cubic meters per minute). The air volume is the most important index to measure the cooling capacity of the cooling fan. Obviously, a cooling fan with a larger air volume has a higher cooling capacity. This is because the heat capacity ratio of the air is constant, and a larger air volume, that is, more air per unit time can take away more heat. Of course, under the same air volume, the heat dissipation effect is related to the flow mode of the wind; wind pressure, wind pressure and air volume are two relative concepts. Generally speaking, in order to save costs, manufacturers need to sacrifice some wind pressure if they want to design a fan with a large air volume. If the fan can drive a large amount of air flow, but the wind pressure is small, the wind will not blow to the bottom of the radiator (this is why some fans have a high speed and a large air volume, but the cooling effect is not good), on the contrary, Large wind pressure often means that the air volume is small, and there is not enough cold air to exchange heat with the heat sink, which will also cause poor heat dissipation. Fan speed, fan speed refers to the number of times the fan blades rotate per minute, and the unit is rpm. The fan speed is determined by the number of turns of the inner coil of the motor, the operating voltage, the number of fan blades, the inclination angle, the height, the diameter and the bearing system. There is no necessary relationship between speed and fan quality. The rotational speed of the fan can be measured through the internal rotational speed signal, and can also be measured externally.

Step S20: Acquiring temperature information through a preset sensing device and determining a heat dissipation area according to the temperature information.

It can be understood that the preset sensing device is a temperature sensor for obtaining temperature information, and the temperature sensor is placed in the heat dissipation processing interval to detect temperature information near the temperature sensor. As the space in the processing area becomes larger, the number of corresponding temperature sensors will also increase, and the temperature detection corresponding to a smaller area will be more accurate. The temperature information of the corresponding position can be determined by binding the position of the preset sensor and reading the temperature parameter from the preset sensor.

Further, in order to accurately obtain the heat dissipation area, the step of obtaining temperature information through a preset sensing device and determining the heat dissipation area according to the temperature information includes: obtaining temperature information through a preset sensing device, and reducing the temperature according to the preset It is required to determine abnormal temperature information in combination with the temperature information; determine the corresponding target sensing device and the position information of the target sensing device according to the abnormal temperature information to determine the heat dissipation area.

It can be understood that there is a standard for defining whether the temperature is normal in the preset cooling requirement, and when the temperature exceeds the standard, it will be regarded as an abnormal temperature.

In a specific implementation, after the abnormal temperature is detected, the corresponding detected sensing device is matched, and the position information corresponding to the abnormal temperature is determined by acquiring the position information detected by the sensing device.

Step S30: Generate a cooling strategy according to the preset cooling requirement and heat dissipation area.

It should be noted that, in this embodiment, the preset cooling requirement and the cooling strategy generated by the heat dissipation area refer to specific instructions for operating related equipment that need to be implemented for the purpose of cooling. For example: in the cooling space, there are 4 cooling fans in the four corners of the corresponding bottom floor. When the temperature of the entire cooling space is detected to be abnormal, the cooling strategy sent is to adjust the power of the 4 cooling fans to the maximum for cooling. .

Step S40: Sending an instruction corresponding to the cooling strategy to the preset cooling device so that the cooling device cools down the cooling area.

The heat dissipation device in this embodiment includes: a wet curtain + a fan, which are respectively installed on the two gable walls of the airtight house. When the fan draws air, it causes indoor negative pressure, forcing the unsaturated outdoor air to flow through the porous wet surface of the wet curtain, causing the water to evaporate and absorb a large amount of latent heat, thereby reducing the temperature of the air itself. When the wet curtain fan cooling system is in operation, the low-temperature air after evaporation and cooling will be continuously introduced into the room for cooling. Also includes: water-cooled air conditioners, etc.

In a specific implementation, a cooling strategy is sent to the preset heat dissipation device, so as to enable the heat dissipation device to be activated and use the heat dissipation device to cool down.

Step S50: Obtain the waiting time corresponding to the cooling strategy, and judge the effectiveness of cooling according to the waiting time.

Further, in order to improve the accuracy of judging the effectiveness, the step of obtaining the waiting time corresponding to the cooling strategy and judging the effectiveness of cooling according to the waiting time includes: obtaining the waiting time corresponding to the cooling strategy; After the time corresponding to the waiting time has elapsed, the current temperature information is obtained as the second temperature information through the preset sensing device; and the effectiveness of cooling is judged according to the second temperature information combined with the preset cooling requirement.

The effectiveness of heat dissipation refers to whether the temperature of the heat dissipation area reaches the effective temperature corresponding to the cooling strategy within the waiting time. If the effective temperature has been reached within the waiting time, it is determined that the cooling is effective; if the effective temperature is not reached within the waiting time, it is determined Cooling is invalid.

