WO2020192062A1 - Air conditioner, control method for air conditioner and computer-readable storage medium - Google Patents

Abstract

Provided are an air conditioner (1), a control method for the air conditioner (1) and a computer-readable storage medium. The air conditioner (1) comprises a vortex ring generation device (14), a fan (16), a memory (100) and a processor (200), wherein the fan (16) works to supply air to the vortex ring generation device (14), the memory (100) is configured to store a computer program, the processor (200) is configured to execute a computer program to implement: acquiring the current operating mode of the air conditioner (1); and controlling the working state of the vortex ring generation device (14) according to the current operating mode. The method can implement conventional wind or vortex ring airflow wind, change the problem in the existing art of only laminar or turbulent wind, and realize personalized wind, thereby meeting the requirements of different users and improving the user experience.

Description

Air conditioner, air conditioner control method and computer readable storage medium

This application claims the priority of the Chinese patent application filed with the Chinese Patent Office on March 26, 2019, with the application number "201910234339.0" and the invention title "air conditioner, air conditioner control method and computer readable storage medium". The entire content is incorporated into this application by reference.

Technical field

This application relates to the technical field of household appliances, and in particular, to an air conditioner, a control method of the air conditioner, and a computer-readable storage medium.

Background technique

The existing air conditioner blows the air after heat exchange through the conventional air outlet of the air conditioner. The air outlet method is conventional air outlet. The air outlet is mostly laminar flow and turbulent flow, and the radiation range is short and narrow, which cannot achieve large-scale delivery. Wind, reduce the user experience.

Summary of the invention

This application aims to solve at least one of the technical problems existing in the prior art or related technologies.

An aspect of the application provides an air conditioner.

Another aspect of the present application provides a control method of an air conditioner.

Another aspect of the present application provides a computer-readable storage medium.

In view of this, according to one aspect of the present application, there is provided an air conditioner, including: a vortex ring generating device; a fan, which works to supply air to the vortex ring generating device; a memory configured to store a computer program; and processing The air conditioner is configured to execute a computer program to achieve: obtain the current operating mode of the air conditioner; according to the current operating mode, control the working state of the vortex generating device.

The air conditioner provided by the present application includes a vortex generating device, a fan, a memory storing a computer program, and a processor executing the stored computer program. The processor executes the computer program to realize the following control strategy. By obtaining the current operating mode of the air conditioner, and controlling the working state of the vortex ring generator according to the current operating mode, the conventional air outlet form of the air conditioner in the prior art can only be changed to the problem of laminar or turbulent flow. The working state of the ring generator can achieve conventional or vortex airflow, and then achieve personalized airflow, which can meet the needs of different users for different airflow methods, improve user experience, and improve product market Competitiveness.

Further, in the prior art, the air conditioner in the prior art discharges air in a conventional laminar or turbulent manner, and its air supply range is small and the air supply distance is short, and the wind generated by the fan passes through the vortex ring generator and is discharged as a vortex ring airflow, effectively The air supply range and air supply distance of the air conditioner are expanded, and the vortex ring air flow is discharged through the vortex ring generator, which can realize the directional propagation of the air supply. Compared with the conventional air outlet of the existing air conditioner, the vortex ring generator transmits the same wind The wind speed required for the distance of the distance is reduced, therefore, the energy consumption is greatly reduced and the personalized air supply is realized, the user's use cost is reduced and the user's use experience is improved. At the same time, the wind of the existing air conditioner is exhausted in a laminar or turbulent manner, so that the user has a concentrated airflow and a strong sense of wind, and the wind is discharged in the form of vortex airflow through the vortex ring generator to make the user experience no wind. The blower can meet the needs of the elderly, children, and patients for air outlets from the air conditioner, further expand the scope of use of the product, and improve the market competitiveness of the product. Further, the prior art improves the user’s comfort in using the air conditioner by increasing the disturbance or reducing the wind speed, but by increasing the disturbance, the energy consumption is not reduced; reducing the wind speed or keeping the wind speed unchanged cannot guarantee the wind blown out of the air conditioner. Blowing to farther places, and the wind from the fan is discharged through the vortex ring generator and then forms a vortex ring airflow, which can make users experience windless blowing, which effectively guarantees the user’s good comfort and expands the air conditioner’s delivery. Wind range and air supply distance, and reduce energy consumption, thereby improving the market competitiveness of products.

In addition, the above-mentioned air conditioner provided in this application may also have the following additional technical features:

In a possible design, the processor executes the computer program to realize the step of controlling the working state of the vortex generating device according to the current operating mode, including: judging whether the current operating mode is cooling mode, heating mode or air supply One of the modes; if yes, control the vortex ring generator to work; otherwise, control the vortex ring generator to stop working.

In this design, by judging whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if it is, it means that the current operating mode of the air conditioner includes air supply action, and the vortex generating device is controlled to work, so that the air conditioner The vortex ring airflow is used to output the air, which expands the air supply range and air supply distance of the air conditioner, and can realize the directional transmission of the air supply. Compared with the conventional air output of the existing air conditioner, the vortex ring generator transmits the wind The wind speed required for the same distance is reduced, therefore, energy consumption is greatly reduced and personalized air supply is realized, reducing the user's use cost and improving the user's use experience. At the same time, the wind of the existing air conditioner is exhausted in a laminar or turbulent manner so that the user has a concentrated air flow and a strong sense of wind, and the wind is discharged through the vortex ring generating device in the form of vortex airflow, which enables users to experience windless blowing. , Improve user satisfaction. Based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex ring generator is controlled to stop working, which avoids the air conditioner does not include air supply action and the vortex ring The problem of waste of energy during device work has effectively reduced the user's use cost and improved the market competitiveness of the product.

In a possible design, the processor is also configured to execute a computer program to control the work of the scroll generating device, which specifically includes: obtaining the current operating speed of the fan based on the current operating mode being the cooling mode or the heating mode; Operating speed, adjust the operating speed of the fan, and control the operation of the vortex ring generator.

In this design, based on the current operating mode being the cooling mode or heating mode, the current operating speed of the fan is obtained, and the operating speed of the fan is adjusted according to the current operating speed, and the operation of the vortex generating device is controlled to avoid the large temperature difference. The wind blows directly to the user to reduce the user's blowing experience, and at the same time, it can make the indoor temperature quickly reach a comfortable level, improve the user's satisfaction, and make the user experience windless blowing, which improves the user's blowing experience. It is understandable that controlling the work of the vortex ring generating device may include adjusting the driving frequency of the vortex ring generating device, adjusting the transmission distance and transmission range of the vortex ring airflow of the vortex ring generating device, or other parameters that meet the requirements.

In a possible design, the processor executes the computer program to realize the steps of adjusting the operating speed of the fan according to the current operating speed, and controlling the operation of the vortex generating device, which specifically includes: based on the current operating speed being less than the first preset speed, The fan is controlled to increase the operating speed, and the vortex ring generator is controlled to work at the first driving frequency.

In this design, based on the fact that the current operating speed is less than the first preset speed, it indicates that the current indoor temperature is slightly different from the preset temperature, which is close to the comfort of the human body. By increasing the operating speed of the fan, the vortex generator is controlled to be driven by the first Frequency operation is conducive to the rapid formation of the vortex ring airflow and the transmission in a larger range and the transmission distance is longer, which can make the vortex ring airflow formed by the vortex ring generator be received in a larger area in the room, thereby expanding the experience of no wind The range of wind can make the indoor temperature quickly reach the comfort level and enhance the user experience.

In a possible design, the processor executes a computer program to adjust the operating speed of the fan according to the current operating speed, and control the operation of the vortex ring generator, which specifically includes: based on the current operating speed being greater than the second preset speed, The fan is controlled to reduce the operating speed, and the vortex ring generator is controlled to work at a second drive frequency; wherein the first preset speed is less than the second preset speed; the first drive frequency is greater than the second drive frequency.

In this design, based on the fact that the current operating speed is greater than the second preset speed, and the first preset speed is less than the second preset speed, it indicates that the current indoor temperature is significantly different from the preset temperature. The fan is controlled to reduce the operating speed and control the vortex ring. The generating device works at the second drive frequency. The first drive frequency is greater than the second drive frequency, which slows down the formation speed of the vortex ring airflow, and transmits in a smaller range and the transmission distance is shorter, which can avoid the vortex ring generating device. The large driving frequency causes a large amount of vortex airflow with a large temperature difference to be transmitted indoors, which reduces the comfort of the user, effectively guarantees the comfort of the user's blowing, and improves the user's blowing experience.

