CN110749048A

CN110749048A - Method for controlling air conditioner

Info

Publication number: CN110749048A
Application number: CN201911039239.9A
Authority: CN
Inventors: 连彩云; 吴俊鸿; 李建建; 周金声; 何博; 廖敏; 夏光辉; 梁博; 王现林; 陶梦春
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-02-04
Anticipated expiration: 2039-10-29
Also published as: CN110749048B

Abstract

The invention discloses a method for controlling an air conditioner. Wherein, the method comprises the following steps: acquiring the staying time of a user in a target space; judging whether the residence time reaches a preset residence time or not; and controlling the current operation mode of the air conditioner in the target space based on the judgment result. The invention solves the technical problem that the operation mode of the air conditioner can not be intelligently controlled according to the time length of a user in an air conditioning room in the prior art.

Description

Method for controlling air conditioner

Technical Field

The invention relates to the technical field of control, in particular to a method for controlling an air conditioner.

Background

The air conditioner has become the common household electrical appliance of thousands of households, in the process of using the air conditioner to adjust the room temperature, the time of a user in an air-conditioned room is short, the heat adaptability of the body of the user is different, the experience of the user just entering the room at the same indoor temperature is different from the experience of the user waiting for a period of time (the user feels cold during cooling and heat during heating), namely, the operation mode of the air conditioner can not be intelligently controlled according to the time of the user in the air-conditioned room in the prior art, and the user experience of the user for temperature adjustment by using the air conditioner is poor.

In view of the above problems, no effective solution has been proposed.

Disclosure of Invention

The embodiment of the invention provides a method for controlling an air conditioner, which at least solves the technical problem that the operation mode of the air conditioner cannot be intelligently controlled according to the time of a user in an air-conditioned room in the prior art.

According to an aspect of an embodiment of the present invention, there is provided a method of controlling an air conditioner, including: acquiring the staying time of a user in a target space; judging whether the residence time reaches a preset residence time or not; and controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Further, before controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further includes: detecting whether the target space is in a thermal equilibrium state; and if the target space is detected to be in the thermal balance state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Further, detecting whether the target space is in a thermal equilibrium state includes: detecting the indoor environment temperature value of the target space; determining a first difference value between the indoor environment temperature value and a set temperature value; judging whether the first difference is smaller than or equal to a target difference; if the first difference is less than or equal to the target difference, determining that the target space is in the thermal equilibrium state.

Further, detecting whether the target space is in a thermal equilibrium state includes: acquiring the indoor environment temperature variation of the target space; judging whether the indoor environment temperature variation is smaller than or equal to a target variation; and if the indoor environment temperature variation is smaller than or equal to a target variation, determining that the target space is in the thermal equilibrium state.

Further, acquiring the indoor ambient temperature variation of the target space includes: detecting the indoor environment temperature value of the target space at preset time intervals; the indoor environment temperature variation amount is determined based on a plurality of detected indoor environment temperature values.

Further, before obtaining the staying time of the user in the target space, the method further includes: monitoring whether the user enters the target space through an intelligent sensor, wherein the intelligent sensor comprises at least one of the following components: infrared sensors, pyroelectric sensors; and if the user enters the target space, starting to record the staying time of the user in the target space.

Further, controlling the current operation mode of the air conditioner in the target space based on the judgment result comprises: and if the judgment result indicates that the staying time reaches the preset staying time, controlling the current operation mode of the air conditioner according to the staying time.

Further, when the current operation mode is a cooling mode, controlling the current operation mode of the air conditioner according to the staying time includes: detecting a set temperature value of the air conditioner; if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the air conditioner to increase the target temperature value in the refrigeration mode at preset time intervals until the target temperature value reaches the first target temperature value; and if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the second target temperature value.

Further, if the set temperature value is greater than a fourth temperature value, the air conditioner is controlled to execute the cooling mode based on the set temperature value.

Further, when the current operation mode is a heating mode, controlling the current operation mode of the air conditioner according to the stay time includes: detecting a set temperature value of the air conditioner; if the set temperature value is greater than or equal to a fifth temperature value and the set temperature value is less than or equal to a sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a third target temperature value; if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value; and if the set temperature value is greater than a ninth temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to be reduced at preset time intervals until the target temperature value reaches a fifth target temperature value.

Further, if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, the air conditioner is controlled to execute the heating mode based on the set temperature value.

