CN103900210B - A kind of method and air-conditioning of remote reserved starting air-conditioning - Google Patents

Abstract

This application provides the method and air-conditioning of a kind of remote reserved starting air-conditioning, to solve air-conditioning existing in the prior art cannot remote reserved starting the technical issues of, realize the technical effect that remotely can also reserve starting air-conditioning.The described method includes: receiving first reservation time information sent with the server that the air-conditioning is established in the network for having the electronic equipment of communication connection or the air-conditioning to be connect by the information receiving module；The starting time of the air-conditioning is determined based on first reservation time information；When current time is the starting time, start the air-conditioning.Present invention also provides a kind of air-conditionings using the above method.

Description

Method for starting air conditioner through remote reservation and air conditioner

Technical Field

The invention relates to the technical field of electronics, in particular to a method for starting an air conditioner through remote reservation and the air conditioner.

Background

Before the 20 th century, people endure summer heat and winter coldness, and people have no luxury prospect of changing the indoor temperature in one day. In 1906, the air conditioner came out to realize a dream of people for many years.

Air conditioning, also known as air conditioning, refers to a device that adjusts parameters such as temperature, humidity, and the like of ambient air inside a building by manual means. In our lives, air conditioners have become one of the indispensable electric appliances for people to work and live.

Now, there are generally two methods for starting the air conditioner. First, after the air conditioner is powered on, a user clicks a power button on the air conditioner main body or the air conditioner remote controller to start the air conditioner. In addition, after a period of time, the air conditioner has a reserved starting/stopping function, and a user sets reserved time on the air conditioner main body or the air conditioner remote controller to start or stop the air conditioner.

However, in the prior art, the starting of the air conditioner is reserved on the premise that the user is indoors or in a case of being close to the air conditioner, when the user is far away from the air conditioner, for example, the user cannot reserve the starting of the air conditioner when the distance is 1km, and the air conditioner cannot be started intelligently. Therefore, the prior art has the technical problem that the air conditioner can not be started by remote reservation.

Disclosure of Invention

The application provides a method for starting an air conditioner in a remote reservation mode and the air conditioner, which are used for solving the technical problem that the air conditioner in the prior art cannot be started in a remote reservation mode and achieving the technical effect that the air conditioner can be started in a remote reservation mode.

On the one hand, the application provides a method for starting an air conditioner through remote reservation, which is applied to the air conditioner, the air conditioner comprises an air conditioner main body and is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigerating according to a control instruction, an information receiving module is arranged on the air conditioner main body, and the method comprises the following steps of:

receiving first reservation time information sent by an electronic device which establishes communication connection with the air conditioner or a server in a network connected with the air conditioner through the information receiving module;

determining a starting time of the air conditioner based on the first reserved time information;

and when the current time is the starting time, starting the air conditioner.

In another aspect, the present application provides an air conditioner including:

the air conditioner main body is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigerating according to a control instruction;

the air conditioner comprises an air conditioner main body, an information receiving module and a control module, wherein the air conditioner main body is used for receiving first reservation time information sent by an electronic device which is in communication connection with the air conditioner or a server in a network connected with the air conditioner;

the microprocessor is arranged on the air conditioner main body, is connected with the information receiving module and is used for determining the starting time of the air conditioner based on the first reserved time information; and when the current time is the starting time, starting the air conditioner.

In another aspect, there is provided an air conditioner including:

the air conditioner main body is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigerating according to a control instruction;

the information receiving module is used for receiving first reservation time information sent by an electronic device which is in communication connection with the air conditioner or a server in a network connected with the air conditioner;

a microprocessor for determining a starting time of the air conditioner based on the first reservation time information; and when the current time is the starting time, starting the air conditioner.