In a possible design, the processor executes the computer program to realize the steps of adjusting the operating speed of the fan according to the current operating speed, and controlling the operation of the vortex ring generator, which specifically includes: based on the current operating speed being greater than or equal to the first preset The speed is less than or equal to the second preset speed, the fan is controlled to run at the current operating speed, and the vortex ring generator is controlled to work at the third drive frequency; wherein the second drive frequency is greater than the third drive frequency.

In this design, based on the fact that the current operating speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, it indicates that the current room temperature is equivalent to the preset temperature. The fan is controlled to run at the current operating speed and the vortex ring is controlled. The device works at the third drive frequency. The second drive frequency is greater than the third drive frequency, which further reduces the formation speed of the vortex ring airflow, and ensures an appropriate air supply range and air supply distance, which can keep the current indoor temperature from the preset value for a long time. The temperature is kept consistent, so that indoor comfort can be maintained for a long time, and the user experience is improved.

In a possible design, the processor is also configured to execute a computer program to achieve: based on the current operating speed being less than the first preset speed, controlling the compressor of the air conditioner to reduce the frequency; based on the current operating speed being greater than the second The preset speed controls the compressor of the air conditioner to increase the frequency; based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, the compressor of the air conditioner is controlled to keep the current frequency unchanged.

In this design, based on the fact that the current operating speed is less than the first preset speed, it indicates that the difference between the current indoor temperature and the preset temperature is small. By controlling the compressor of the air conditioner to reduce the frequency, the compressor frequency is avoided to increase the heat exchange efficiency. To make the temperature difference larger and the compressor running at a smaller frequency can ensure that the air conditioner has a certain amount of heat exchange, and is helpful to maintain a comfortable indoor temperature; based on the current operating speed greater than the second preset speed, it indicates that the current indoor temperature and the expected If the temperature difference is large, by controlling the compressor of the air conditioner to increase the frequency and improve the heat exchange efficiency, it is helpful to quickly reduce the temperature difference between the current indoor temperature and the preset temperature, so that the current indoor temperature quickly reaches the preset temperature, thereby increasing the indoor temperature. Temperature comfort; based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current indoor temperature is equivalent to the preset temperature, the current frequency is maintained by controlling the compressor of the air conditioner, It can maintain the comfort of indoor temperature for a long time, and improve the satisfaction of users.

In a possible design, the processor is further configured to execute a computer program to implement the step of controlling the operation of the vortex ring generator based on the current operating mode as the air supply mode, and further includes: obtaining the current operating speed of the fan; The running speed is less than the first preset speed, the fan is controlled to run at the first preset speed; based on the current running speed is greater than the second preset speed, the fan is controlled to run at the second preset speed; based on the current running speed greater than or equal to the first preset speed The rotation speed is set to be less than or equal to the second preset rotation speed, and the fan is controlled to run at the current operating rotation speed; wherein the first preset rotation speed is less than the second preset rotation speed.

In this design, based on the current operating mode as the air supply mode, the vortex ring generator is controlled to work, which can expand the air supply range and air supply distance of the air conditioner, reduce energy consumption, and make the user experience windless blowing, which improves User satisfaction. By obtaining the current running speed of the fan, based on the fact that the current running speed is less than the first preset speed, it indicates that the current wind speed is less different from the preset wind speed. By controlling the fan to run at the first preset speed, the current wind speed and the preset speed can be quickly reduced. The difference in wind speed makes the current wind speed quickly reach the preset wind speed, thereby improving indoor comfort; based on the current operating speed greater than the second preset speed, the second preset speed is greater than the first preset speed, indicating that the current wind speed is different from the preset speed The wind speed has a large difference. By controlling the fan to run at the second preset speed, the running speed of the fan is greatly increased, which is beneficial to quickly reduce the difference between the current wind speed and the preset wind speed, and is beneficial for the indoor air to quickly reach the user's comfort level. User satisfaction; based on the current running speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current wind speed is equivalent to the preset wind speed, and has reached the user's comfort level, by controlling the fan to run at the current speed Running at speed can maintain indoor comfort for a long time.

In a possible design, the first preset speed is 300 r/min to 600 r/min, and the second preset speed is 900 r/min to 1200 r/min.

In this design, the range of the first preset speed is 300r/min to 600r/min, which avoids that the first preset speed is too small to form a vortex ring airflow. A reasonable range of the first preset speed can ensure the vortex ring The airflow is effectively formed, and the vortex ring airflow can be adequately and continuously spread, thereby enhancing the user's blowing experience and improving user satisfaction.

The second preset speed is 900r/min to 1200r/min, which avoids that the second preset speed is too large and the difference between the preset temperature is too large and affects the comfort of users. A reasonable range of the second preset speed can make the air conditioner The device reduces the temperature difference and quickly achieves comfort in a short time, thereby increasing user satisfaction.

Further, the first preset speed is 400r/min, and the second preset speed is 1000r/min, which can ensure that the wind of the fan works through the vortex ring generator to form a vortex ring airflow, and blows continuously and adequately into the room, while making Indoors can quickly reach comfort and enhance the user experience.

According to another aspect of the present application, there is provided a control method of an air conditioner. The air conditioner includes a vortex ring generating device and a fan. The fan works to supply air to the vortex ring generating device. The control method of the air conditioner includes: The current operating mode of the generator; according to the current operating mode to control the working state of the vortex generator.

In the method for controlling an air conditioner provided by the embodiment of the present application, the air conditioner includes a vortex ring generating device and a fan, and the fan works to send air to the vortex ring generating device. By obtaining the current operating mode of the air conditioner, and controlling the working state of the vortex ring generator according to the current operating mode, the conventional air outlet form of the air conditioner in the prior art can only be changed to the problem of laminar or turbulent flow. The working state of the ring generator can achieve conventional or vortex airflow, and then achieve personalized airflow, which can meet the needs of different users for different airflow methods, improve user experience, and improve product market Competitiveness. Further, in the prior art, the air conditioner in the prior art discharges air in a conventional laminar or turbulent manner, and its air supply range is small and the air supply distance is short, and the wind generated by the fan passes through the vortex ring generator and is discharged as a vortex ring airflow, effectively The air supply range and air supply distance of the air conditioner are expanded, and the vortex ring air flow is discharged through the vortex ring generator, which can realize the directional propagation of the air supply. Compared with the conventional air outlet of the existing air conditioner, the vortex ring generator transmits the same wind The wind speed required for the distance of the distance is reduced, therefore, the energy consumption is greatly reduced and the personalized air supply is realized, the user's use cost is reduced and the user's use experience is improved. At the same time, the wind of the existing air conditioner is discharged in a laminar or turbulent manner, so that the user has a concentrated air flow and a strong sense of wind, and the wind is discharged through the vortex ring generating device in the form of vortex airflow, which enables the user to experience no wind The feeling of blowing air can meet the needs of the elderly, children, and patients for the air from the air conditioner, further expand the scope of use of the product, and improve the market competitiveness of the product.

Further, the prior art improves the user’s comfort in using the air conditioner by increasing the disturbance or reducing the wind speed, but by increasing the disturbance, the energy consumption is not reduced; reducing the wind speed or keeping the wind speed unchanged cannot guarantee the blowing of the air conditioner. In places that move farther, the wind from the fan is discharged through the vortex ring generator and then forms a vortex ring airflow, which can make users experience windless blowing, effectively ensuring the user’s good comfort and expanding the air supply of the air conditioner. Range and air supply distance, and reduce energy consumption, thereby improving the market competitiveness of products.

In a possible design, according to the current operating mode, the step of controlling the working state of the scroll generating device includes: determining whether the current operating mode is one of the cooling mode, heating mode or air supply mode; if so , Control the vortex ring generator to work; otherwise, control the vortex ring generator to stop working.

In this design, by judging whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if it is, it means that the current operating mode of the air conditioner includes air supply action, and the vortex generating device is controlled to work, so that the air conditioner The vortex ring airflow is used to output the air, which expands the air supply range and air supply distance of the air conditioner, and can realize the directional transmission of the air supply. Compared with the conventional air output of the existing air conditioner, the vortex ring generator transmits the wind The wind speed required for the same distance is reduced, therefore, energy consumption is greatly reduced and personalized air supply is realized, reducing the user's use cost and improving the user's use experience. At the same time, the wind of the existing air conditioner is exhausted in a laminar or turbulent manner so that the user has a concentrated air flow and a strong sense of wind, and the wind is discharged through the vortex ring generating device in the form of vortex airflow, which enables users to experience windless blowing. , Improve user satisfaction. Based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex ring generator is controlled to stop working, which avoids the air conditioner does not include air supply action and the vortex ring The problem of waste of energy during device work has effectively reduced the user's use cost and improved the market competitiveness of the product.