Further, when the current operation mode is the wind sweeping mode, the current operation mode of the air conditioner is controlled according to the stay time, and the control method comprises at least one of the following steps: controlling the air conditioner to continuously execute left-right air sweeping and/or up-down air sweeping; controlling the air conditioner to execute left-right air sweeping for a first preset number of times and/or up-down air sweeping for a second preset number of times at preset air sweeping intervals; and controlling the air deflector of the air conditioner to reach the target position.

Further, controlling the current operation mode of the air conditioner according to the staying time includes: controlling the air outlet temperature value of the air conditioner to keep dynamic change, wherein the dynamic change comprises at least one of the following: first rising and then falling, and first falling and then rising.

Further, after controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further includes: monitoring whether the user leaves the target space through an intelligent sensor, wherein the intelligent sensor comprises at least one of the following components: infrared sensors, pyroelectric sensors; if the user leaves the target space, starting to record the leaving time of the user leaving the target space; judging whether the leaving time reaches the preset leaving time or not; and if the leaving time reaches the preset leaving time, re-monitoring whether the user enters the target space.

According to another aspect of the embodiments of the present invention, there is also provided a storage medium including a stored program, wherein when the program is executed, the apparatus on which the storage medium is controlled performs any one of the above methods for controlling an air conditioner.

According to another aspect of the embodiments of the present invention, there is also provided a processor, configured to execute a program, where the program executes any one of the above methods for controlling an air conditioner.

In the embodiment of the invention, the method adopts intelligent regulation and dynamic control modes, and the staying time of a user in a target space is obtained; judging whether the residence time reaches a preset residence time or not; the current operation mode of the air conditioner in the target space is controlled based on the judgment result, and the purpose of intelligently controlling the air conditioner according to the time length of the user in the air conditioning room is achieved, so that the intelligence and pertinence of the air conditioner for adjusting the room temperature are improved, the technical effect of user experience sense is enhanced, and the technical problem that the operation mode of the air conditioner cannot be intelligently controlled according to the time length of the user in the air conditioning room in the prior art is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a flowchart of a method of controlling an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an alternative controlled air conditioner according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an alternative controlled air conditioner according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of yet another alternative controlled air conditioner according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of yet another alternative control air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an apparatus for controlling an air conditioner according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

In accordance with an embodiment of the present invention, there is provided an embodiment of a method for controlling an air conditioner, wherein the steps illustrated in the flowchart of the figure may be performed in a computer system, such as a set of computer executable instructions, and wherein, although a logical order is illustrated in the flowchart, in some cases, the steps illustrated or described may be performed in an order different than that illustrated herein.

Fig. 1 is a flowchart of a method of controlling an air conditioner according to an embodiment of the present invention, as shown in fig. 1, the method including the steps of:

step S102, obtaining the staying time of a user in a target space;

step S104, judging whether the residence time reaches the preset residence time;

and step S106, controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, an air conditioner is disposed in the target space, and the target space is a room in which the air conditioner is disposed; the stay time is the stay time of the user in the target space; the current operation mode includes at least one of: a cooling mode, a heating mode, a sweeping mode, and the like.

It should be noted that, the preset retention time may be, but is not limited to, preset by a user, or preset when the air conditioner leaves a factory, and a value of the preset retention time is not specifically limited in this embodiment of the application; alternatively, the predetermined residence time may be set to 0 to 6 hours, but is not limited thereto.

In an optional embodiment, if it is determined that the staying time reaches the predetermined staying time, air conditioning parameters such as an indoor target temperature, an air outlet temperature or an inner tube temperature, and a wind sweep are controlled or corrected according to the staying time of the user in the target space.

In an optional embodiment, before controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further includes:

step S202, detecting whether the target space is in a thermal equilibrium state;

step S204, if it is detected that the target space is in the thermal equilibrium state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the determination result.

In the above optional embodiment, to improve the control accuracy and intelligence, after determining that the staying time reaches the predetermined staying time, it may further be detected whether the target space is in a thermal equilibrium state (for example, when the indoor environment temperature value approaches the set temperature value or when detecting that the indoor temperature variation is small), and when determining that the staying time reaches the predetermined staying time and the target space is in the thermal equilibrium state, the current operation mode of the air conditioner in the target space is controlled.

In an alternative embodiment, the detecting whether the target space is in a thermal equilibrium state includes:

step S302, detecting the indoor environment temperature value of the target space;

step S304, determining a first difference value between the indoor environment temperature value and a set temperature value;

step S306, judging whether the first difference is smaller than or equal to a target difference;

in step S308, if the first difference is smaller than or equal to the target difference, it is determined that the target space is in the thermal equilibrium state.