One or more technical solutions in the embodiments of the present application have at least one or more of the following technical effects:

1. in the technical scheme of this application, at first through information receiving module receive one with the air conditioner establish communication connection's electronic equipment or the first reservation time information that the server in the network that the air conditioner is connected sent, then confirm based on first reservation time information the start-up time of air conditioner starts at last when the current time does during the start-up time, has solved the technical problem that the air conditioner that exists among the prior art can not long-range reservation start-up, has realized also can reserving the technical effect of starting the air conditioner through electronic equipment or server are long-range.

Drawings

Fig. 1 is a flowchart of a method for remotely starting an air conditioner according to a first embodiment of the present application;

fig. 2 is a schematic structural diagram of an air conditioner in the second embodiment of the present application.

Detailed Description

The application provides a method for starting an air conditioner in a remote reservation mode and the air conditioner, which are used for solving the technical problem that the air conditioner in the prior art cannot be started in a remote reservation mode and achieving the technical effect that the air conditioner can be started in a remote reservation mode.

In order to solve the above problems, the technical scheme provided by the present application has the following general idea:

receiving first reservation time information sent by an electronic device which establishes communication connection with the air conditioner or a server in a network connected with the air conditioner through the information receiving module;

determining a starting time of the air conditioner based on the first reserved time information;

and when the current time is the starting time, starting the air conditioner.

The technical solutions of the present invention are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present invention are described in detail in the technical solutions of the present application, and are not limited to the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

The first embodiment is as follows:

before the method of the embodiment of the present application is described, an air conditioner to which the method of the embodiment of the present application is applied will be described. The air conditioner includes:

the air conditioner main body 1 is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigeration according to a control instruction;

the information receiving module 2 is arranged on the air conditioner main body 1 and used for receiving first reservation time information sent by an electronic device which is in communication connection with the air conditioner or a server in a network connected with the air conditioner;

the microprocessor 3 is arranged on the air conditioner main body 1, connected with the information receiving module 2 and used for determining the starting time of the air conditioner based on the first reserved time information; and when the current time is the starting time, starting the air conditioner.

Referring to fig. 1, a method for remotely starting an air conditioner with a reservation in an embodiment of the present application includes:

s1: and receiving first reserved time information sent by an electronic device which establishes communication connection with the air conditioner or a server in a network connected with the air conditioner through the information receiving module.

Specifically, in the embodiment of the present application, the first scheduled time may be actively transmitted by the user, or the air conditioner may intelligently obtain some information to obtain the first scheduled time, which will be described below.

The first method comprises the following steps: automatic reservation of air conditioner

If the air conditioner is reserved, the air conditioner needs to acquire or obtain some information about the user, for example, the user usually gets to home at 18:30, or the user usually turns on the air conditioner at 11 o' clock, the current geographical location of the user, etc., which is described below by taking the geographical information of the user as an example, and is not limited to automatic reservation through the geographical information in the specific implementation process. The method specifically comprises the following steps:

the information receiving module receives first geographic information which is sent by the electronic equipment or the server and used for representing the geographic position of the electronic equipment;

and determining to obtain the first reservation time information according to the first geographic information.

First, a positioning module in an electronic device positions first geographic information of a user, wherein the first geographic information comprises a geographic position and a moving speed. If the electronic equipment and the air conditioner can directly establish communication connection, the air conditioner can directly send a request for obtaining the first geographic information to the electronic equipment, and the electronic equipment sends the first geographic information to the air conditioner after receiving the request. If the electronic equipment and the air conditioner can not be directly connected, the air conditioner can firstly send the request to a server in the network where the air conditioner is located, the server sends the request for obtaining the first geographic information to the electronic equipment, and after the electronic equipment sends the first geographic information to the server, the server feeds the first geographic information back to the air conditioner.

For example, the first geographic information received by the air conditioner indicates that the user is 3 kilometers away from the air conditioner at the moment, the average moving speed is 300m per minute, the air conditioner calculates that the user arrives at home after about 10min, and then the first appointment time information is determined as the current time; or the average moving speed is 90m per minute, the air conditioner calculates that the user arrives at home after about 33min, and then the first scheduled time information is determined to be 10 minutes later than the current time.

