CN114688701A - Control method and control device of air conditioner and air conditioner - Google Patents

Abstract

The invention provides a control method and a control device of an air conditioner and the air conditioner. The control method of the air conditioner comprises the following steps: receiving a trigger signal for starting refrigeration of an air conditioner; acquiring a refrigeration set temperature of an air conditioner; detecting the operating power of a computer in the environment in an air conditioner; and adjusting the refrigeration set temperature according to the operating power. According to the scheme, the intelligent interconnection of the air conditioner and the computer can be realized, an intelligent household appliance interconnection scene is provided, the use requirements of users are fully met, and the intelligent degree can be effectively improved; the air conditioner can automatically adjust the refrigeration set temperature according to the running power of the computer, and the use experience of a user is improved; under the condition that the running power of the computer is in a low-power range, the air conditioner is controlled to increase the refrigeration set temperature in a delayed mode, energy consumption can be effectively reduced, and the use experience of a user is further improved.

Description

Control method and control device of air conditioner and air conditioner

Technical Field

The invention relates to the technical field of intelligent control, in particular to a control method and a control device of an air conditioner and the air conditioner.

Background

With the social development and the continuous improvement of the living standard of people, the requirements of people on the living quality are higher and higher. People increasingly attach importance to the comfort of living environments, and the demands on environment-regulating devices in daily life or work are not limited to conventional functions only, but rather they are expected to be adjustable in various ways to the real-time needs of the users. The environment adjusting device can be a household electrical appliance such as an air conditioner for adjusting the ambient air parameter.

However, most current environment adjusting devices cannot well explain the concept of interconnecting other home devices due to their own function and structure limitations. For example, in the case of installing a computer and an air conditioner in an indoor environment, if a user plays a game or performs a drawing work after the computer is turned on in cold winter, components such as a CPU or a graphics card of the computer may operate in different power states, thereby generating heat and increasing the temperature of the indoor environment. The air conditioner at this moment often can not adjust the refrigeration state of the air conditioner according to the actual conditions at present, the intelligent degree is lower, the use requirements of users cannot be fully met, and the use experience of the users is influenced.

Disclosure of Invention

The invention aims to realize intelligent interconnection between an air conditioner and a computer and effectively improve the intelligent degree.

A further object of the present invention is to enable the air conditioner to automatically adjust the refrigeration setting temperature according to the operating power of the computer, thereby improving the user experience.

Particularly, the present invention provides a control method of an air conditioner, comprising: receiving a trigger signal for starting refrigeration of an air conditioner; acquiring a refrigeration set temperature of an air conditioner; detecting the operating power of a computer in the environment in an air conditioner; and adjusting the refrigeration set temperature according to the operating power.

Optionally, the operating power includes a high power range and a low power range, and the first preset power and the second preset power are in the low power range, and the first preset power is greater than the second preset power.

Optionally, the step of adjusting the refrigeration setting temperature according to the operation power comprises: judging whether the running power is in a low-power range; and if so, controlling the air conditioner to increase the refrigeration set temperature in a delayed manner.

Optionally, in the case that the operating power is the first preset power, the step of controlling the air conditioner to increase the cooling set temperature in a delayed manner includes: and controlling the air conditioner to increase the refrigeration set temperature by a first preset value after the computer operates for a first preset time according to the first preset power.

Optionally, in the case that the operating power is the second preset power, the step of controlling the air conditioner to increase the cooling set temperature in a delayed manner includes: and controlling the air conditioner to increase the refrigeration set temperature by a second preset value after the computer operates for a second preset time according to second preset power, wherein the second preset time is less than the first preset time, and the second preset value is greater than the first preset value.

Optionally, the method further comprises the following steps of while increasing the refrigeration set temperature: the swinging blade of the air conditioner is controlled to be opened to a preset angle, so that the air is delivered to the upper part of the computer.