Optionally, in this embodiment of the application, if the first difference between the indoor environment temperature value and the set temperature value is less than or equal to the target difference, it may be determined that the indoor environment temperature value is close to the set temperature value, that is, it is determined that the target space is in the thermal equilibrium state.

|ΔT_{First difference value}|＝|T_{Set temperature value}-(T_{Indoor ambient temperature value}-ΔT_Compensation)|≤ΔT_{Target difference}；

Wherein, Delta T_Compensation∈[-5℃，5℃]，ΔT_{Target difference}∈[0℃，3℃]。

step S402, acquiring indoor environment temperature variation of the target space;

step S404, judging whether the indoor environment temperature variation is smaller than or equal to a target variation;

in step S406, if the indoor ambient temperature variation is smaller than or equal to a target variation, it is determined that the target space is in the thermal equilibrium state.

In an optional embodiment, in step S402, the obtaining the indoor ambient temperature variation of the target space includes:

step S4020, detecting indoor environment temperature values of the target space at preset time intervals;

in step S4022, the indoor environment temperature change amount is determined based on the plurality of detected indoor environment temperature values.

Optionally, the target variation is E < -2 ℃ and 2 ℃; detecting an indoor environment temperature value of the target space every predetermined time interval, and determining the indoor environment temperature variation based on a plurality of detected indoor environment temperature values; the monitoring may be, but not limited to, continuously performed n times, and if the indoor ambient temperature variation is smaller than or equal to a target variation, it is determined that the target space is in the thermal equilibrium state.

In an optional embodiment, before obtaining the staying time of the user in the target space, the method further includes:

step S502, monitoring whether the user enters the target space through an intelligent sensor, wherein the intelligent sensor includes at least one of the following: infrared sensors, pyroelectric sensors;

step S504, if it is monitored that the user enters the target space, beginning to record the staying time of the user in the target space.

Optionally, but not limited to, starting to record the staying time of the user in the target space from the time of turning on the air conditioner.

In an alternative embodiment, the controlling the current operation mode of the air conditioner in the target space based on the determination result includes: and if the judgment result indicates that the staying time reaches the preset staying time, controlling the current operation mode of the air conditioner according to the staying time.

Because the length of the stay time has different influences on the user experience, the current operation mode of the air conditioner can be controlled according to the stay time under the condition that the judgment result indicates that the stay time reaches the preset stay time.

In an optional embodiment, in a case that the current operation mode is a cooling mode, controlling the current operation mode of the air conditioner according to the staying time includes:

step S602, detecting the set temperature value of the air conditioner;

step S604, if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the target temperature value of the air conditioner in the cooling mode to increase at predetermined time intervals until the target temperature value reaches the first target temperature value;

step S606, if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the cooling mode to increase at predetermined time intervals until the target temperature value reaches the second target temperature value.

Optionally, the first temperature value may be 16 deg.C, when T is more than or equal to 16 deg.C_{Set temperature value}≤T_{Second temperature value}If so, controlling the air conditioner to increase the target temperature value in the refrigeration mode at preset time intervals until the target temperature value reaches a first target temperature value; wherein, T_{Second temperature value}∈[16℃，24℃]，T_{Third temperature value}∈[20℃，26℃]The predetermined time interval is ∈ [0, 120min ]]The corrected temperature value for controlling the air conditioner to raise at preset time interval belongs to 0 deg.c and 4 deg.c],T_{First target temperature value}∈[16℃，24℃],T_{Second target temperature value}∈[20℃，26℃]。

In an alternative embodiment, in the case that the current operation mode is the cooling mode, the process of controlling the air conditioner to increase the target temperature value in the cooling mode may be, but is not limited to, as shown in fig. 2, and the target temperature value in fig. 2 may be a first target temperature value or a second target temperature value; the correction start time point is a time point at which the air conditioner starts to be controlled to increase the target temperature value in the cooling mode.

It should be noted that, in the embodiment of the present application, the first temperature value is less than or equal to the second temperature value, and the second temperature value is less than or equal to the third temperature value; the first target temperature value is less than or equal to the second target temperature value.

In an optional embodiment, if the set temperature value is greater than a fourth temperature value, the air conditioner is controlled to execute the cooling mode based on the set temperature value.

It should be noted that, in the embodiment of the present application, the third temperature value is less than or equal to the fourth temperature value, and the fourth temperature value may be 28 ℃.

In the embodiment of the application, the target temperature value of the air conditioner in the refrigeration mode is controlled to be increased at intervals of preset time, and the corrected temperature value can be directly increased at intervals of time; and the uniform dynamic correction can also be carried out according to time, and the corrected temperature value can be increased every time or the non-uniform dynamic correction can be carried out.