The first method comprises the following steps: passive reservation of air conditioner

When the user actively sends the required reservation time to the air conditioner, the air conditioner is in passive reservation. The first reservation time at this time is: and the electronic equipment or the server sends first selection information corresponding to selection operations of the user on the electronic equipment aiming at the first time option, the second time option, the third time option and the fourth time option.

That is, when the user needs to reserve the start of the air conditioner by himself, a first time option, a second time option, a third time option, and a fourth time option appear on an electronic device interface of the user, where the four time options correspond to different reservation times, for example, the first time option is "arriving home after 10 minutes", the second time option is "arriving home after 20 minutes", the third time option is "arriving home after 30 minutes", the fourth time option is "arriving home after more than 30 minutes, and a specific time is requested to be input", or a time thereof, which is not necessarily exemplified herein. The four time options may be options in reservation software which is downloaded from a server of a network where the air conditioner is located and can be matched with the air conditioner used by the user before the user makes a reservation, or may be options downloaded directly from a microprocessor of the air conditioner by the user, and the application is not particularly limited.

After the user sees the four time options, one time option is selected according to the needs and habits of the user, and the user directly sends the option or sends the option to the air conditioner through the server.

S2: and determining the starting time of the air conditioner based on the first reserved time information.

Since the air conditioner needs to consider factors such as room temperature, power and the like in the specific implementation process for determining the starting time, three possibilities are possible:

1) and determining a first time earlier than the first reservation time as the starting time based on the first reservation time information.

For example, the air conditioner determines that 26 degrees is required after 20 minutes of starting, but the room temperature is 30 degrees at this time, and 20 minutes is required for reducing to 26 degrees, whereas the user's first scheduled time is 17:00 and the current time is 16:00, then the starting time is determined to be 16: 50.

2) And determining the first reserved time as the starting time based on the first reserved time information.

In this case, that is, whatever the first reservation of the user, the air conditioner strictly performs the selection of the user, and determines that the first reservation time is the starting time.

3) And determining a second time later than the first reserved time as the starting time based on the first reserved time information.

For example, if the first scheduled time of the user is the current time, but the current room temperature is 26 degrees, which is a relatively comfortable temperature, the air conditioner determines the start time to be 10 minutes later than the current time in order to reduce power consumption.

Next, after the start time is determined, the air conditioner can be started. In this embodiment of the present application, it is further required to determine a target temperature value after air starting, which specifically includes:

judging whether a first temperature value of the environment where the air conditioner is located is larger than or equal to a first threshold value or not and whether an outdoor second temperature value is larger than or equal to a second threshold value or not, and obtaining a first judgment result;

and when the first judgment result is yes, determining to start the air conditioner, and simultaneously determining that the temperature value required to be reached after heating or refrigerating is a first target temperature value.

Or judging whether the first temperature value is less than or equal to a third threshold value and whether the second temperature value is less than or equal to the third threshold value, and obtaining a second judgment result;

and when the second judgment result is yes, determining to start the air conditioner, and simultaneously determining that the temperature value required to be achieved through heating or refrigerating is a second target temperature value different from the first target temperature value.

Specifically, when the user cannot set the target temperature value, the air conditioner may automatically determine the target temperature value according to the current temperature value of the environment where the air conditioner is located. In order to explain the above-described process of automatically determining the target temperature value, specific numbers will be exemplified below, but in the concrete implementation, neither the first target temperature value, the second target temperature value, the first temperature value, etc. are limited to the numbers in the following examples.