In a possible design, controlling the operation of the vortex generating device includes: obtaining the current operating speed of the fan based on the current operating mode being the cooling mode or heating mode; adjusting the operating speed of the fan according to the current operating speed, and controlling The vortex ring generator works.

In this design, based on the current operating mode being the cooling mode or heating mode, the current operating speed of the fan is obtained, and the operating speed of the fan is adjusted according to the current operating speed, and the operation of the vortex generating device is controlled to avoid the large temperature difference. The wind blows directly to the user to reduce the user's blowing experience, and at the same time, it can make the indoor temperature quickly reach a comfortable level, improve the user's satisfaction, and make the user experience windless blowing, which improves the user's blowing experience. It is understandable that controlling the work of the vortex ring generator can include adjusting the driving frequency of the vortex ring generator, adjusting the transmission distance and transmission range of the vortex ring air flow of the vortex ring generator, or other parameters that meet the requirements.

In a possible design, the steps of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex ring generator include: controlling the fan to increase the operating speed based on the current operating speed being less than the first preset speed, and The control scroll generating device operates at the first driving frequency.

In this design, based on the fact that the current operating speed is less than the first preset speed, it indicates that the current indoor temperature is slightly different from the preset temperature, which is close to the comfort of the human body. By increasing the operating speed of the fan, the vortex generator is controlled to be driven by the first Frequency operation is conducive to the rapid formation of the vortex ring airflow and the transmission in a larger range and the transmission distance is longer, which can make the vortex ring airflow formed by the vortex ring generator be received in a larger area in the room, thereby expanding the experience of no wind The range of wind can make the indoor temperature quickly reach the comfort level and enhance the user experience.

In a possible design, the steps of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex generating device specifically include: controlling the fan to reduce the operating speed based on the current operating speed being greater than the second preset speed, and The control vortex generating device operates at a second driving frequency; wherein, the first preset speed is less than the second preset speed; the first driving frequency is greater than the second driving frequency.

In this design, based on the fact that the current operating speed is greater than the second preset speed, and the first preset speed is less than the second preset speed, it indicates that the current indoor temperature is significantly different from the preset temperature. The fan is controlled to reduce the operating speed and control the vortex ring. The generating device works at the second drive frequency. The first drive frequency is greater than the second drive frequency, which slows down the formation speed of the vortex ring airflow, and transmits in a smaller range and the transmission distance is shorter, which can avoid the vortex ring generating device. The large driving frequency causes a large amount of vortex airflow with a large temperature difference to be transmitted indoors, which reduces the comfort of the user, effectively guarantees the comfort of the user's blowing, and improves the user's blowing experience.

In a possible design, the steps of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex ring generator include: based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second The preset speed is used to control the fan to run at the current operating speed, and control the vortex ring generator to work at the third driving frequency; wherein the second driving frequency is greater than the third driving frequency.

In this design, based on the fact that the current operating speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, it indicates that the current room temperature is equivalent to the preset temperature. The fan is controlled to run at the current operating speed and the vortex ring is controlled. The device works at the third drive frequency. The second drive frequency is greater than the third drive frequency, which further reduces the formation speed of the vortex ring airflow, and ensures an appropriate air supply range and air supply distance, which can keep the current indoor temperature from the preset value for a long time. The temperature is kept consistent, so that indoor comfort can be maintained for a long time, and the user experience is improved.

In a possible design, it further includes: controlling the compressor of the air conditioner to decrease the frequency based on the current operating speed being less than the first preset speed; controlling the compressor of the air conditioner to increase based on the current operating speed being greater than the second preset speed Large frequency: Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, the compressor of the air conditioner is controlled to keep the current frequency unchanged.

In this design, based on the fact that the current operating speed is less than the first preset speed, it indicates that the difference between the current indoor temperature and the preset temperature is small. By controlling the compressor of the air conditioner to reduce the frequency, the compressor frequency is avoided to increase the heat exchange efficiency. To make the temperature difference larger and the compressor running at a smaller frequency can ensure that the air conditioner has a certain amount of heat exchange, and is beneficial to maintain a comfortable indoor temperature; based on the current operating speed greater than the second preset speed, it indicates that the current indoor temperature and the expected If the temperature difference is large, by controlling the compressor of the air conditioner to increase the frequency and improve the heat exchange efficiency, it is helpful to quickly reduce the temperature difference between the current indoor temperature and the preset temperature, so that the current indoor temperature quickly reaches the preset temperature, thereby increasing the indoor temperature. Temperature comfort; based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current indoor temperature is equivalent to the preset temperature, the current frequency is maintained by controlling the compressor of the air conditioner, It can maintain the comfort of indoor temperature for a long time, and improve the satisfaction of users.

In a possible design, based on the current operating mode being the air supply mode, after the step of controlling the operation of the vortex generating device, the method further includes: obtaining the current operating speed of the fan; controlling the fan based on the current operating speed being less than the first preset speed Run at the first preset speed; based on the current operating speed greater than the second preset speed, control the fan to run at the second preset speed; based on the current operating speed greater than or equal to the first preset speed and less than or equal to the second preset speed , Controlling the fan to run at the current operating speed; wherein the first preset speed is less than the second preset speed.

In this design, based on the current operating mode as the air supply mode, the vortex ring generator is controlled to work, which can expand the air supply range and air supply distance of the air conditioner, reduce energy consumption, and make the user experience windless blowing, which improves User satisfaction. By obtaining the current running speed of the fan, based on the fact that the current running speed is less than the first preset speed, it indicates that the current wind speed is less different from the preset wind speed. By controlling the fan to run at the first preset speed, the current wind speed and the preset speed can be quickly reduced. The difference in wind speed makes the current wind speed quickly reach the preset wind speed, thereby improving indoor comfort; based on the current operating speed greater than the second preset speed, it means that the current wind speed is significantly different from the preset wind speed. Set the speed to run, the second preset speed is greater than the first preset speed, which greatly improves the operating speed of the fan, helps to quickly reduce the difference between the current wind speed and the preset wind speed, and helps the indoor air to quickly reach the user's comfort level. User satisfaction; based on the current running speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current wind speed is equivalent to the preset wind speed, and has reached the user's comfort level, by controlling the fan to run at the current speed Running at speed can maintain indoor comfort for a long time.

In a possible design, the first preset speed is 300 r/min to 600 r/min, and the second preset speed is 900 r/min to 1200 r/min.

In this design, the range of the first preset speed is 300r/min to 600r/min, which avoids that the first preset speed is too small to form a vortex ring airflow. A reasonable range of the first preset speed can ensure the vortex ring The airflow is effectively formed, and the vortex ring airflow can be adequately and continuously spread, thereby enhancing the user's blowing experience and improving user satisfaction.

The second preset speed is 900r/min to 1200r/min, which avoids that the second preset speed is too large and the difference between the preset temperature is too large and affects the comfort of users. A reasonable range of the second preset speed can make the air conditioner The device reduces the temperature difference and quickly achieves comfort in a short time, thereby increasing user satisfaction.

Further, the first preset speed is 400r/min, and the second preset speed is 1000r/min, which can ensure that the wind of the fan works through the vortex ring generator to form a vortex ring airflow, and blows continuously and adequately into the room, while making Indoors can quickly reach comfort and enhance the user experience.

According to another aspect of the present application, there is provided a computer-readable storage medium on which a computer program is stored. When the computer program is executed by a processor, the steps of the air conditioner control method as in any of the above technical solutions are realized.

According to another aspect of the present application, a computer-readable storage medium is provided with a computer program stored thereon, and when the computer program is executed by a processor, the steps of the control method for an air conditioner as in any of the above technical solutions are realized, and thus the air conditioner All the technical effects of the control method of, will not be repeated here.

The additional aspects and advantages of the present application will become obvious in the following description, or be understood through the practice of the present application.

Description of the drawings

The above and/or additional aspects and advantages of the present application will become obvious and easy to understand from the description of the embodiments in conjunction with the following drawings, in which:

Fig. 1 shows a schematic structural diagram of an air conditioner according to an embodiment of the present application;

Fig. 2 shows a schematic structural diagram of a part of an air conditioner according to an embodiment of the present application;

Fig. 3 shows a schematic structural view of one direction of an air conditioner according to an embodiment of the present application;

Fig. 4 shows a schematic structural view of another direction of the air conditioner according to an embodiment of the present application;

Fig. 5 shows a left side view of the air conditioner in Fig. 3 according to an embodiment of the present application;

Fig. 6 shows a front view of the air conditioner in Fig. 3 according to an embodiment of the present application;

Fig. 7 shows a top view of the air conditioner in Fig. 3 according to an embodiment of the present application;

Fig. 8 shows a cross-sectional view of the air conditioner A-A in Fig. 6 according to an embodiment of the present application;

FIG. 9 shows a schematic flowchart of a control method of an air conditioner according to an embodiment of the present application;

FIG. 10 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 11 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 12 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 13 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 14 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 15 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application;

FIG. 16 shows a schematic flowchart of a control method of an air conditioner according to another embodiment of the present application.