In an optional embodiment, in a case that the current operation mode is a heating mode, controlling the current operation mode of the air conditioner according to the staying time includes:

step S702, detecting the set temperature value of the air conditioner;

step S704, if the set temperature value is greater than or equal to the fifth temperature value and the set temperature value is less than or equal to the sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to increase at predetermined time intervals until the target temperature value reaches a third target temperature value.

Step S706, if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value;

in step S708, if the set temperature value is greater than the ninth temperature value, the target temperature value of the air conditioner in the cooling mode is controlled to decrease at predetermined time intervals until the set temperature value reaches a fifth target temperature value.

Optionally, the fifth temperature value may be 16 ℃, when T is more than or equal to 16 ℃ ≦ T_{Set temperature value}≤T_{Sixth temperature value}When the temperature reaches the third aim, the air conditioner is controlled to increase the target temperature value under the heating mode at preset time intervals until the third aim is reachedA target temperature value; wherein, T_{Sixth temperature value}∈[16℃，24℃]，T_{A seventh temperature value}∈[20℃，26℃]，T_{Eighth temperature value}∈[20℃，26℃]The ninth temperature value may be 28 ℃, and the predetermined time interval e [0, 120min ]]The corrected temperature value for controlling the air conditioner to raise at preset time interval belongs to 0 deg.c and 4 deg.c],T_{Third target temperature value}∈[16℃，24℃],T_{Fourth target temperature value}∈[20℃，26℃],T_{Fifth target temperature value}∈[20℃，26℃]。

It should be noted that, in the embodiment of the present application, the fifth temperature value is less than or equal to the sixth temperature value, and the sixth temperature value is less than or equal to the seventh temperature value; the seventh temperature value is less than or equal to the eighth temperature value; the eighth temperature value is less than or equal to the ninth temperature value; the third target temperature value is less than or equal to the fourth target temperature value; the fourth target temperature value is less than or equal to the fifth target temperature value.

In an alternative embodiment, in the case that the current operation mode is the heating mode, the process of controlling the air conditioner to increase the target temperature value in the heating mode may be, but is not limited to, as shown in fig. 2, and the target temperature value in fig. 2 may be a third target temperature value or a fourth target temperature value; the correction start time point is a time point at which the air conditioner starts to be controlled to increase the target temperature value in the heating mode.

In an alternative embodiment, in the case that the current operation mode is the heating mode, the process of controlling the air conditioner to decrease the target temperature value in the heating mode may be, but is not limited to, as shown in fig. 3, and the target temperature value in fig. 3 may be a fifth target temperature value; the correction start time point is a time point at which the air conditioner starts to be controlled to increase the target temperature value in the heating mode.

In an optional embodiment, if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, the air conditioner is controlled to execute the heating mode based on the set temperature value.

It should be noted that, in the embodiment of the present application, the tenth temperature value is less than or equal to the eleventh temperature value, and is ∈ [23 ℃, 28 ℃).

In the embodiment of the application, the target temperature value of the air conditioner in the heating mode is controlled to be increased or decreased at intervals of preset time, and the corrected temperature value can be directly increased at intervals; and the uniform dynamic correction can also be carried out according to time, and the corrected temperature value can be increased every time or the non-uniform dynamic correction can be carried out.

In an optional embodiment, in a case that the current operation mode is a wind sweeping mode, controlling the current operation mode of the air conditioner according to the staying time includes at least one of:

step S802, controlling the air conditioner to continuously execute left-right air sweeping and/or up-down air sweeping;

step S804, controlling the air conditioner to execute left-right wind sweeping for a first preset number of times and/or up-down wind sweeping for a second preset number of times at preset wind sweeping intervals;

step S806, controlling the air deflector of the air conditioner to reach a target position.

Optionally, the first predetermined number of times and the second predetermined number of times are both integers greater than zero, and may be, for example, but not limited to, 3 times, 5 times, and the like.

In an alternative embodiment, the controlling the current operation mode of the air conditioner according to the staying time includes:

step S902, controlling the outlet air temperature value of the air conditioner to keep dynamically changing, wherein the dynamically changing includes at least one of: first rising and then falling, and first falling and then rising.

Optionally, in step S902, the current operation mode of the air conditioner may be a cooling mode or a heating mode.

In an alternative embodiment, the process of controlling the dynamic change of the outlet air temperature value of the air conditioner in the heating mode may be, but is not limited to, as shown in fig. 4, and the process of controlling the outlet air temperature value of the air conditioner in the cooling mode to keep changing dynamically, and may be, but is not limited to, as shown in fig. 5, the time point of starting the correction in fig. 4 and 5, that is, the time point of starting to control the change of the outlet air temperature value of the air conditioner.