Step S60: When it is determined that cooling is effective, store the cooling strategy as a quick cooling strategy in a preset address.

Further, in order to increase the speed of subsequent cooling, after the step of storing the cooling strategy as a quick cooling strategy in the preset address when it is determined that the cooling is effective, it also includes: when a request for cooling is detected, obtaining the Request the first cooling requirement in the cooling instruction; generate a first cooling strategy based on the first cooling requirement combined with current environmental information; perform matching in the preset address according to the first cooling strategy; if the matching is successful, set The matching result is used as the current rapid cooling strategy and cooling is performed according to the current rapid cooling strategy.

In the specific implementation, when it is determined that the cooling is effective, the cooling strategy is stored in the historical cooling record as a quick cooling strategy, and when the cooling command is received next time, the cooling command is analyzed to obtain the cooling demand; the cooling demand is used in the historical cooling record If it can traverse successfully, it will directly cool down according to the quick cooling strategy.

Step S70: When it is determined that cooling is invalid, generate a second cooling strategy according to the current temperature information, and cool down the heat dissipation area according to the second cooling strategy.

Further, in order to effectively implement cooling, the step of generating a second cooling strategy according to the current temperature information and cooling the heat dissipation area according to the second cooling strategy includes: determining the temperature to be adjusted according to the current temperature information ; determining a second cooling strategy based on the situation to be adjusted in combination with the heat dissipation area; cooling the heat dissipation area according to the second cooling strategy.

It should be noted that when it is determined that the cooling is invalid, it is necessary to re-adjust the cooling. Possible ways include increasing the cooling power of the cooling device to achieve enhanced cooling effect, increasing the number of running cooling devices to improve the overall cooling efficiency, etc.

In this embodiment, the heat dissipation area is determined by obtaining the preset cooling demand combined with the temperature information obtained by the preset sensing device; the cooling strategy is generated for the heat dissipation area and the cooling strategy is implemented for the cooling area; the cooling is determined by the waiting time in the cooling strategy Whether it is valid; if the cooling is effective, the cooling strategy will be stored as a quick cooling strategy; if the cooling is invalid, a second cooling strategy will be generated according to the current temperature information and the heat dissipation area will be cooled according to the second cooling strategy; after the cooling is implemented, it is determined that the cooling is effective To ensure effective cooling, and further realize the effective control of cooling.

Referring to FIG. 3 , it is a schematic flow chart of the second embodiment of the cooling fan-based temperature control method of the present invention.

Based on the first embodiment above, this embodiment is based on the step S30 of the cooling fan temperature control method, which further includes:

Step S301: Determine the cooling requirement according to the preset cooling requirement combined with temperature information.

In a specific implementation, the temperature drop is determined according to the preset cooling requirement combined with temperature information, and the cooling requirement is determined according to the temperature drop and other temperature drops in the specific heat dissipation space.

Step S302: Determine the cooling effect according to the cooling demand in the cooling area.

Further, in order to obtain the cooling effect accurately, the step of determining the cooling effect according to the cooling demand in the heat dissipation area includes: acquiring information of all cooling equipment in the heat dissipation area; Determine the target cooling equipment; determine the cooling effect according to the cooling demand and the target cooling equipment.

Step S303: Match the cooling strategy in the cooling strategy set according to the cooling effect.

It should be noted that the output effect of the heat dissipation device can be determined according to the device information of the heat dissipation device, and the cooling strategy can be generated by combining the output effect with the spatial information of the heat dissipation space.

It can be understood that, in this embodiment, the heat dissipation fan is taken as an example. On the premise that the heat dissipation direction of the heat dissipation fan cannot be adjusted, different cooling effects can be achieved by changing the fan blade speed of the heat dissipation fan. The greater the power output, the corresponding The better the cooling effect. Combined with specific heat dissipation strategies, the cooling and heat dissipation strategies can be precisely adjusted to reduce resource consumption.

In this embodiment, the cooling demand is determined according to the preset cooling demand combined with the temperature information; the cooling effect is determined according to the cooling demand in the heat dissipation area; the cooling strategy is matched in the cooling strategy set according to the cooling effect; After the cooling demand is determined, the cooling effect is generated and matched to the corresponding cooling strategy, and the cooling strategy is accurately generated.

In addition, an embodiment of the present invention also proposes a computer-readable storage medium, on which a program for temperature control based on a cooling fan is stored, and when the program for temperature control based on a cooling fan is executed by a processor, the above-mentioned The steps of the method for temperature control based on cooling fans.

Referring to FIG. 4 , FIG. 4 is a structural block diagram of a first embodiment of a temperature control device based on a cooling fan in the present invention.