Alternatively, the air conditioner is controlled to recover the set refrigeration temperature when the running power of the computer is detected to be changed from the low power range to the high power range.

Alternatively, the air conditioner is controlled to maintain the cooling set temperature constant in the case where the operation power is in the high power range.

According to another aspect of the present invention, there is also provided a control apparatus of an air conditioner, including: the air conditioner control device comprises a processor and a memory, wherein a control program is stored in the memory, and the control program is used for realizing the control method of the air conditioner when being executed by the processor.

According to another aspect of the invention, an air conditioner is also provided, which is provided with the control device of the air conditioner.

According to the control method, the control device and the air conditioner, the refrigeration set temperature of the air conditioner is obtained by receiving the trigger signal for starting refrigeration of the air conditioner, the running power of a computer in the environment in the air conditioner is detected, the refrigeration set temperature is adjusted according to the running power, intelligent interconnection of the air conditioner and the computer can be realized, an intelligent household appliance interconnection scene is provided, the use requirements of users are fully met, and the intelligent degree can be effectively improved.

Further, according to the control method and the control device of the air conditioner and the air conditioner, under the condition that the operation power is the first preset power, the air conditioner is controlled to increase the refrigeration set temperature by the first preset value after the computer operates for the first preset time according to the first preset power; under the condition that the operating power is second preset power, the air conditioner is controlled to increase the refrigeration set temperature by a second preset value after the computer operates for a second preset time according to the second preset power, wherein the second preset time is shorter than the first preset time, and the second preset value is larger than the first preset value, so that the air conditioner can automatically adjust the refrigeration set temperature according to the operating power of the computer, and the use experience of a user is improved; under the condition that the running power of the computer is in a low-power range, the air conditioner is controlled to increase the refrigeration set temperature in a delayed mode, energy consumption can be effectively reduced, and the use experience of a user is further improved.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic view of a control method of an air conditioner according to an embodiment of the present invention;

fig. 2 is a detailed flowchart of a control method of an air conditioner according to an embodiment of the present invention;

fig. 3 is a schematic block diagram of a control apparatus of an air conditioner according to an embodiment of the present invention; and

fig. 4 is a schematic structural diagram of an air conditioner and a computer according to an embodiment of the present invention.

Detailed Description

The embodiment firstly provides a control method of the air conditioner, which can realize intelligent interconnection between the air conditioner and a computer, provide a scene of intelligent household appliance interconnection, and improve the use experience of a user. Fig. 1 is a schematic view of a control method of an air conditioner according to an embodiment of the present invention. As shown in fig. 1, the control method of the air conditioner may include the steps of:

step S102, receiving a trigger signal for starting refrigeration of the air conditioner;

step S104, acquiring the refrigeration set temperature of the air conditioner;

step S106, detecting the running power of a computer in the air conditioner internal environment;

and step S108, adjusting the refrigeration set temperature according to the running power.

In the above steps, the step S102 receives a trigger signal for turning on cooling of the air conditioner and the step S104 obtains the cooling set temperature of the air conditioner, and specifically, the trigger signal may be received or the cooling set temperature may be obtained in many different ways. For example, a user may perform a related operation through a mobile terminal bound to an air conditioner, and after receiving a related instruction, the air conditioner side considers that a trigger signal is received or a set cooling temperature is obtained. That is, the user may start the cooling mode through the mobile terminal, or may set a specific cooling setting temperature through the mobile terminal. The mobile terminal may specifically be a smart device that is convenient to move, such as a smart phone and a smart tablet.

In other embodiments, the user may also perform similar operations through a display device provided by the air conditioner itself to start the cooling mode or set the cooling set temperature, and after receiving the related instruction, the air conditioner considers that the trigger signal is received or the cooling set temperature is obtained. Moreover, the operation of starting the refrigeration mode and the operation of setting the refrigeration set temperature by the user can be performed in the same or different modes, for example, the refrigeration mode and the refrigeration set temperature can be started and set sequentially through the mobile terminal; or refrigeration can be started and set in sequence through the display device; or refrigeration can be started through the mobile terminal, and the refrigeration set temperature is set through the display device; or refrigeration can be started through the display device, and the refrigeration set temperature is set through the mobile terminal. Generally, the user turns on the cooling mode, which indicates that the ambient temperature of the outdoor environment may be high, for example, in hot summer, and needs to cool the indoor environment.