Optionally, in this embodiment of the application, the outlet air temperature value of [0 ℃, 15 ℃) may be increased or decreased, and the outlet air temperature value of the air conditioner is controlled to maintain a dynamic change, for example, the outlet air temperature value is subjected to wave type/stage type control, and the outlet air temperature value of the air conditioner is maintained to dynamically change, where the temperature amplitude of each increase of the outlet air temperature value may be the same or different, and may be directly corrected once at intervals or dynamically corrected at a certain speed according to time.

In an optional embodiment, after controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further includes:

step S1002, monitoring whether the user leaves the target space through an intelligent sensor, wherein the intelligent sensor includes at least one of: infrared sensors, pyroelectric sensors;

step S1004, if it is monitored that the user leaves the target space, starting to record the leaving time of the user leaving the target space;

step S1006, judging whether the leaving time reaches the preset leaving time;

step S1008, if the leaving time reaches the predetermined leaving time, re-monitoring whether the user enters the target space.

Alternatively, the predetermined departure time may be set to, but is not limited to, 0-120 minutes.

As an alternative embodiment, it may be determined whether the user enters the target space again when the air conditioner is not turned off and the leaving time reaches the predetermined leaving time.

Example 2

According to an embodiment of the present invention, there is also provided an apparatus for implementing the method for controlling an air conditioner, fig. 6 is a schematic structural diagram of an apparatus for controlling an air conditioner according to an embodiment of the present invention, and as shown in fig. 6, the apparatus for controlling an air conditioner includes: an obtaining module 60, a judging module 62 and a control module 64, wherein:

an obtaining module 60, configured to obtain a staying time of the user in the target space; a judging module 62, configured to judge whether the retention time reaches a predetermined retention time; and a control module 64 for controlling the current operation mode of the air conditioner in the target space based on the judgment result.

It should be noted that the above modules may be implemented by software or hardware, for example, for the latter, the following may be implemented: the modules can be located in the same processor; alternatively, the modules may be located in different processors in any combination.

It should be noted that the acquiring module 60, the determining module 62 and the control module 64 correspond to steps S102 to S106 in embodiment 1, and the modules are the same as the corresponding steps in the implementation example and the application scenario, but are not limited to the disclosure in embodiment 1. It should be noted that the modules described above may be implemented in a computer terminal as part of an apparatus.

It should be noted that, reference may be made to the relevant description in embodiment 1 for alternative or preferred embodiments of this embodiment, and details are not described here again.

The above-mentioned device for controlling an air conditioner may further include a processor and a memory, and the above-mentioned obtaining module 60, the judging module 62, the control module 64, and the like are all stored in the memory as program units, and the processor executes the above-mentioned program units stored in the memory to implement the corresponding functions.

The processor comprises a kernel, and the kernel calls a corresponding program unit from the memory, wherein one or more than one kernel can be arranged. The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.

According to the embodiment of the application, the embodiment of the storage medium is also provided. Optionally, in this embodiment, the storage medium includes a stored program, and the device on which the storage medium is located is controlled to execute any one of the above methods for controlling the air conditioner when the program runs.

Optionally, in this embodiment, the storage medium may be located in any one of a group of computer terminals in a computer network, or in any one of a group of mobile terminals, and the storage medium includes a stored program.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: acquiring the staying time of a user in a target space; judging whether the residence time reaches a preset residence time or not; and controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: detecting whether the target space is in a thermal equilibrium state; and if the target space is detected to be in the thermal balance state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: detecting the indoor environment temperature value of the target space; determining a first difference value between the indoor environment temperature value and a set temperature value; judging whether the first difference is smaller than or equal to a target difference; if the first difference is less than or equal to the target difference, determining that the target space is in the thermal equilibrium state.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: acquiring the indoor environment temperature variation of the target space; judging whether the indoor environment temperature variation is smaller than or equal to a target variation; and if the indoor environment temperature variation is smaller than or equal to a target variation, determining that the target space is in the thermal equilibrium state.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: detecting the indoor environment temperature value of the target space at preset time intervals; the indoor environment temperature variation amount is determined based on a plurality of detected indoor environment temperature values.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: monitoring whether the user enters the target space through an intelligent sensor, wherein the intelligent sensor comprises at least one of the following components: infrared sensors, pyroelectric sensors; and if the user enters the target space, starting to record the staying time of the user in the target space.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: and if the judgment result indicates that the staying time reaches the preset staying time, controlling the current operation mode of the air conditioner according to the staying time.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: detecting a set temperature value of the air conditioner; if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the air conditioner to increase the target temperature value in the refrigeration mode at preset time intervals until the target temperature value reaches the first target temperature value; and if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the second target temperature value.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: and if the set temperature value is greater than a fourth temperature value, controlling the air conditioner to execute the refrigeration mode based on the set temperature value.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: detecting a set temperature value of the air conditioner; if the set temperature value is greater than or equal to a fifth temperature value and the set temperature value is less than or equal to a sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a third target temperature value; if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value; and if the set temperature value is greater than a ninth temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to be reduced at preset time intervals until the target temperature value reaches a fifth target temperature value.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: and if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, controlling the air conditioner to execute the heating mode based on the set temperature value.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: controlling the air conditioner to continuously execute left-right air sweeping and/or up-down air sweeping; controlling the air conditioner to execute left-right air sweeping for a first preset number of times and/or up-down air sweeping for a second preset number of times at preset air sweeping intervals; and controlling the air deflector of the air conditioner to reach the target position.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: controlling the air outlet temperature value of the air conditioner to keep dynamic change, wherein the dynamic change comprises at least one of the following: first rising and then falling, and first falling and then rising.