As shown in Figure 4, the temperature control device based on the cooling fan proposed by the embodiment of the present invention includes:

A demand acquisition module 10, configured to acquire a preset cooling demand;

An area determination module 20, configured to obtain temperature information through a preset sensing device and determine a heat dissipation area according to the temperature information;

A strategy generating module 30, configured to generate a cooling strategy according to the preset cooling requirement and the heat dissipation area;

The cooling module 40 is configured to send an instruction corresponding to the cooling strategy to the preset heat dissipation device so that the heat dissipation device can cool down the heat dissipation area;

Effectiveness judging module 50, configured to obtain the waiting time corresponding to the cooling strategy, and judge the effectiveness of cooling according to the waiting time;

The effective module 60 is used to store the cooling strategy as a quick cooling strategy into a preset address when it is determined that the cooling is effective;

The invalid module 70 is configured to generate a second cooling strategy according to the current temperature information and lower the temperature of the heat dissipation area according to the second cooling strategy when it is determined that the cooling is invalid.

It should be understood that the above is only an example, and does not constitute any limitation to the technical solution of the present invention. In specific applications, those skilled in the art can make settings according to needs, and the present invention is not limited thereto.

In this embodiment, the heat dissipation area is determined by obtaining the preset cooling demand combined with the temperature information obtained by the preset sensing device; the cooling strategy is generated for the heat dissipation area and the cooling strategy is implemented for the cooling area; the cooling is determined by the waiting time in the cooling strategy Whether it is valid; if the cooling is effective, the cooling strategy will be stored as a quick cooling strategy; if the cooling is invalid, a second cooling strategy will be generated according to the current temperature information and the heat dissipation area will be cooled according to the second cooling strategy; after the cooling is implemented, it is determined that the cooling is effective To ensure effective cooling, and further realize the effective control of cooling.

In one embodiment, the area determination module 20 is further configured to match the corresponding range of influence in the geographic information system according to the disaster level in the disaster information; determine the actual disaster area according to the disaster range in the disaster information area: determine the disaster-affected area according to the affected area and the actual disaster-affected area.

In an embodiment, the policy generating module 30 is further configured to obtain current passable road information from the current road condition information; judge whether the passable road information satisfies the filtering condition; if so, obtain the first preset condition to select a first type of passable passage from the passable road information, and obtain a second preset condition to select a second type of passable passage from the passable road information.

In one embodiment, the policy generation module 30 is further configured to determine the area corresponding to the disaster-affected area in the geographic information system; obtain the historical disaster log corresponding to the area; judge according to the historical disaster log Whether it is necessary to expand the disaster-affected area; if not, obtain the default safety distance and combine the disaster-affected area to determine the target safe area.

In an embodiment, the validity judging module 50 is further configured to obtain specific disaster data from the historical disaster log if it is determined that the disaster-affected area needs to be expanded according to the historical disaster log; The influence weight of the disaster data; matching in the preset strategy set according to the influence weight to obtain the corresponding expansion strategy; determining the target safe area according to the expansion strategy and the disaster-affected area.

In an embodiment, the effective module 60 is further configured to acquire the location information of the current target terminal, determine the current location board of the target terminal according to the location information of the target terminal; determine the current location board according to the current location board. The transfer direction corresponding to the target terminal; judging the transfer type corresponding to the target terminal according to the identification code corresponding to the target terminal in the geographic information system.

In an embodiment, the invalidation module 70 is further configured to match the first type of feasible channel according to the location information of the target terminal, the transfer direction and the target security area if the target terminal belongs to the first transfer type ; Generate a first type of evacuation route according to the matching result; determine a route receiving terminal according to the identification code corresponding to the target terminal; send the first type of evacuation route to the route receiving terminal.

It should be noted that the workflow described above is only illustrative and does not limit the protection scope of the present invention. In practical applications, those skilled in the art can select part or all of them to implement according to actual needs. The purpose of the scheme of this embodiment is not limited here.

In addition, for technical details not described in detail in this embodiment, reference may be made to the method for temperature control based on a cooling fan provided in any embodiment of the present invention, which will not be repeated here.

Furthermore, it should be noted that in this document, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article or system comprising a set of elements includes not only those elements, but also other elements not expressly listed, or elements inherent in such a process, method, article, or system. Without further limitations, an element defined by the phrase "comprising a..." does not preclude the presence of additional identical elements in the process, method, article or system comprising that element.

The serial numbers of the above embodiments of the present invention are for description only, and do not represent the advantages and disadvantages of the embodiments.