And S106 and S108, detecting the operating power of a computer in the air conditioner internal environment, and adjusting the refrigeration set temperature according to the operating power. That is, in the case of turning on the cooling, the cooling set temperature is adjusted according to the operation power of the computer in the indoor environment. Instead of blindly controlling the air conditioner to start refrigeration according to the set refrigeration temperature immediately without distinction when refrigeration is started, so that the refrigeration state of the air conditioner can better accord with the actual situation of the indoor environment, and the energy consumption is reduced to a certain extent.

For example, in a preferred embodiment, the operating power in step S106 may include a high power range and a low power range. The step of adjusting the cooling set temperature according to the operation power at step S108 may include: judging whether the running power is in a low-power range; and if so, controlling the air conditioner to increase the refrigeration set temperature in a delayed manner. When the air conditioner is in a refrigeration mode, the air conditioner can save more than 10% of electric energy when the refrigeration set temperature of the air conditioner is increased by 2 ℃ every time. Therefore, when the running power of the computer is in a low-power range, the air conditioner is controlled to delay and raise the refrigeration set temperature, and the energy consumption can be effectively reduced. In a specific embodiment, if the cooling set temperature of the air conditioner obtained in step S104 is 24 ℃, after the computer is operated at low power for a period of time, the cooling set temperature may be increased by 24 ℃, for example, by 2 ℃, and the air conditioner is controlled to perform cooling with 26 ℃ as a new set value.

After the computer is turned on, when a user plays games or works in a drawing mode, components such as a CPU (central processing unit) or a display card of the computer work in different power states, heat is generated, and the indoor environment temperature is increased. Different operating powers of the computers generate different amounts of heat, which causes different increases in the indoor ambient temperature. Specifically, the higher the operating power of the computer, the more heat is generated, and the larger the amplitude of the rise of the indoor environment temperature is; the lower the operating power of the computer, the less heat is generated and the smaller the magnitude of the increase in the indoor ambient temperature. The set refrigeration temperature is set to be lower when a user starts the air conditioner for refrigeration, so that the temperature of the indoor environment is reduced as soon as possible. Therefore, after the air conditioner is operated in the cooling mode for a certain period of time, the user tends to feel cold, and the cooling setting temperature is usually required to be raised a little bit.

If a user sits in front of the computer, the heat generated when the computer is running at high power may prevent the user from feeling cold, and thus the adjustment of the cooling set temperature may not be needed. However, when the computer is operating in the low power range, the amount of heat generated may be negligible, and the user may feel cold more often sitting long before the computer, and therefore may need to adjust the cooling setting temperature to raise it appropriately to allow the air conditioner to provide less cooling. That is, under the condition that the air conditioner starts cooling, the lower the running power of the computer is, the less heat can be provided, so that the more easily the air conditioner feels cold after the air conditioner is cooled and operated for a period of time, the less cooling capacity needs to be provided by the air conditioner next, the larger the range of the set cooling temperature can be increased, the more urgent the demand for increasing the set cooling temperature is, and the shorter the delay time can be.

And if the running power of the computer is in a low-power range, controlling the air conditioner to delay and increase the set refrigeration temperature. The energy consumption of the air conditioner is reduced to a certain extent by increasing the refrigeration set temperature, and during the time delay, the computer runs at low power without accumulating a lot of heat, so that the cold feeling of the user caused by the lower refrigeration set temperature when the user starts to refrigerate is not influenced, the refrigeration set temperature is increased at the moment, the temperature of the indoor environment is slightly increased, and the comfort level experience of the user is met.