Optionally, the program controls the device on which the storage medium is located to perform the following functions when running: monitoring whether the user leaves the target space through an intelligent sensor, wherein the intelligent sensor comprises at least one of the following components: infrared sensors, pyroelectric sensors; if the user leaves the target space, starting to record the leaving time of the user leaving the target space; judging whether the leaving time reaches the preset leaving time or not; and if the leaving time reaches the preset leaving time, re-monitoring whether the user enters the target space.

According to the embodiment of the application, the embodiment of the processor is also provided. Optionally, in this embodiment, the processor is configured to run a program, where the program is run to execute any one of the above methods for controlling an air conditioner.

The embodiment of the application provides equipment, the equipment comprises a processor, a memory and a program which is stored on the memory and can run on the processor, and the following steps are realized when the processor executes the program: acquiring the staying time of a user in a target space; judging whether the residence time reaches a preset residence time or not; and controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, when the processor executes a program, it may further detect whether the target space is in a thermal equilibrium state; and if the target space is detected to be in the thermal balance state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, when the processor executes a program, an indoor environment temperature value of the target space may also be detected; determining a first difference value between the indoor environment temperature value and a set temperature value; judging whether the first difference is smaller than or equal to a target difference; if the first difference is less than or equal to the target difference, determining that the target space is in the thermal equilibrium state.

Optionally, when the processor executes a program, the indoor ambient temperature variation of the target space may also be obtained; judging whether the indoor environment temperature variation is smaller than or equal to a target variation; and if the indoor environment temperature variation is smaller than or equal to a target variation, determining that the target space is in the thermal equilibrium state.

Optionally, when the processor executes a program, the processor may further detect an indoor ambient temperature value of the target space every predetermined time interval; the indoor environment temperature variation amount is determined based on a plurality of detected indoor environment temperature values.

Optionally, when the processor executes the program, it may further monitor whether the user enters the target space through an intelligent sensor, where the intelligent sensor includes at least one of: infrared sensors, pyroelectric sensors; and if the user enters the target space, starting to record the staying time of the user in the target space.

Optionally, when the processor executes a program, if the determination result indicates that the staying time reaches the predetermined staying time, the current operation mode of the air conditioner may be controlled according to the staying time.

Optionally, when the processor executes a program, a set temperature value of the air conditioner may be detected; if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the air conditioner to increase the target temperature value in the refrigeration mode at preset time intervals until the target temperature value reaches the first target temperature value; and if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the second target temperature value.

Optionally, when the processor executes the program, if the set temperature value is greater than a fourth temperature value, the processor may control the air conditioner to execute the cooling mode based on the set temperature value.

Optionally, when the processor executes a program, a set temperature value of the air conditioner may be detected; if the set temperature value is greater than or equal to a fifth temperature value and the set temperature value is less than or equal to a sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a third target temperature value; if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value; and if the set temperature value is greater than a ninth temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to be reduced at preset time intervals until the target temperature value reaches a fifth target temperature value.

Optionally, when the processor executes the program, if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, the air conditioner may be controlled to execute the heating mode based on the set temperature value.

Optionally, when the processor executes the program, the processor may further control the air conditioner to continuously perform left-right air sweeping and/or up-down air sweeping; controlling the air conditioner to execute left-right air sweeping for a first preset number of times and/or up-down air sweeping for a second preset number of times at preset air sweeping intervals; and controlling the air deflector of the air conditioner to reach the target position.