If the outdoor temperature is more than or equal to 26 ℃ and the indoor temperature is more than or equal to 26 ℃, automatically setting the target temperature value after the appointment starting to be 26 ℃; and when the outdoor temperature is less than or equal to 21 ℃ and the indoor temperature is less than or equal to 22 ℃, automatically setting the target temperature value after the reserved start to be 20 ℃. In such an arrangement, the first and second thresholds are 26 degrees, the first target temperature value is 26 degrees, the third threshold is 21 degrees, the fourth threshold is 22 degrees, and the second target temperature value is 20 degrees. The setting can be built in the air conditioner, the air conditioner can determine the target temperature value after obtaining the indoor and outdoor temperature, or the setting can be uploaded to the server, so that the air conditioner sends the indoor and outdoor temperature to the server, and the server determines and returns the target temperature value.

Assuming that the first temperature value at this time is 30 degrees and the second target temperature value is 32 degrees, determining that the target position value is 26 degrees; if the first temperature value is 16 degrees and the second target temperature value is 19 degrees, the target position value is determined to be the second temperature value of 20 degrees.

Of course, the user may set the target temperature value and send the target temperature value to the air conditioner or the server when sending the first scheduled time information, which is not limited in this application.

Further, when the air conditioner is to be started, the air conditioner can send the first information to be started to the electronic equipment or the server to inform the user, and then the user can return the first confirmation information to indicate that the user confirms to start the air conditioner by combining the actual situation of the user after receiving the first information. Of course, when the user does not need to start the air conditioner, the first change information may be fed back to cancel or change the start time.

Next, step S3 is executed.

S3: and when the current time is the starting time, starting the air conditioner.

Since the air conditioner has various options for the passive reservation, the starting modes of the various options are different, and the following will be specifically described:

1) starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first scheduled time is within the first time period, the air conditioner is started in a high power mode.

2) Starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time is within a second time period, starting the air conditioner in an energy-saving mode;

when the running time enters the first time period, the air conditioner is switched from the energy-saving mode to the high-power mode.

3) Starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a third time period, starting the air conditioner in the energy-saving mode;

when the operation time enters the second time period, the air conditioner is switched from the energy saving mode to the high power mode.

4) Starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a fourth time period, starting the air conditioner in an energy-saving mode at the starting time;

when the operation time enters the second time period, the air conditioner is switched from the energy saving mode to the high power mode.

And after receiving the first confirmation information, the user confirms that the air conditioner is started at the moment, and then the air conditioner is started according to the confirmed first target temperature or second temperature value.

For convenience of description, it is assumed that the first scheduled time t of the user is "after 10 minutes to home" as the first time option, "after 20 minutes to home" as the second time option, "after 30 minutes to home" as the third time option, and "after 30 minutes to home" as the fourth time option, and the specific time request input "is taken as an example for description. And t is more than or equal to 0 and less than or equal to 10 in the first time period, t is more than or equal to 10 and less than or equal to 20 in the second time period, t is more than or equal to 20 and less than or equal to 30 in the third time period, and t is more than or equal to 30 in the fourth time period.

1) Assuming that the user selects the first time option, the air conditioner is activated in the high power mode to rapidly heat or cool in order to have a comfortable temperature after 10 minutes, i.e., when the user arrives at home.

2) Assuming that the user selects the second time option, the first scheduled time is within the second time period, and the air conditioner has a comfortable temperature after 20 minutes, that is, when the user arrives at home, and is capable of sufficiently saving energy, the air conditioner is operated in the energy saving mode when the operation time of the air conditioner is within the second time period, and is rapidly heated or cooled in the high power mode when the operation time enters the first time period. That is, the air conditioner is operated in the energy saving mode for the first 10 minutes and in the high power mode for the last 10 minutes.

2) Assuming that the user selects the third time option, the first scheduled time is within the third time period, and the air conditioner has a comfortable temperature after 30 minutes, that is, when the user arrives at home, and is capable of sufficiently saving energy, the air conditioner is operated in the energy saving mode when the operation time of the air conditioner is within the third time period, and is rapidly heated or cooled in the high power mode when the operation time enters the second time period. That is, the air conditioner is operated in the energy saving mode for the first 10 minutes and in the high power mode for the last 20 minutes.