It should be noted that, if the operating power of the computer is in the low power range, the air conditioner may be controlled to delay raising the cooling set temperature. Therefore, it can be understood that, under the condition that the computer is turned off, the air conditioner can be controlled to increase the refrigeration set temperature in a delayed manner, and even the refrigeration set temperature can be directly increased after the computer is determined to be in the off state without delay, so that a new set value obtained after the refrigeration set temperature is increased better conforms to the condition of long-time refrigeration of the air conditioner, and a user can not feel cold quickly.

Under the condition that the running power of the computer is in a high-power range, the air conditioner can be controlled to keep the set refrigeration temperature unchanged. The computer runs at high power, generates more heat, causes the rise amplitude of the indoor environment temperature to be larger, and particularly, for a user sitting beside the computer, the user is not easy to feel cold due to the lower refrigeration set temperature when the user starts to refrigerate. The refrigeration set temperature can be directly kept unchanged at this time, and the refrigeration set temperature may not need to be adjusted on the level of adjusting the refrigeration set temperature according to the operating power of the computer.

In a word, the control method of the air conditioner of the embodiment obtains the refrigeration set temperature of the air conditioner by receiving the trigger signal for starting the refrigeration of the air conditioner, detects the running power of a computer in the environment in the air conditioner, adjusts the refrigeration set temperature according to the running power, can realize the intelligent interconnection of the air conditioner and the computer, provides a scene of intelligent household appliance interconnection, fully meets the use requirements of users, and can effectively improve the intelligent degree.

In some optional embodiments, the air conditioner capable of being interconnected with a computer can achieve a higher technical effect by further optimizing and configuring the above steps, and the control method of the air conditioner of this embodiment is described in detail below with reference to an optional execution flow of this embodiment, which is merely an example of the execution flow, and in a specific implementation, the execution sequence and the operation conditions of some steps may be modified according to specific implementation requirements. Fig. 2 is a detailed flowchart of a control method of an air conditioner according to an embodiment of the present invention, the control method of the air conditioner including the steps of:

step S202, receiving a trigger signal for starting refrigeration of the air conditioner;

step S204, acquiring the refrigeration set temperature of the air conditioner;

step S206, detecting the running power of a computer in the air conditioner internal environment;

step S208, judging whether the running power is in a low-power range, if so, executing step S210, and if not, executing step S212;

step S210, controlling the air conditioner to delay and raise the refrigeration set temperature;

and step S212, controlling the air conditioner to keep the set refrigeration temperature unchanged when the running power is in a high power range.

It should be noted that, a premise of implementing the scheme of adjusting the refrigeration set temperature of the air conditioner according to the operating power of the computer in this embodiment is that the air conditioner and the computer are interconnected, and specifically, a control device of the air conditioner may be disposed between the air conditioner and the computer, and the control device may receive signals sent by the air conditioner and the computer and may send signals to the air conditioner and the computer. The control device can be additionally and independently arranged, and can also be arranged in the air conditioner.

Step S206 detects the operating power of the computer in the air conditioner environment, and the computer can scan according to the preset frequency to determine the operating power timely and accurately. And the related information of the operating frequency can be sent to the control device for the control device to receive and acquire. It should be noted that the methods of the present embodiment and the above embodiments are described from the side of the control device, and the control device executes the relevant steps.

The operating power of the computer in step S206 may include a high power range and a low power range. Also, in a specific embodiment, the first predetermined power and the second predetermined power are in a low power range, and the first predetermined power is greater than the second predetermined power. And S208, judging whether the running power is in a low-power range, and if so, executing S210 to control the air conditioner to delay to increase the set refrigeration temperature.