Optionally, when the processor executes a program, the processor may further control an outlet air temperature value of the air conditioner to keep dynamically changing, where the dynamically changing includes at least one of: first rising and then falling, and first falling and then rising.

Optionally, when the processor executes the program, it may further monitor whether the user leaves the target space through an intelligent sensor, where the intelligent sensor includes at least one of: infrared sensors, pyroelectric sensors; if the user leaves the target space, starting to record the leaving time of the user leaving the target space; judging whether the leaving time reaches the preset leaving time or not; and if the leaving time reaches the preset leaving time, re-monitoring whether the user enters the target space.

The present application further provides a computer program product adapted to perform a program for initializing the following method steps when executed on a data processing device: acquiring the staying time of a user in a target space; judging whether the residence time reaches a preset residence time or not; and controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, when the computer program product executes a program, it may further detect whether the target space is in a thermal equilibrium state; and if the target space is detected to be in the thermal balance state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the judgment result.

Optionally, when the computer program product executes a program, an indoor environment temperature value of the target space may also be detected; determining a first difference value between the indoor environment temperature value and a set temperature value; judging whether the first difference is smaller than or equal to a target difference; if the first difference is less than or equal to the target difference, determining that the target space is in the thermal equilibrium state.

Optionally, when the computer program product executes a program, the indoor environment temperature variation of the target space may also be obtained; judging whether the indoor environment temperature variation is smaller than or equal to a target variation; and if the indoor environment temperature variation is smaller than or equal to a target variation, determining that the target space is in the thermal equilibrium state.

Optionally, when the computer program product executes a program, the indoor environment temperature value of the target space may be detected every predetermined time interval; the indoor environment temperature variation amount is determined based on a plurality of detected indoor environment temperature values.

Optionally, when the computer program product executes a program, it may be further monitored whether the user enters the target space through an intelligent sensor, where the intelligent sensor includes at least one of: infrared sensors, pyroelectric sensors; and if the user enters the target space, starting to record the staying time of the user in the target space.

Optionally, when the computer program product executes a program, if the determination result indicates that the staying time reaches the predetermined staying time, the current operation mode of the air conditioner may be controlled according to the staying time.

Optionally, when the computer program product executes a program, a set temperature value of the air conditioner may be detected; if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the air conditioner to increase the target temperature value in the refrigeration mode at preset time intervals until the target temperature value reaches the first target temperature value; and if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the second target temperature value.

Optionally, when the computer program product executes a program, if the set temperature value is greater than a fourth temperature value, the air conditioner may be controlled to execute the cooling mode based on the set temperature value.

Optionally, when the computer program product executes a program, a set temperature value of the air conditioner may be detected; if the set temperature value is greater than or equal to a fifth temperature value and the set temperature value is less than or equal to a sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a third target temperature value; if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value; and if the set temperature value is greater than a ninth temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to be reduced at preset time intervals until the target temperature value reaches a fifth target temperature value.

Optionally, when the computer program product executes a program, if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, the air conditioner may be controlled to execute the heating mode based on the set temperature value.

Optionally, when the computer program product executes a program, the air conditioner may be further controlled to continuously perform left-right air sweeping and/or up-down air sweeping; controlling the air conditioner to execute left-right air sweeping for a first preset number of times and/or up-down air sweeping for a second preset number of times at preset air sweeping intervals; and controlling the air deflector of the air conditioner to reach the target position.

Optionally, when the computer program product executes a program, the air conditioner may further control an outlet air temperature value of the air conditioner to keep dynamically changing, where the dynamically changing includes at least one of: first rising and then falling, and first falling and then rising.

Optionally, when the computer program product executes a program, it may be further monitored whether the user leaves the target space through an intelligent sensor, where the intelligent sensor includes at least one of: infrared sensors, pyroelectric sensors; if the user leaves the target space, starting to record the leaving time of the user leaving the target space; judging whether the leaving time reaches the preset leaving time or not; and if the leaving time reaches the preset leaving time, re-monitoring whether the user enters the target space.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

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

acquiring the staying time of a user in a target space;

judging whether the residence time reaches a preset residence time or not;

and controlling the current operation mode of the air conditioner in the target space based on the judgment result.

2. The method as claimed in claim 1, wherein before controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further comprises:

detecting whether the target space is in a thermal equilibrium state;

and if the target space is detected to be in the heat balance state, executing the step of controlling the current operation mode of the air conditioner in the target space based on the judgment result.