4) Assuming that the user selects the fourth time option, the first scheduled time is within the fourth time period, and the user enters the air conditioner 35 minutes later, then the air conditioner has a comfortable temperature after 35 minutes, that is, when the user arrives at home, and the air conditioner can sufficiently save energy, then count down 5 minutes on the electronic device of the user, when the count down is finished, the electronic device starts the air conditioner by sending a start instruction to the air conditioner directly or through the server, then when the running time of the air conditioner is within the third time period, the air conditioner is operated in the energy saving mode, and when the running time enters the second time period, the air conditioner is rapidly heated or cooled in the high power mode. That is, the air conditioner is operated in the energy saving mode for the first 10 minutes and in the high power mode for the last 20 minutes.

Example two:

referring to fig. 2, the present embodiment provides an air conditioner, including:

the air conditioner main body 1 is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigeration according to a control instruction;

the information receiving module 2 is arranged on the air conditioner main body 1 and used for receiving first reservation time information sent by an electronic device which is in communication connection with the air conditioner or a server in a network connected with the air conditioner;

the microprocessor 3 is arranged on the air conditioner main body 1, connected with the information receiving module 2 and used for determining the starting time of the air conditioner based on the first reserved time information; and when the current time is the starting time, starting the air conditioner.

In this embodiment of the present application, the information receiving module 2 is specifically configured to:

receiving first geographic information which is sent by the electronic equipment or the server and used for representing the geographic position of the electronic equipment;

the microprocessor 3 specifically determines to obtain the first appointment time information according to the first geographic information.

Determining a first time earlier than a first reservation time as the starting time based on the first reservation time information; or

Determining the first reserved time as the starting time based on the first reserved time information; or

And determining a second time later than the first reserved time as the starting time based on the first reserved time information.

When the current time is the starting time and before the air conditioner is started, judging whether a first temperature value of the environment where the air conditioner is located is larger than or equal to a first threshold value or not and whether an outdoor second temperature value is larger than or equal to a second threshold value or not, and obtaining a first judgment result;

and when the first judgment result is yes, determining to start the air conditioner, and simultaneously determining that the temperature value required to be reached after heating or refrigerating is a first target temperature value.

Or when the current time is the starting time and before the air conditioner is started, judging whether the first temperature value is less than or equal to a third threshold value and whether the second temperature value is less than or equal to the third threshold value, and obtaining a second judgment result;

and when the second judgment result is yes, determining to start the air conditioner, and simultaneously determining that the temperature value required to be achieved through heating or refrigerating is a second target temperature value different from the first target temperature value.

Further, the air conditioner in the embodiment of the present application further includes:

the information sending module is arranged on the air conditioner main body 1, connected with the microprocessor 3 and used for sending first information representing that the air conditioner is about to be started to the electronic equipment or the server before the air conditioner is determined to be started;

the information receiving module 2 is further configured to receive first confirmation information sent by the electronic device or the server based on the first information.

Further, the microprocessor 3 is specifically configured to:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first scheduled time is within the first time period, the air conditioner is started in a high power mode.

Or starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time is within a second time period, starting the air conditioner in an energy-saving mode;

when the running time enters the first time period, the air conditioner is switched from the energy-saving mode to the high-power mode.

Or starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a third time period, starting the air conditioner in the energy-saving mode;

when the operation time enters the second time period, the air conditioner is switched from the energy saving mode to the high power mode.

Or starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a fourth time period, starting the air conditioner in an energy-saving mode at the starting time;

when the operation time enters the second time period, the air conditioner is switched from the energy saving mode to the high power mode.