Among them, the corresponding relationship between the reference signs and component names in Figures 2 to 8 is:

1 air conditioner, 10 air outlet, 12 air inlet, 14 vortex ring generator, 140 cavity, 142 outlet, 144 vortex ring generator, 15 motor, 16 fan, 17 heat exchanger, 18 rectifier plate.

detailed description

In order to be able to understand the above objectives, features and advantages of the application more clearly, the application will be further described in detail below in conjunction with the accompanying drawings and specific implementations. It should be noted that the embodiments of the application and the features in the embodiments can be combined with each other if there is no conflict.

In the following description, many specific details are set forth in order to fully understand this application. However, this application can also be implemented in other ways different from those described here. Therefore, the scope of protection of this application is not covered by the specific details disclosed below. Limitations of the embodiment.

Hereinafter, an air conditioner 1, a control method of the air conditioner, and a computer-readable storage medium according to some embodiments of the present application will be described with reference to FIGS. 1 to 16.

As shown in FIGS. 1 to 8, an embodiment of one aspect of the present application provides an air conditioner 1, including: a vortex ring generating device 14; a fan 16, which works to supply air to the vortex ring generating device 14; and a storage 100 , Is configured to store a computer program; the processor 200 is configured to execute a computer program to achieve: obtain the current operating mode of the air conditioner 1; control the working state of the vortex generator 14 according to the current operating mode.

The air conditioner 1 provided by the embodiment provided in this application, as shown in Figs. 1, 2 and 3, includes a vortex ring generator 14, a fan 16, a memory 100 storing a computer program, and a processor 200 executing the stored computer program The processor 200 executes a computer program to implement the following control strategy. By acquiring the current operating mode of the air conditioner 1, and controlling the working state of the vortex ring generator 14 according to the current operating mode, the problem that the conventional air outlet form of the air conditioner 1 in the prior art can only be laminar or turbulent can be changed. By controlling the working state of the vortex generating device 14 to achieve conventional or vortex airflow, and then to achieve personalized airflow, it can meet the needs of different users for different airflow methods and improve the user experience. Improve the market competitiveness of products.

Further, in the prior art, the air conditioner 1 discharges air in a conventional laminar or turbulent manner, and its air supply range is small and the air supply distance is short, and the wind generated by the fan 16 passes through the vortex ring generator 14 and then forms a vortex ring airflow to be discharged. , The air supply range and air supply distance of the air conditioner 1 are effectively expanded, and the vortex ring air flow is discharged through the vortex ring generator 14, which can realize the directional propagation of the air supply. Compared with the conventional air outlet of the existing air conditioner 1, the vortex ring The generating device 14 reduces the wind speed required for the wind to travel the same distance, thus greatly reducing energy consumption and realizing personalized air supply, reducing the user's use cost and improving the user's experience. At the same time, the wind of the existing air conditioner 1 is exhausted in a laminar or turbulent manner, so that the user has a concentrated air flow and a strong sense of wind, and the wind is discharged in the form of a vortex ring air flow through the vortex ring generator 14 to make the user experience no The wind-sensing blower can meet the needs of the elderly, children, and patients for air outlet from the air conditioner 1, further expand the use range of the product, and improve the market competitiveness of the product.

Further, the prior art improves the user’s comfort in using the air conditioner by increasing the disturbance or reducing the wind speed, but by increasing the disturbance, the energy consumption is not reduced; reducing the wind speed or keeping the wind speed unchanged cannot guarantee the air conditioner 1 blow The wind blows farther, and the wind from the fan 16 is discharged through the vortex ring generator 14 to form a vortex ring airflow, which can make the user experience windless blowing, effectively ensuring the user’s good comfort and expanding the air conditioner The air supply range and air supply distance of the device 1 reduce energy consumption, thereby improving the market competitiveness of the product.

Specifically, the memory 100 may include a mass memory 100 for data or instructions. For example and not limitation, the memory 100 may include a hard disk drive (Hard Disk Drive, HDD), a floppy disk drive, a flash memory, an optical disk, a magneto-optical disk, a magnetic tape, a Universal Serial Bus (USB) drive, or two or more Multiple combinations of these. Where appropriate, the storage 100 may include removable or non-removable (or fixed) media. Where appropriate, the memory 100 may be inside or outside the integrated gateway disaster recovery device. In a specific embodiment, the memory 100 is a non-volatile solid-state memory 100. In a particular embodiment, the memory 100 includes read-only memory 100 (ROM). Where appropriate, the ROM can be mask-programmed ROM, programmable ROM (PROM), erasable PROM (EPROM), electrically erasable PROM (EEPROM), electrically rewritable ROM (EAROM) or flash memory or A combination of two or more of these.

The foregoing processor 200 may include a central processing unit 200 (CPU), or a specific integrated circuit (Application Specific Integrated Circuit, ASIC), or may be configured to implement one or more integrated circuits of the embodiments of the present application, and the processor 200 may also It is a microcontroller, such as an embedded controller such as a single chip microcomputer, to realize the intelligent identification and automatic control of the system.

In an embodiment of the present application, specifically, the processor 200 executes a computer program to implement the step of controlling the working state of the scroll generator 14 according to the current operating mode, including: judging whether the current operating mode is a cooling mode, One of the hot mode or the air supply mode; if so, the vortex ring generator 14 is controlled to work; otherwise, the vortex ring generator 14 is controlled to stop working.

In this embodiment, by judging whether the current operation mode is one of cooling mode, heating mode or air supply mode, if yes, it is explained that the current operation mode of the air conditioner 1 includes air supply action, and the scroll generator 14 is controlled to work , The air conditioner 1 is made to emit wind in the form of vortex airflow, thereby expanding the air supply range and air supply distance of the air conditioner 1, and can realize the directional propagation of the air supply. Compared with the conventional air outlet of the existing air conditioner 1, the vortex The ring generating device 14 reduces the wind speed required for the wind to propagate the same distance, thus greatly reducing energy consumption and realizing personalized air supply, reducing the user's use cost and improving the user's experience. At the same time, the wind of the existing air conditioner 1 is exhausted in a laminar or turbulent manner, so that the user has a concentrated air flow, and the body feels that the wind is relatively large, and the wind is discharged through the vortex ring generator 14 in the form of vortex airflow, so that the user can experience no wind. Feel the wind and improve user satisfaction. Based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner 1 does not include air supply action, and the control scroll generator 14 stops working, avoiding the air conditioner 1 not including air supply action The problem of energy waste in the work of the vortex ring generator 14 effectively reduces the user's use cost and improves the market competitiveness of the product.

In an embodiment of the present application, specifically, the processor 200 is further configured to execute a computer program to control the operation of the scroll generating device 14, specifically including: obtaining the fan 16 based on the current operating mode being the cooling mode or the heating mode Current operating speed; according to the current operating speed, adjust the operating speed of the fan 16 and control the operation of the vortex ring generator 14.

In this embodiment, based on whether the current operating mode is the cooling mode or the heating mode, the current operating speed of the fan 16 is obtained, and the operating speed of the fan 16 is adjusted according to the current operating speed, and the operation of the vortex generating device 14 is controlled to avoid changing The wind with a large temperature difference directly blows to the user and reduces the user's blowing experience. At the same time, it can make the indoor temperature quickly reach a comfortable level, improve the user's satisfaction, and make the user experience windless blowing, which improves the user's blowing experience. It is understandable that controlling the work of the vortex ring generator 14 can include adjusting the driving frequency of the vortex ring generator 14, adjusting the transmission distance and transmission range of the vortex ring airflow of the vortex ring generator 14, or other parameters that meet the requirements. .

In an embodiment of the present application, specifically, the processor 200 executes a computer program to realize the steps of adjusting the operating speed of the fan 16 according to the current operating speed, and controlling the operation of the vortex generating device 14, specifically including: At the first preset speed, the fan 16 is controlled to increase the operating speed, and the vortex ring generator 14 is controlled to work at the first driving frequency.

In this embodiment, based on the fact that the current operating speed is less than the first preset speed, it indicates that the current indoor temperature and the preset temperature are small and close to the comfort of the human body. By increasing the operating speed of the fan 16, the vortex generating device 14 is controlled to Working at the first drive frequency is conducive to the rapid formation and transmission of the vortex ring airflow in a larger range and a longer transmission distance, which enables a larger range of indoors to receive the vortex ring airflow formed by the vortex ring generator 14, thereby expanding the experience The range of wind without wind can make the indoor temperature quickly reach a comfortable level and improve the user experience.