The higher the running power of the computer is, the more heat is generated, and the larger the rise amplitude of the indoor environment temperature is; the lower the operating power of the computer, the less heat is generated and the smaller the magnitude of the increase in the indoor ambient temperature. The set refrigeration temperature is set to be lower when a user starts the air conditioner for refrigeration, so that the temperature of the indoor environment is reduced as soon as possible. Therefore, after the air conditioner is operated in the cooling mode for a certain period of time, the user tends to feel cold, and the cooling setting temperature is usually required to be raised a little bit.

If a user sits in front of the computer, the heat generated when the computer is running at high power may prevent the user from feeling cold, and thus the adjustment of the cooling set temperature may not be needed. However, when the computer is operating in the low power range, the amount of heat generated may be negligible, and the user may feel cold more often sitting long before the computer, and therefore may need to adjust the cooling setting temperature to raise it appropriately to allow the air conditioner to provide less cooling.

That is to say, under the condition that the air conditioner starts cooling, the lower the running power of the computer is, the less heat can be provided, so that the more easily the air conditioner feels cold after the air conditioner is cooled and operated for a period of time, the less cooling capacity the air conditioner needs to provide, the larger the range of the set cooling temperature can be increased, the more urgent the demand for increasing the set cooling temperature is, and the shorter the time delay can be. Therefore, even if the running power of the computer is in a low-power range, the specific time length value for the air conditioner to delay rise of the refrigeration set temperature is different and the specific value for rising of the refrigeration set temperature is different according to the specific size of the power value.

In the case that the operation power is the first preset power, the step S210 of controlling the air conditioner to increase the cooling set temperature in a delayed manner may include: and controlling the air conditioner to increase the refrigeration set temperature by a first preset value after the computer operates for a first preset time according to the first preset power. In the case that the operation power is the second preset power, the step S210 of controlling the air conditioner to increase the cooling set temperature in a delayed manner may include: and controlling the air conditioner to increase the refrigeration set temperature by a second preset value after the computer operates for a second preset time according to second preset power, wherein the second preset time is less than the first preset time, and the second preset value is greater than the first preset value.

One embodiment is described below: the high power range of the operating power of the computer may be 60% to 100% (60% included) and the low power range may be 0 to 60% (60% excluded). Then the air conditioner can be controlled to increase the cooling set temperature in a delayed manner when the operating power of the computer is in the low power range of 0 to 60% (excluding 60%). When the running power of the computer is in a high power range of 60-100 percent (including 60 percent), the air conditioner can be controlled to keep the set refrigeration temperature unchanged. The running power of the computer is 0, which indicates that the computer is in a shutdown state.

More specifically, the first preset power may be 50% and the second preset power may be 40%. If the refrigeration set temperature obtained in step S204 is 24 ℃, the air conditioner may be controlled to increase the refrigeration set temperature of 24 ℃ by a first preset value of 1 ℃ after the computer operates at the first preset power of 50% for a first preset time period of 60 minutes under the condition that the operating power of the computer is 50% of the first preset power. Under the condition that the operating power of the computer is 40% of the second preset power, the air conditioner can be controlled to increase the refrigeration set temperature of 24 ℃ by the second preset value of 1.5 ℃ after the computer operates for 50 minutes according to the second preset power of 40% for a second preset time.

This is mainly because the aforementioned situation that the lower the running power of the computer is, the less heat can be provided when the air conditioner starts to perform cooling, so that the more easily the air conditioner feels cold after a period of cooling operation, the less cooling capacity needs to be provided by the air conditioner next time, the larger the range of the set cooling temperature can be increased, the more urgent the demand for increasing the set cooling temperature is, and the shorter the delay time can be. Therefore, when the operating frequency of the computer is in a low frequency range, the higher the operating frequency is, the longer the preset duration for the air conditioner to delay rise of the refrigeration set temperature is, and the smaller the preset value for the rise of the refrigeration set temperature is; the lower the running frequency is, the shorter the preset time for the air conditioner to delay rise of the refrigeration set temperature is, and the larger the preset value for the rise of the refrigeration set temperature is.