3. The method of claim 2, wherein detecting whether the target space is in thermal equilibrium comprises:

detecting an indoor ambient temperature value of the target space;

determining a first difference value between the indoor environment temperature value and a set temperature value;

judging whether the first difference value is smaller than or equal to a target difference value;

and if the first difference is smaller than or equal to the target difference, determining that the target space is in the thermal equilibrium state.

4. The method of claim 2, wherein detecting whether the target space is in thermal equilibrium comprises:

acquiring the indoor environment temperature variation of the target space;

judging whether the indoor environment temperature variation is smaller than or equal to a target variation;

and if the indoor environment temperature variation is smaller than or equal to the target variation, determining that the target space is in the thermal equilibrium state.

5. The method of claim 4, wherein obtaining the indoor ambient temperature variation of the target space comprises:

detecting an indoor ambient temperature value of the target space every predetermined time interval;

determining the indoor environment temperature variation amount based on a plurality of detected indoor environment temperature values.

6. The method of claim 1, wherein prior to obtaining the user's dwell time within the target space, the method further comprises:

monitoring whether the user enters the target space through a smart sensor, wherein the smart sensor comprises at least one of: infrared sensors, pyroelectric sensors;

and if the situation that the user enters the target space is monitored, starting to record the staying time of the user in the target space.

7. The method of claim 1, wherein controlling the current operation mode of the air conditioner in the target space based on the determination result comprises:

and if the judgment result indicates that the retention time reaches the preset retention time, controlling the current operation mode of the air conditioner according to the retention time.

8. The method as claimed in claim 1, wherein the controlling the current operation mode of the air conditioner according to the stay time in case that the current operation mode is a cooling mode comprises:

detecting a set temperature value of the air conditioner;

if the set temperature value is greater than or equal to a first temperature value and the set temperature value is less than or equal to a second temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the first target temperature value;

and if the set temperature value is greater than or equal to the second temperature value and the set temperature value is less than or equal to a third temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to rise at preset time intervals until the target temperature value reaches the second target temperature value.

9. The method of claim 8, wherein if the set temperature value is greater than a fourth temperature value, controlling the air conditioner to perform the cooling mode based on the set temperature value.

10. The method of claim 1, wherein controlling the current operation mode of the air conditioner according to the stay time in case that the current operation mode is a heating mode comprises:

detecting a set temperature value of the air conditioner;

if the set temperature value is greater than or equal to a fifth temperature value and the set temperature value is less than or equal to a sixth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a third target temperature value;

if the set temperature value is greater than a seventh temperature value and the set temperature value is less than or equal to an eighth temperature value, controlling the target temperature value of the air conditioner in the heating mode to rise at preset time intervals until the target temperature value reaches a fourth target temperature value;

and if the set temperature value is greater than a ninth temperature value, controlling the target temperature value of the air conditioner in the refrigeration mode to be reduced at preset time intervals until the target temperature value reaches a fifth target temperature value.

11. The method of claim 10, wherein if the set temperature value is greater than a tenth temperature value and the set temperature value is less than or equal to an eleventh temperature value, controlling the air conditioner to perform the heating mode based on the set temperature value.

12. The method of claim 1, wherein controlling the current operation mode of the air conditioner according to the stay time in case that the current operation mode is a wind sweeping mode comprises at least one of:

controlling the air conditioner to continuously execute left-right air sweeping and/or up-down air sweeping;

controlling the air conditioner to execute left-right air sweeping for a first preset time and/or up-down air sweeping for a second preset time at preset air sweeping intervals;

and controlling an air deflector of the air conditioner to reach a target position.

13. The method as claimed in claim 1, wherein controlling the current operation mode of the air conditioner according to the stay time comprises:

controlling the air outlet temperature value of the air conditioner to keep dynamically changing, wherein the dynamically changing comprises at least one of the following: first rising and then falling, and first falling and then rising.

14. The method according to claim 1, wherein after controlling the current operation mode of the air conditioner in the target space based on the determination result, the method further comprises:

monitoring whether the user leaves the target space by a smart sensor, wherein the smart sensor comprises at least one of: infrared sensors, pyroelectric sensors;

if the user is monitored to leave the target space, starting to record the leaving time of the user leaving the target space;

judging whether the leaving time reaches a preset leaving time or not;

and if the leaving time reaches the preset leaving time, re-monitoring whether the user enters the target space.

15. A storage medium characterized by comprising a stored program, wherein an apparatus in which the storage medium is located is controlled to perform the method of controlling an air conditioner according to any one of claims 1 to 14 when the program is executed.

16. A processor, characterized in that the processor is configured to run a program, wherein the program is run to perform the method of controlling an air conditioner according to any one of claims 1 to 14.