In an embodiment of the present application, specifically, the processor executes the computer program to realize the steps of adjusting the operating speed of the fan 16 according to the current operating speed, and controlling the operation of the vortex generating device 14, specifically including: based on the current operating speed being greater than the first Two preset speeds, controlling the fan 16 to reduce the running speed, and controlling the vortex ring generator 14 to work at the second driving frequency; wherein the first preset speed is less than the second preset speed; the first driving frequency is greater than the second driving frequency.

In this embodiment, based on the fact that the current operating speed is greater than the second preset speed, and the first preset speed is less than the second preset speed, it indicates that the current indoor temperature is significantly different from the preset temperature. The fan 16 is controlled to reduce the operating speed. The vortex ring generator 14 works at the second driving frequency. The first driving frequency is greater than the second driving frequency, which slows down the formation speed of the vortex ring airflow, and transmits in a smaller range and the transmission distance is shorter, which can avoid the vortex ring. The driving frequency of the generating device 14 is relatively large, so that a large amount of vortex airflow with a large temperature difference is transmitted to the room, thereby reducing the user's comfort, effectively ensuring the user's blowing comfort and improving the user's blowing experience.

In an embodiment of the present application, specifically, the processor executes the computer program to realize the steps of adjusting the operating speed of the fan 16 according to the current operating speed, and controlling the operation of the vortex generating device 14, which specifically includes: based on the current operating speed greater than or Equal to the first preset speed and less than or equal to the second preset speed, the fan 16 is controlled to run at the current operating speed, and the vortex ring generator 14 is controlled to work at the third driving frequency; wherein the second driving frequency is greater than the third driving frequency .

In this embodiment, based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, it is indicated that the current room temperature is equivalent to the preset temperature. The fan 16 is controlled to run at the current operating speed and the vortex is controlled. The ring generator 14 works at the third driving frequency. The second driving frequency is greater than the third driving frequency, which further reduces the formation speed of the vortex ring airflow, and ensures proper air supply range and air supply distance, which can keep the current indoor temperature for a long time. It is consistent with the preset temperature, so that the indoor comfort can be maintained for a long time, and the user experience is improved.

In an embodiment of the present application, specifically, the processor 200 is further configured to execute a computer program to realize: based on the current operating speed being less than the first preset speed, controlling the compressor of the air conditioner 1 to reduce the frequency; The operating speed is greater than the second preset speed, the compressor of the air conditioner 1 is controlled to increase the frequency; based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, the compressor of the air conditioner 1 is controlled to keep The current frequency is unchanged.

In this embodiment, based on the fact that the current operating speed is less than the first preset speed, it indicates that the difference between the current indoor temperature and the preset temperature is small. By controlling the compressor of the air conditioner 1 to reduce the frequency, it is avoided that the compressor frequency is greatly increased. Thermal efficiency makes the temperature difference larger. Running the compressor at a smaller frequency can ensure that the air conditioner 1 has a certain amount of heat exchange and is helpful to maintain a comfortable indoor temperature; based on the current operating speed greater than the second preset speed, it indicates that the current indoor There is a big difference between the temperature and the preset temperature. By controlling the compressor of the air conditioner 1 to increase the frequency and improve the heat exchange efficiency, it is helpful to quickly reduce the temperature difference between the current indoor temperature and the preset temperature, so that the current indoor temperature quickly reaches the preset temperature , And then improve the comfort of indoor temperature; based on the current operating speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current indoor temperature is equivalent to the preset temperature, maintained by controlling the compressor of the air conditioner 1 The current frequency remains unchanged, which can maintain the comfort of indoor temperature for a long time and improve user satisfaction.

In an embodiment of the present application, specifically, the processor 200 is further configured to execute a computer program to realize that based on the current operating mode as the air supply mode, after the step of controlling the operation of the vortex generating device 14, the method further includes: obtaining the current status of the fan 16 Operating speed; based on the current operating speed being less than the first preset speed, the fan 16 is controlled to run at the first preset speed; based on the current operating speed greater than the second preset speed, the fan 16 is controlled to run at the second preset speed; based on the current running If the rotation speed is greater than or equal to the first preset rotation speed and less than or equal to the second preset rotation speed, the fan 16 is controlled to run at the current operating rotation speed; wherein the first preset rotation speed is less than the second preset rotation speed.

In this embodiment, based on the current operating mode being the air supply mode, the vortex generating device 14 is controlled to work, which can expand the air supply range and air supply distance of the air conditioner 1, reduce energy consumption, and make the user experience no wind. Blowing, improve user satisfaction. By acquiring the current operating speed of the fan 16, based on the fact that the current operating speed is less than the first preset speed, it indicates that the current wind speed is less different from the preset wind speed. By controlling the fan 16 to run at the first preset speed, the current wind speed can be quickly reduced. The difference between the preset wind speeds makes the current wind speed quickly reach the preset wind speed, thereby improving indoor comfort; based on the current operating speed greater than the second preset speed, the second preset speed is greater than the first preset speed, indicating that the current wind speed is The preset wind speed has a large difference. By controlling the fan 16 to run at the second preset speed, the second preset speed is greater than the first preset speed, which greatly increases the operating speed of the fan 16 and helps to quickly reduce the current wind speed and the preset wind speed The difference between, which helps the indoor air to quickly reach the user’s comfort level, and improve user satisfaction; based on the current operating speed greater than or equal to the first preset speed and less than or equal to the second preset speed, the current wind speed and the preset speed The wind speed is equivalent and the user's comfort has been reached. By controlling the fan 16 to run at the current operating speed, the indoor comfort can be maintained for a long time.

In an embodiment of the present application, specifically, the first preset rotation speed is 300 r/min to 600 r/min, and the second preset rotation speed is 900 r/min to 1200 r/min.

In this embodiment, the range of the first preset speed is 300r/min to 600r/min, which prevents the first preset speed from being too small to form a vortex ring air flow. A reasonable range of the first preset speed can ensure that the vortex Circumferential airflow is effectively formed, and the vortex ring airflow can be adequately and continuously spread, thereby enhancing the user’s blowing experience and improving user satisfaction.

The second preset speed is 900r/min to 1200r/min, which avoids that the second preset speed is too large and the difference between the preset temperature is too large and affects the comfort of users. A reasonable range of the second preset speed can make the air conditioner The device 1 reduces the temperature difference in a short time and achieves comfort quickly, thereby improving user satisfaction.

Further, the first preset speed is 400r/min, and the second preset speed is 1000r/min, which can ensure that the working wind of the fan 16 forms a vortex ring airflow through the vortex ring generator 14 and blows continuously and sufficiently into the room. At the same time, the indoor comfort can be quickly reached, and the user experience can be improved.

In a specific embodiment, as shown in Figure 4, Figure 5, Figure 6, Figure 7 and Figure 8, the present application provides an air conditioner 1 with a vortex ring generating device 14, and the air conditioner 1 is provided with a vortex ring generating device 14 inside. , Heat exchanger 17, fan 16, motor 15, rectifier plate 18, air inlet 12 and air outlet 10; vortex ring generating device 14 is connected with air inlet 12 and air outlet 10, vortex ring generating device 14 has a cavity 140 and The vortex ring generating part 144, from the air inlet direction to the air outlet direction, the components of the air conditioner 1 sequentially include the fan 16, the motor 15, the heat exchanger 17, the vortex ring generating part 144, the rectifying plate 18, the cavity 140, and the outlet 142; At the front end of the cavity 140, there is an outlet 142 with a gradual cross-sectional area. The motor 15 and the fan 16 are arranged at the rear end of the cavity 140. The fan 16 is driven by the motor 15 to suck air from the outside and pass through the vortex generating part 144. , The rectifying plate 18 is blown out from the outlet 142 through the air outlet 10. In this application, the vortex generating device 14 sends the air blown out of the air conditioner to a designated farther position in the form of vortex airflow. The indoor air passes through the heat exchanger 17 under the action of the fan 16 to achieve the vortex generating At the part 144, the vortex ring generating part 144 completes opening and closing within a certain period of time. The air passes through the rectifying plate 18, and the gas in the front end of the cavity 140 is disturbed in the axial direction, thereby making the variable section cavity 140 The air flow blown out of the outlet 142 of the air conditioner forms a vortex ring, and the cold air/hot air/humid air is sent to the far end of the room in a circular pattern, which effectively expands the air supply range and air supply distance of the air conditioner 1, and can realize the delivery Compared with the conventional air outlet of the existing air conditioner 1, the wind speed required by the vortex ring generator 14 to propagate the wind the same distance is reduced. Therefore, the energy consumption is greatly reduced and the personalized air supply is realized. This improves the user’s usage cost and enhances the user’s experience. At the same time, the wind of the existing air conditioner 1 is exhausted in a laminar or turbulent manner, so that the user has a concentrated airflow and a sense of greater wind. And the wind is discharged through the vortex ring generator 14 in the form of vortex airflow to make the user experience no wind Feel the wind and improve user satisfaction.