In other embodiments, in the case that the operating power of the computer is 30%, the air conditioner may be controlled to increase the cooling set temperature by 24 ℃ by 2 ℃ after the computer is operated for 40 minutes at 30%. Under the condition that the operating power of the computer is 20%, the air conditioner can be controlled to increase the refrigeration set temperature of 24 ℃ by 2.5 ℃ after the computer operates for 30 minutes according to 20%. Under the condition that the running power of the computer is 10%, the air conditioner can be controlled to increase the refrigeration set temperature of 23 ℃ by 3 ℃ after the computer runs for 20 minutes according to 10%.

It should be noted that the specific values of the operating power, the preset time length and the preset value are only exemplary and are not limiting to the present invention. In other embodiments, the preset values may be set as other values according to actual conditions, but when the operating power needs to be in a low power range, the higher the operating frequency is, the longer the preset time for the air conditioner to delay and raise the refrigeration set temperature is, and the smaller the preset value for raising the refrigeration set temperature is; the lower the running frequency is, the shorter the preset time for the air conditioner to delay rise of the refrigeration set temperature is, and the larger the preset value for the rise of the refrigeration set temperature is. In a specific embodiment, an information table may be preset, and the information table stores corresponding relations between different operating powers and preset durations and preset values. By inquiring the information table, the preset duration and the preset value corresponding to the operation frequency can be matched and determined. Or, a related calculation formula or a calculation curve between the operating power and the preset time length and the preset value can be determined in advance according to experimental data, and the corresponding preset time length and the preset value can be determined in real time according to the operating power.

In a preferred embodiment, step S210 controls the air conditioner to increase the refrigeration set temperature in a delayed manner, and whether the operation power is the first preset power, the air conditioner is controlled to increase the refrigeration set temperature by the first preset value after the computer operates at the first preset power for the first preset time period; and under the condition that the running power is the second preset power, the air conditioner is controlled to increase the refrigeration set temperature by the second preset value after the computer runs for the second preset time according to the second preset power, and the swinging blade of the air conditioner can be controlled to be opened to a preset angle while the refrigeration set temperature is increased, so that the outlet air is sent to the upper part of the computer.

The swinging vane of the air conditioner is controlled to be opened to a preset angle while the refrigeration set temperature is increased, so that the outlet air is sent to the upper part of the computer, and a little heat generated by the area where the computer in low-power operation is located can be dissipated as soon as possible. This can prevent the user from being affected by a small amount of heat generated by the low power of the computer when the cooling capacity of the air conditioner to the indoor environment is reduced and the temperature of the indoor environment is raised after the cooling set temperature is raised.

In addition, under the condition that the running power of the computer is in a high-power range and the air conditioner keeps the refrigeration set temperature unchanged, the swinging blade of the air conditioner can be controlled to be opened to a preset angle, so that the outlet air is sent to the upper part of the computer, cold air can be directly sent to the upper part of the computer while the cold quantity provided by the air conditioner is kept unchanged, and more heat generated by the area where the computer running in the high-power range is located can be dissipated as soon as possible.

And no matter the computer is in the high power range or the low power range, the user is probably sitting in front of the computer, and blowing air to the upper part of the computer can also avoid blowing the user directly, so that the user can feel cool and avoid the occurrence of the conditions of cold and the like caused by blowing the user directly, and the use experience of the user is greatly improved. Also, in one embodiment, the computer may be a desktop computer, and more particularly, the computer may refer to a host of the desktop computer rather than a display screen of the desktop computer, because components generating heat are mainly concentrated inside the host when the desktop computer is in operation.