Through the description of the above embodiments, those skilled in the art can clearly understand that the methods of the above embodiments can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware, but in many cases the former is better implementation. Based on this understanding, the essence of the technical solution of the present invention or the part that contributes to the prior art can be embodied in the form of a software product, and the computer software product is stored in a storage medium (such as a read-only memory (Read Only Memory) , ROM)/RAM, magnetic disk, optical disk), including several instructions to make a terminal device (which can be a mobile phone, computer, server, or network device, etc.) execute the methods described in various embodiments of the present invention.

The above are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Any equivalent structure or equivalent process conversion made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other related technical fields , are all included in the scope of patent protection of the present invention in the same way.

Claims (10)

1. A temperature control method based on a cooling fan is characterized by comprising the following steps:

acquiring a preset cooling demand;

acquiring temperature information through a preset sensing device and determining a heat dissipation area according to the temperature information;

generating a cooling strategy according to the preset cooling requirement and the heat dissipation area;

sending an instruction corresponding to the cooling strategy to a preset cooling device to enable the cooling device to cool the cooling area;

obtaining a waiting time corresponding to the cooling strategy, and judging the effectiveness of cooling according to the waiting time;

when the cooling is judged to be effective, storing the cooling strategy as a rapid cooling strategy into a preset address;

and when the cooling is judged to be invalid, generating a second cooling strategy according to the current temperature information and cooling the heat dissipation area according to the second cooling strategy.

2. The method as claimed in claim 1, wherein the step of acquiring temperature information through a predetermined sensing device and determining a heat dissipation area according to the temperature information comprises:

acquiring temperature information through a preset sensing device, and determining abnormal temperature information according to the preset cooling requirement and the temperature information;

and determining a corresponding target sensing device and position information of the target sensing device according to the abnormal temperature information so as to determine a heat dissipation area.

3. The method according to claim 1, wherein the step of generating a cooling strategy according to the preset cooling requirement and the heat dissipation area comprises:

determining a cooling demand according to the preset cooling demand and the temperature information;

determining a cooling effect in the heat dissipation area according to the cooling requirement;

and intensively matching the cooling strategy in the cooling strategy according to the cooling effect.

4. The method as claimed in claim 3, wherein the step of determining the cooling effect in the heat dissipation area according to the cooling requirement comprises:

acquiring all cooling equipment information in the heat dissipation area;

determining target cooling equipment in all the cooling equipment information;

and determining a cooling effect according to the cooling requirement and the target cooling equipment.

5. The cooling fan-based temperature control method according to claim 1, wherein the step of obtaining a waiting time corresponding to the cooling strategy and determining the effectiveness of cooling according to the waiting time comprises:

obtaining the waiting time corresponding to the cooling strategy;

acquiring current temperature information as second temperature information through a preset sensing device after the duration corresponding to the waiting duration;

and judging the effectiveness of cooling according to the second temperature information and the preset cooling requirement.

6. The method as claimed in claim 1, wherein after the step of storing the cooling policy as a fast cooling policy in a preset address when it is determined that the cooling is effective, the method further comprises:

when a request cooling instruction is detected, acquiring a first cooling demand in the request cooling instruction;

generating a first cooling strategy according to the first cooling requirement and the current environment information;

matching is carried out in the preset address according to the first cooling strategy;

and if the matching is successful, taking the matching result as the current rapid cooling strategy and cooling according to the current rapid cooling strategy.

7. The cooling fan-based temperature control method according to claim 1, wherein the step of generating a second cooling strategy according to the current temperature information and cooling the cooling area according to the second cooling strategy comprises:

determining the temperature to be adjusted according to the current temperature information;

determining a second cooling strategy according to the condition to be adjusted and the heat dissipation area;

and cooling the heat dissipation area according to the second cooling strategy.

8. A cooling fan based temperature control apparatus, comprising:

the demand acquisition module is used for acquiring a preset cooling demand;

the area determining module is used for acquiring temperature information through a preset sensing device and determining a heat dissipation area according to the temperature information;

the strategy generating module is used for generating a cooling strategy according to the preset cooling requirement and the heat dissipation area;

the cooling module is used for sending an instruction corresponding to the cooling strategy to a preset cooling device so that the cooling device cools the cooling area;

the effectiveness judgment module is used for acquiring the waiting time length corresponding to the cooling strategy and judging the effectiveness of cooling according to the waiting time length;

the effective module is used for storing the cooling strategy as a rapid cooling strategy into a preset address when the cooling is judged to be effective;

and the invalid module is used for generating a second cooling strategy according to the current temperature information and cooling the heat dissipation area according to the second cooling strategy when the cooling is judged to be invalid.

9. A computer device, characterized in that the device comprises: a memory, a processor that, when executing computer instructions stored by the memory, performs the method of any of claims 1 to 7.

10. A computer-readable storage medium comprising instructions that, when executed on a computer, cause the computer to perform the method of any one of claims 1 to 7.

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