An embodiment of another aspect of the present application provides a method for controlling an air conditioner. The air conditioner includes a vortex ring generating device and a fan, and the fan works to supply air to the vortex ring generating device.

As shown in Fig. 9, a control method of an air conditioner according to an embodiment of the present application includes:

S202: Acquire the current operating mode of the air conditioner;

S204: Control the working state of the vortex ring generator according to the current operating mode.

The control method of the air conditioner provided by the embodiment of the present application can change the conventional air outlet mode of the air conditioner in the prior art by acquiring the current operating mode of the air conditioner and controlling the working state of the vortex generating device according to the current operating mode. It can be laminar or turbulent. You can control the working state of the vortex ring generator to achieve conventional or vortex ring airflow to achieve personalized airflow, which can satisfy different users for different airflow methods. The demand for improving users’ experience and the market competitiveness of products.

Further, in the prior art, the air conditioner in the prior art discharges air in a conventional laminar or turbulent manner, and its air supply range is small and the air supply distance is short, and the wind generated by the fan passes through the vortex ring generator and is discharged as a vortex ring airflow, effectively The air supply range and air supply distance of the air conditioner are expanded, and the vortex ring air flow is discharged through the vortex ring generator, which can realize the directional propagation of the air supply. Compared with the conventional air outlet of the existing air conditioner, the vortex ring generator transmits the same wind The wind speed required for the distance of the distance is reduced, therefore, the energy consumption is greatly reduced and the personalized air supply is realized, the user's use cost is reduced and the user's use experience is improved. At the same time, the wind of the existing air conditioner is exhausted in a laminar or turbulent manner, so that the user has a concentrated airflow and a strong sense of wind, and the wind is discharged in the form of vortex airflow through the vortex ring generator to make the user experience no wind. The blower can meet the needs of the elderly, children, and patients for air outlets from the air conditioner, further expand the scope of use of the product, and improve the market competitiveness of the product.

Further, the prior art improves the user’s comfort in using the air conditioner by increasing the disturbance or reducing the wind speed, but by increasing the disturbance, the energy consumption is not reduced; reducing the wind speed or keeping the wind speed unchanged cannot guarantee the wind blown out of the air conditioner. Blowing to farther places, and the wind from the fan is discharged through the vortex ring generator and then forms a vortex ring airflow, which can make users experience windless blowing, which effectively guarantees the user’s good comfort and expands the air conditioner’s delivery. Wind range and air supply distance, and reduce energy consumption, thereby improving the market competitiveness of products.

As shown in FIG. 10, a control method of an air conditioner according to another embodiment of the present application includes:

S302: Acquire the current operating mode of the air conditioner;

S304: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if so, execute S306, otherwise, execute S308;

S306, control the operation of the vortex ring generator;

S308: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner, and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, if so, it means that the current operating mode of the air conditioner includes air supply action , Control the operation of the vortex ring generating device, so that the air conditioner discharges air in the form of vortex ring airflow, thereby expanding the air supply range and air supply distance of the air conditioner, and can realize the directional propagation of the air supply, which is similar to the conventional air output of the existing air conditioner In comparison, the vortex ring generating device reduces the wind speed required to propagate the wind the same distance, thus greatly reducing energy consumption and realizing personalized air supply, reducing the user's use cost and improving the user's experience. At the same time, the wind of the existing air conditioner is exhausted in a laminar or turbulent manner so that the user has a concentrated air flow and a strong sense of wind, and the wind is discharged through the vortex ring generating device in the form of vortex airflow, which enables users to experience windless blowing. , Improve user satisfaction. Based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex ring generator is controlled to stop working, which avoids the air conditioner does not include air supply action and the vortex ring The problem of waste of energy during device work has effectively reduced the user's use cost and improved the market competitiveness of the product.

As shown in FIG. 11, a control method of an air conditioner according to another embodiment of the present application includes:

S402: Acquire the current operating mode of the air conditioner;

S404: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if yes, execute S406, otherwise, execute S410;

S406: Acquire the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

S408: Adjust the operating speed of the fan according to the current operating speed, and control the operation of the vortex ring generator;

S410: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on whether the current operating mode is the cooling mode or the heating mode, obtain The current running speed of the fan, adjust the running speed of the fan according to the current running speed, and control the operation of the vortex ring generator, which can avoid blowing the wind with a large temperature difference directly to the user and reduce the user's blowing experience, and at the same time can make the indoor temperature fast Achieve comfort, improve user satisfaction, and make the user experience windless blowing, and enhance the user's blowing experience. It is understandable that controlling the work of the vortex ring generating device may include adjusting the driving frequency of the vortex ring generating device, adjusting the transmission distance and transmission range of the vortex ring airflow of the vortex ring generating device, or other parameters that meet the requirements. Based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex ring generator is controlled to stop working, which avoids the air conditioner does not include air supply action and the vortex ring The problem of waste of energy during device work has effectively reduced the user's use cost and improved the market competitiveness of the product.

As shown in FIG. 12, a control method of an air conditioner according to another embodiment of the present application includes:

S502: Acquire the current operating mode of the air conditioner;

S504: Determine whether the current operation mode is one of the cooling mode, heating mode or air supply mode, if yes, execute S506, otherwise, execute S510;

S506: Acquire the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

S508: Based on the current operating speed being less than the first preset speed, controlling the fan to increase the operating speed, and controlling the vortex ring generator to work at the first driving frequency;

S510: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on whether the current operating mode is the cooling mode or the heating mode, obtain The current operating speed of the fan, based on the fact that the current operating speed is less than the first preset speed, indicates that the current indoor temperature and the preset temperature are small and close to the comfort of the human body. By increasing the operating speed of the fan, the vortex generator is controlled to be the first The driving frequency works, which is conducive to the rapid formation of the vortex ring airflow and the transmission in a larger range and the transmission distance is longer, which can make the vortex ring airflow formed by the vortex ring generator be received in a larger range indoors, thereby expanding the experience of no wind The range of the wind can make the indoor temperature quickly reach a comfortable level and improve the user experience.

Furthermore, based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex generator is controlled to stop working, which avoids the air conditioner does not include air supply action. The problem of energy waste in the work of the vortex ring generator effectively reduces the user's use cost and improves the market competitiveness of the product.

As shown in FIG. 13, a control method of an air conditioner according to another embodiment of the present application includes:

S602: Acquire the current operating mode of the air conditioner;

S604: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if so, execute S606, otherwise, execute S610;

S606: Acquire the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

S608: Based on the current operating speed being greater than the second preset speed, control the fan to reduce the operating speed, and control the vortex ring generator to work at the second drive frequency; wherein the first preset speed is less than the second preset speed; the first drive frequency Greater than the second driving frequency;

S610: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on whether the current operating mode is the cooling mode or the heating mode, obtain The current running speed of the fan is based on the fact that the current running speed is greater than the second preset speed, and the first preset speed is less than the second preset speed, indicating that the current indoor temperature is significantly different from the preset temperature. By controlling the fan to reduce the running speed, control the The ring generator works at the second driving frequency, the first driving frequency is greater than the second driving frequency, which slows down the formation speed of the vortex ring airflow, and transmits in a smaller range and the transmission distance is shorter, which can avoid the vortex ring generator The large driving frequency of the vortex ring causes a large amount of vortex airflow with a large temperature difference to be transmitted indoors, which reduces the comfort of the user, effectively ensures the comfort of the user’s blowing, and improves the user’s blowing experience.

Furthermore, based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex generator is controlled to stop working, which avoids the air conditioner does not include air supply action. The problem of energy waste in the work of the vortex ring generator effectively reduces the user's use cost and improves the market competitiveness of the product.