In a specific embodiment, the air conditioner may be controlled to recover the cooling set temperature when the operating power of the computer is detected to change from the low power range to the high power range. That is, when the previous operating power of the computer is in the low power range, the air conditioner is controlled to delay the increase of the cooling set temperature, and now the operating power of the computer is changed from the low power range to the high power range, so that the previous increased cooling set temperature can be recovered, and the cooling set temperature set by the user and initially obtained in step S204 is recovered. For example, if the refrigeration set temperature obtained in step S204 is 24 ℃, the refrigeration set temperature 24 ℃ is delayed to be increased, for example, increased by 2 ℃ to be a new set value of 26 ℃, because the computer is operated in the low power range. Then, when the computer is changed from the low power range to the high power range, the air conditioner can be controlled to restore the originally acquired refrigeration set temperature to 24 ℃.

Because the operation power of the computer includes a high power range and a low power range, according to the execution sequence of the above steps, step S208 determines whether the operation power is in the low power range, and if not, it can be accurately determined that the operation power is in the high power range, that is, step S212 is executed, the operation power is in the high power range, and the air conditioner is controlled to keep the set refrigeration temperature unchanged. That is, under the condition of starting refrigeration, if the running power of the computer is in a high power range, the air conditioner is controlled to keep the set refrigeration temperature unchanged. For example, if the cooling set temperature obtained in step S204 is 24 ℃, the air conditioner may be controlled to maintain the cooling set temperature at 24 ℃ when the operating power of the computer is in the high power range.

After the air conditioner is controlled to maintain the set cooling temperature unchanged in step S212, the air conditioner may be controlled to perform cooling according to the set cooling temperature that is maintained unchanged. For example, if the cooling set temperature obtained in step S204 is 24 ℃, the air conditioner may be controlled to perform cooling according to the cooling set temperature of 24 ℃ while keeping the cooling set temperature of 24 ℃ when the computer is operating in the high power range.

After the air conditioner is controlled to increase the refrigeration set temperature in a delayed manner in step S210, the air conditioner may be controlled to perform refrigeration according to a new set value obtained after the refrigeration set temperature is increased in a delayed manner. For example, if the cooling set temperature obtained in step S204 is 24 ℃, the cooling set temperature is raised by 24 ℃ in a delayed manner when the computer is operating in the low power range, and if the cooling set temperature is raised by 2 ℃ in a delayed manner and becomes 26 ℃ which is the new set value, the air conditioner may be controlled to perform cooling according to the 26 ℃ which is the new set value. However, it is necessary to perform cooling at 26 ℃ after a delay, and during this time of the delay, cooling is performed at 24 ℃ as the cooling set temperature.

In summary, in the control method of the air conditioner of the embodiment, under the condition that the operation power is the first preset power, the air conditioner is controlled to increase the refrigeration set temperature by the first preset value after the computer operates for the first preset time period according to the first preset power; under the condition that the operating power is second preset power, controlling the air conditioner to increase the refrigeration set temperature by a second preset value after the computer operates for a second preset time according to the second preset power, wherein the second preset time is shorter than the first preset time, and the second preset value is larger than the first preset value, so that the air conditioner can automatically adjust the refrigeration set temperature according to the operating power of the computer, and the use experience of a user is improved; under the condition that the running power of the computer is in a low-power range, the air conditioner is controlled to increase the refrigeration set temperature in a delayed mode, energy consumption can be effectively reduced, and the use experience of a user is further improved.

Fig. 3 is a schematic block diagram of a control device 300 of an air conditioner according to an embodiment of the present invention, and fig. 4 is a schematic architecture diagram of an air conditioner and a computer according to an embodiment of the present invention. As shown in fig. 3, the control device 300 may include: the processor 310 and the memory 320, the memory 320 stores a control program 321, and the control program 321 is executed by the processor 310 to implement any of the above-described control methods of the air conditioner.

In a specific embodiment, the control device 300 is in data connection with the air conditioner 100 and the computer 200, and may be configured with network-side devices such as a server and a cloud, and obtain various data of the set space through the network, and implement adjustment of the environment of the set space by sending a command to the air conditioner 100 and the computer 200 remotely.