As shown in FIG. 14, a control method of an air conditioner according to another embodiment of the present application includes:

S702: Acquire the current operating mode of the air conditioner;

S704: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if so, execute S706, otherwise, execute S710;

S706: Acquire the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

S708, based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the fan to run at the current operating speed, and controlling the vortex ring generator to work at the third drive frequency; where the second drive The frequency is greater than the third driving frequency;

S710: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on whether the current operating mode is the cooling mode or the heating mode, obtain The current running speed of the fan, based on the current running speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current room temperature is equivalent to the preset temperature, by controlling the fan to run at the current running speed and controlling the vortex ring The generating device works at the third drive frequency. The second drive frequency is greater than the third drive frequency, which further reduces the formation speed of the vortex ring airflow, and guarantees an appropriate air supply range and air supply distance, which can keep the current indoor temperature in line with the forecast for a long time. Set the temperature to be consistent, so that the indoor comfort can be maintained for a long time, and the user experience is improved.

Furthermore, based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex generator is controlled to stop working, which avoids the air conditioner does not include air supply action. The problem of energy waste in the work of the vortex ring generator effectively reduces the user's use cost and improves the market competitiveness of the product.

As shown in FIG. 15, a control method of an air conditioner according to another embodiment of the present application includes:

S802: Acquire the current operating mode of the air conditioner;

S804: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if yes, execute S806, otherwise, execute S814;

S806: Acquire the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

S808: Based on the current operating speed being less than the first preset speed, control the scroll generator to operate at the first drive frequency, control the fan to increase the operating speed, and control the compressor of the air conditioner to reduce the frequency;

S810: Based on the current operating speed being greater than the second preset speed, control the scroll generator to operate at the second drive frequency, control the fan to reduce the operating speed, and control the compressor of the air conditioner to increase the frequency, where the first preset speed is less than the first Two preset speeds, the first driving frequency is greater than the second driving frequency;

S812, based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the fan to work at the current operating speed, controlling the scroll generator to work at the third drive frequency, and controlling the compressor of the air conditioner Keep the current frequency unchanged, wherein the first preset speed is less than the second preset speed, and the second drive frequency is greater than the third drive frequency;

S814: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on whether the current operating mode is the cooling mode or the heating mode, obtain The current operating speed of the fan, based on the fact that the current operating speed is less than the first preset speed, indicates that the current indoor temperature and the preset temperature are small and close to the comfort of the human body. By increasing the operating speed of the fan, the vortex generator is controlled to be the first The driving frequency works, which is conducive to the rapid formation of the vortex ring airflow and the transmission in a larger range and the transmission distance is longer, which can make the vortex ring airflow formed by the vortex ring generator be received in a larger range indoors, thereby expanding the experience of no wind The range of air outlet can make the indoor temperature quickly reach the comfort level and improve the user experience; at the same time, control the compressor of the air conditioner to reduce the frequency, avoiding the high frequency of the compressor to increase the heat exchange efficiency and make the temperature difference larger and compress Running the air conditioner at a lower frequency can ensure that the air conditioner has a certain amount of heat exchange, and is helpful to maintain a comfortable indoor temperature, thereby improving user satisfaction; based on the current operating speed greater than the second preset speed, the first preset speed If the speed is less than the second preset speed, it means that the current indoor temperature is significantly different from the preset temperature. By controlling the fan to reduce the operating speed, the vortex ring generator is controlled to work at the second driving frequency. The first driving frequency is greater than the second driving frequency, so that the vortex The formation speed of the circulating air flow slows down, and the transmission is carried out in a smaller range and the transmission distance is shorter, which can prevent the large driving frequency of the vortex ring generator from causing a large number of vortex ring airflows with large temperature differences to be transmitted indoors and reduce the user’s Comfort, which effectively guarantees the user’s blowing comfort and enhances the user’s blowing experience. At the same time, it controls the compressor of the air conditioner to increase the frequency, improve heat exchange efficiency, and help quickly reduce the temperature difference between the current indoor temperature and the preset temperature. , To make the current indoor temperature quickly reach the preset temperature, thereby improving the comfort of the indoor temperature; based on the current operating speed greater than or equal to the first preset speed and less than or equal to the second preset speed, it indicates that the current room temperature is equivalent to the preset temperature, By controlling the vortex ring generator to work at the third drive frequency, the second drive frequency is greater than the third drive frequency, further reducing the speed of the vortex ring airflow, and ensuring proper air supply range and air supply distance, while controlling the fan to the current The compressor operating at the running speed and controlling the air conditioner keeps the current frequency unchanged, which can keep the current indoor temperature consistent with the preset temperature for a long time, so that the indoor comfort can be maintained for a long time, and the user experience is improved.

Furthermore, based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex generator is controlled to stop working, which avoids the air conditioner does not include air supply action. The problem of energy waste in the work of the vortex ring generator effectively reduces the user's use cost and improves the market competitiveness of the product.

As shown in FIG. 16, a control method of an air conditioner according to another embodiment of the present application includes:

S902: Acquire the current operating mode of the air conditioner;

S904: Determine whether the current operating mode is one of the cooling mode, heating mode or air supply mode, if so, execute S906, otherwise, execute S914;

S906, controlling the operation of the vortex ring generator based on the current operating mode being the air supply mode, and obtaining the current operating speed of the fan;

S908, controlling the fan to run at the first preset speed based on the current operating speed being less than the first preset speed;

S910: Based on the current operating speed being greater than the second preset speed, control the fan to run at the second preset speed, where the first preset speed is less than the second preset speed;

S912, based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the fan to run at the current operating speed, where the first preset speed is less than the second preset speed;

S914: Control the vortex ring generator to stop working.

In this embodiment, by acquiring the current operating mode of the air conditioner, and determining whether the current operating mode is one of the cooling mode, heating mode, or air supply mode, based on the current operating mode being the air supply mode, the vortex loop generation is controlled. The operation of the device can expand the air supply range and air supply distance of the air conditioner, and reduce energy consumption. At the same time, it enables users to experience windless blowing, and improves user satisfaction. By obtaining the current running speed of the fan, based on the fact that the current running speed is less than the first preset speed, it indicates that the current wind speed is less different from the preset wind speed. By controlling the fan to run at the first preset speed, the current wind speed and the preset speed can be quickly reduced. The difference in wind speed makes the current wind speed quickly reach the preset wind speed, thereby improving indoor comfort; based on the current operating speed greater than the second preset speed, the second preset speed is greater than the first preset speed, indicating that the current wind speed is different from the preset speed The wind speed has a large difference. By controlling the fan to run at the second preset speed, the running speed of the fan is greatly increased, which is beneficial to quickly reduce the difference between the current wind speed and the preset wind speed, and is beneficial for the indoor air to quickly reach the user's comfort level. User satisfaction; based on the current running speed is greater than or equal to the first preset speed and less than or equal to the second preset speed, indicating that the current wind speed is equivalent to the preset wind speed, and has reached the user's comfort level, by controlling the fan to run at the current speed Running at speed can maintain indoor comfort for a long time.

Furthermore, based on the fact that none of the current operating modes are cooling mode, heating mode or air supply mode, it means that the current operating mode of the air conditioner does not include air supply action, and the vortex generator is controlled to stop working, which avoids the air conditioner does not include air supply action. The problem of energy waste in the work of the vortex ring generator effectively reduces the user's use cost and improves the market competitiveness of the product.

In a specific embodiment, the current operating mode of the air conditioner is acquired, the current operating mode is the cooling mode, and the operation of the vortex generating device is controlled, which can expand the air supply range and air supply distance of the air conditioner, and achieve directional air supply, while making The user experience has no sense of wind, which improves user satisfaction. Get the current running speed of the fan. If the current running speed is less than the first preset speed, the current indoor temperature is close to the preset temperature. At this time, the fan speed can be increased to the first preset speed, and the vortex generator can be controlled to At the same time, in order to ensure a considerable cooling capacity and maintain a comfortable temperature in the room, the frequency of the compressor is reduced to prevent the indoor temperature from being too cold; if the current operating speed is greater than the second preset speed, the second The preset speed is greater than the first preset speed, indicating that the current indoor temperature and the preset temperature are quite different, and the indoor temperature needs to be cooled. At this time, the fan speed can be increased to the second preset speed, and the vortex generator can be controlled to be lower The second driving frequency is working. The first driving frequency is greater than the second driving frequency to prevent large temperature difference pulses from blowing into the room. At the same time, in order to ensure a considerable cooling capacity, keep the room continuing to drop and increase the frequency of the compressor; On the other hand, if the current operating speed of the air conditioner fan is between the first preset speed and the second preset speed, the vortex ring generator is controlled to work at a smaller third drive frequency, and the second drive frequency is greater than the third drive frequency, and the air conditioner remains Running the current fan speed and compressor frequency can maintain the comfort of indoor temperature for a long time and improve user satisfaction. Specifically, the first preset speed is 400r/min, and the second preset speed is 1000r/min, which can ensure that the wind of the fan works through the vortex ring generating device to form a vortex ring airflow, and blows continuously and adequately into the room while making Indoors can quickly reach comfort and enhance the user experience. The present application controls the vortex ring generator to stably generate the vortex ring airflow, and sends the air blown by the air conditioner to a designated farther position. At the same time, it can meet the different needs of users by controlling the fan speed and the working frequency of the compressor. And improve the comfort of the room, thereby increasing the satisfaction of users.

According to another aspect of the present application, there is provided a computer-readable storage medium on which a computer program is stored. When the computer program is executed by a processor, the steps of the air conditioner control method as in any of the above technical solutions are realized.

According to another aspect of the present application, a computer-readable storage medium is provided with a computer program stored thereon, and when the computer program is executed by a processor, the steps of the control method for an air conditioner as in any of the above technical solutions are realized, and thus the air conditioner All the technical effects of the control method of, will not be repeated here.

The computer-readable storage medium may include any medium that can store or transmit information. Examples of computer-readable storage media include electronic circuits, semiconductor memory devices, ROM, flash memory, erasable ROM (EROM), floppy disks, CD-ROMs, optical disks, hard disks, fiber optic media, radio frequency (RF) links, and so on. The code segment can be downloaded via a computer network such as the Internet, an intranet, etc.

In this application, the term "plurality" refers to two or more than two, unless specifically defined otherwise. The terms "installed", "connected", "connected", "fixed" and other terms should be understood in a broad sense. For example, "connected" can be a fixed connection, a detachable connection, or an integral connection; "connected" can be It is directly connected or indirectly connected through an intermediary. For those of ordinary skill in the art, the specific meanings of the above terms in this application can be understood according to specific circumstances.

In the description of this specification, the description of the terms "one embodiment", "some embodiments", "specific embodiments", etc. means that the specific features, structures, materials or characteristics described in conjunction with the embodiments or examples are included in this application In at least one embodiment or example. In this specification, the schematic representations of the above-mentioned terms do not necessarily refer to the same embodiment or example. Moreover, the described specific features, structures, materials or characteristics may be combined in any one or more embodiments or examples in a suitable manner.

The above descriptions are only preferred embodiments of the application, and are not used to limit the application. For those skilled in the art, the application can have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of this application shall be included in the protection scope of this application.

Claims (19)

1. An air conditioner, which includes:

   Vortex ring generator;

   A fan, the fan works to send air to the vortex ring generator;

   Memory, configured to store computer programs;

   The processor is configured to execute the computer program to realize:

   Acquiring the current operating mode of the air conditioner;

   According to the current operation mode, the working state of the vortex ring generator is controlled.
2. The air conditioner according to claim 1, wherein the step of controlling the working state of the vortex ring generating device according to the current operation mode implemented by the processor executing the computer program specifically includes:

   Judging whether the current operating mode is one of a cooling mode, a heating mode or an air supply mode;

   If yes, control the operation of the vortex ring generator;

   Otherwise, control the vortex ring generator to stop working.
3. The air conditioner according to claim 2, wherein the processor is further configured to execute the computer program to implement the control of the operation of the vortex ring generator, which specifically includes:

   Acquiring the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

   According to the current operating speed, the operating speed of the fan is adjusted, and the operation of the vortex ring generator is controlled.
4. The air conditioner according to claim 3, wherein the processor executes the computer program to realize the operation of adjusting the operating speed of the fan according to the current operating speed, and controlling the operation of the vortex generating device The steps include:

   Based on the current operating speed being less than the first preset speed, the fan is controlled to increase the operating speed, and the vortex ring generator is controlled to operate at the first driving frequency.
5. The air conditioner according to claim 4, wherein the processor executes the computer program to realize the operation of adjusting the operating speed of the fan according to the current operating speed, and controlling the operation of the vortex generating device The steps include:

   Based on the current operating speed being greater than the second preset speed, controlling the fan to reduce the operating speed, and controlling the vortex ring generator to operate at the second driving frequency;

   Wherein, the first preset speed is less than the second preset speed;

   The first driving frequency is greater than the second driving frequency.
6. The air conditioner according to claim 5, wherein the processor executes the computer program to realize the operation of adjusting the operating speed of the fan according to the current operating speed, and controlling the operation of the vortex generating device The steps include:

   Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, the fan is controlled to operate at the current operating speed, and the vortex generating device is controlled to operate at the first Three drive frequency work;

   Wherein, the second driving frequency is greater than the third driving frequency.
7. The air conditioner according to claim 6, wherein the processor is further configured to execute the computer program to realize:

   Controlling the compressor of the air conditioner to reduce the frequency based on the current operating speed being less than the first preset speed;

   Controlling the compressor of the air conditioner to increase the frequency based on the current operating speed being greater than the second preset speed;

   Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the compressor of the air conditioner to keep the current frequency unchanged.
8. The air conditioner according to any one of claims 2 to 7, wherein the processor is further configured to execute the computer program to implement the air supply mode based on the current operation mode, and the control station After describing the working steps of the vortex ring generator, it also includes:

   Acquiring the current operating speed of the fan;

   Based on that the current operating speed is less than a first preset speed, controlling the fan to run at the first preset speed;

   Based on the current operating speed being greater than the second preset speed, controlling the fan to run at the second preset speed;

   Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the fan to run at the current operating speed;

   Wherein, the first preset speed is less than the second preset speed.
9. The air conditioner according to any one of claims 5 to 8, wherein:

   The first preset rotation speed is 300 r/min to 600 r/min, and the second preset rotation speed is 900 r/min to 1200 r/min.
10. A control method of an air conditioner, the air conditioner includes a vortex ring generating device and a fan, the fan works to supply air to the vortex ring generating device, wherein the control method of the air conditioner includes:

    Acquiring the current operating mode of the air conditioner;

    The working state of the vortex ring generator is controlled according to the current operation mode.
11. The control method of an air conditioner according to claim 10, wherein the step of controlling the working state of the scroll generating device according to the current operating mode specifically includes:

    Judging whether the current operating mode is one of a cooling mode, a heating mode or an air supply mode;

    If yes, control the operation of the vortex ring generator;

    Otherwise, control the vortex ring generator to stop working.
12. The control method of an air conditioner according to claim 11, wherein the controlling the operation of the vortex ring generating device specifically includes:

    Acquiring the current operating speed of the fan based on whether the current operating mode is the cooling mode or the heating mode;

    According to the current operating speed, the operating speed of the fan is adjusted, and the operation of the vortex ring generator is controlled.
13. The air conditioner control method according to claim 12, wherein the step of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex generating device specifically includes:

    Based on the current operating speed being less than the first preset speed, the fan is controlled to increase the operating speed, and the vortex ring generator is controlled to operate at the first driving frequency.
14. The air conditioner control method according to claim 13, wherein the step of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex generating device specifically includes:

    Based on the current operating speed being greater than the second preset speed, controlling the fan to reduce the operating speed, and controlling the vortex ring generator to operate at the second driving frequency;

    Wherein, the first preset speed is less than the second preset speed;

    The first driving frequency is greater than the second driving frequency.
15. The air conditioner control method according to claim 14, wherein the step of adjusting the operating speed of the fan according to the current operating speed and controlling the operation of the vortex ring generating device specifically includes:

    Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, the fan is controlled to operate at the current operating speed, and the vortex generating device is controlled to operate at the first Three drive frequency work;

    Wherein, the second driving frequency is greater than the third driving frequency.
16. The control method of an air conditioner according to claim 15, further comprising:

    Controlling the compressor of the air conditioner to reduce the frequency based on the current operating speed being less than the first preset speed;

    Controlling the compressor of the air conditioner to increase the frequency based on the current operating speed being greater than the second preset speed;

    Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the compressor of the air conditioner to keep the current frequency unchanged.
17. The control method of an air conditioner according to any one of claims 11 to 16, wherein, based on the current operating mode being the air supply mode, after the step of controlling the operation of the scroll generating device, the method further comprises :

    Acquiring the current operating speed of the fan;

    Based on that the current operating speed is less than a first preset speed, controlling the fan to run at the first preset speed;

    Based on the current operating speed being greater than the second preset speed, controlling the fan to run at the second preset speed;

    Based on the current operating speed being greater than or equal to the first preset speed and less than or equal to the second preset speed, controlling the fan to run at the current operating speed;

    Wherein, the first preset speed is less than the second preset speed.
18. The control method of an air conditioner according to any one of claims 14 to 17, wherein:

    The first preset rotation speed is 300 r/min to 600 r/min, and the second preset rotation speed is 900 r/min to 1200 r/min.
19. A computer-readable storage medium having a computer program stored thereon, wherein when the computer program is executed by a processor, the steps of the air conditioner control method according to any one of claims 10 to 18 are realized.

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