The control device 300 may be various centralized control devices, arranged in a set space, and controls the air conditioner 100 and the computer 200. The data connection mode between the control device 300 and the air conditioner 100 and the computer 200 includes, but is not limited to, wireless transmission, infrared transmission, ultrasonic transmission, and the like. In some embodiments, the control device 300 may also be a part of the air conditioner 100, disposed inside the air conditioner 100, and connected to the controller of the air conditioner 100, for example, the air conditioner 100 is provided with a dedicated control device 300 inside, and cooperates with a controller dedicated to control the components.

The processor 310 may be a Central Processing Unit (CPU), a digital processing unit, or the like. The processor 310 transmits and receives data through the communication interface. The memory 320 is used to store programs executed by the processor 310. The memory 320 is any medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, or a combination of multiple memories 320. The control program 321 may be downloaded from a computer-readable storage medium to a corresponding computing/processing device or downloaded and installed to the control apparatus 300 via a network (e.g., the internet, a local area network, a wide area network, and/or a wireless network).

As shown in fig. 4, the air conditioner 100 and the computer 200 may be disposed in the same indoor environment, so that the temperature of the same indoor environment is adjusted after the cooling set temperature of the air conditioner 100 is adjusted according to the operation power of the computer 200, thereby avoiding adjusting other indoor environments that do not affect the computer 200. Also, in one embodiment, the air conditioner 100 and the computer 200 may be in the same Wi-Fi environment.

In a preferred embodiment, the air conditioner 100 has the control device 300 of the air conditioner described above. That is, in this preferred embodiment, the control device 300 may be provided inside the air conditioner 100 as a part of the air conditioner 100, and be in data connection with the controller of the air conditioner 100 itself, for example, the air conditioner 100 is provided with a dedicated control device 300 inside, and is operated in cooperation with a controller dedicated to performing component control.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A control method of an air conditioner, comprising:

receiving a trigger signal for starting refrigeration of the air conditioner;

acquiring a refrigeration set temperature of the air conditioner;

detecting the operating power of a computer in the environment in the air conditioner; and

and adjusting the refrigeration set temperature according to the running power.

2. The method of claim 1, wherein,

the operating power includes a high power range and a low power range, and

the first preset power and the second preset power are in the low power range, and the first preset power is larger than the second preset power.

3. The method of claim 2, wherein adjusting the refrigeration set point temperature based on the operating power comprises:

judging whether the running power is in the low-power range; and

and if so, controlling the air conditioner to increase the refrigeration set temperature in a delayed manner.

4. The method of claim 3, wherein,

under the condition that the running power is the first preset power, the step of controlling the air conditioner to increase the refrigeration set temperature in a delayed mode comprises the following steps: and controlling the air conditioner to increase the refrigeration set temperature by a first preset value after the computer operates for a first preset time according to the first preset power.

5. The method of claim 4, wherein,

under the condition that the running power is the second preset power, the step of controlling the air conditioner to increase the refrigeration set temperature in a delayed mode comprises the following steps: and controlling the air conditioner to increase the refrigeration set temperature by a second preset value after the computer operates for a second preset time according to the second preset power, wherein the second preset time is shorter than the first preset time, and the second preset value is larger than the first preset value.

6. The method of claim 4 or 5,

the method also comprises the following steps of increasing the refrigeration set temperature: and controlling the swinging blade of the air conditioner to be opened to a preset angle so as to enable the outlet air to be sent to the upper part of the computer.

7. The method of claim 6, wherein,

and controlling the air conditioner to recover the set refrigeration temperature under the condition of detecting that the running power of the computer is changed from the low-power range to the high-power range.

8. The method of claim 2, wherein,

and controlling the air conditioner to keep the refrigeration set temperature unchanged under the condition that the operating power is in the high-power range.

9. A control apparatus of an air conditioner, comprising: a processor, and a memory in which a control program is stored, the control program being executed by the processor to implement the control method of the air conditioner according to any one of claims 1 to 8.

10. An air conditioner having the control device of the air conditioner according to claim 9.

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