Since the second embodiment and the first embodiment are based on the same inventive concept, the repeated parts are not repeated.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (16)

1. The utility model provides a method for long-range reservation starts air conditioner, is applied to an air conditioner, the air conditioner includes an air conditioner main part, is used for according to control command, through heating or refrigeration, to the temperature of the environment that the air conditioner is located adjusts, its characterized in that, information receiving module sets up in the air conditioner main part, the method includes:

receiving first reservation time information sent by an electronic device which establishes communication connection with the air conditioner or a server in a network connected with the air conditioner through the information receiving module;

determining a starting time of the air conditioner based on the first reserved time information;

when the current time is the starting time, starting the air conditioner;

wherein determining the starting time of the air conditioner based on the first reservation time information includes: determining a first time earlier than a first reservation time as the starting time based on the first reservation time information; or determining the first reserved time as the starting time based on the first reserved time information; or determining a second time later than the first appointment time as the starting time based on the first appointment time information;

wherein, before the air conditioner is started when the current time is the starting time, the method further comprises: judging whether a first temperature value of the environment where the air conditioner is located is greater than or equal to a first threshold value or not and whether an outdoor second temperature value is greater than or equal to a second threshold value or not, obtaining a first judgment result, determining to start the air conditioner when the first judgment result is yes, and simultaneously determining that a temperature value which needs to be reached after heating or cooling is a first target temperature value; or,

before the starting the air conditioner when the current time is the starting time, the method further comprises the following steps: and judging whether the first temperature value is less than or equal to a third threshold value or not and whether the second temperature value is less than or equal to the third threshold value or not, obtaining a second judgment result, determining to start the air conditioner when the second judgment result is yes, and simultaneously determining that the temperature value required to be achieved through heating or refrigerating is a second target temperature value different from the first target temperature value.

2. The method according to claim 1, wherein the receiving, by the information receiving module, first scheduled time information sent by an electronic device that establishes a communication connection with the air conditioner or a server in a network to which the air conditioner is connected is specifically:

the information receiving module receives first geographic information which is sent by the electronic equipment or the server and used for representing the geographic position of the electronic equipment;

and determining to obtain the first reservation time information according to the first geographic information.

3. The method of claim 1, wherein the first subscription information is specifically:

and the electronic equipment or the server sends first selection information corresponding to selection operations of the user on the electronic equipment aiming at the first time option, the second time option, the third time option and the fourth time option.

4. The method of claim 1, wherein prior to the determining to activate the air conditioner, the method further comprises:

sending first information representing that the air conditioner is about to start to the electronic equipment or the server;

and receiving first confirmation information sent by the electronic equipment or the server based on the first information.

5. The method according to claim 4, wherein when the current time is the start time, starting the air conditioner specifically comprises:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first scheduled time is within the first time period, the air conditioner is started in a high power mode.

6. The method according to claim 4, wherein when the current time is the start time, starting the air conditioner specifically comprises:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time is within a second time period, starting the air conditioner in an energy-saving mode;

when the running time enters the first time period, the air conditioner is switched from the energy-saving mode to a high-power mode.

7. The method according to claim 4, wherein when the current time is the start time, starting the air conditioner specifically comprises:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a third time period, starting the air conditioner in the energy-saving mode;

when the running time enters the second time period, the air conditioner is switched from the energy-saving mode to a high-power mode.

8. The method according to claim 4, wherein when the current time is the start time, starting the air conditioner specifically comprises:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a fourth time period, starting the air conditioner in an energy-saving mode at the starting time;

when the running time enters the second time period, the air conditioner is switched from the energy-saving mode to a high-power mode.

9. An air conditioner, comprising:

the air conditioner main body is used for adjusting the temperature of the environment where the air conditioner is located through heating or refrigerating according to a control instruction;

the air conditioner comprises an air conditioner main body, an information receiving module and a control module, wherein the air conditioner main body is used for receiving first reservation time information sent by an electronic device which is in communication connection with the air conditioner or a server in a network connected with the air conditioner;

the microprocessor is arranged on the air conditioner main body, is connected with the information receiving module and is used for determining the starting time of the air conditioner based on the first reserved time information; when the current time is the starting time, starting the air conditioner;

wherein the microprocessor is specifically configured to: determining a first time earlier than a first reservation time as the starting time based on the first reservation time information; or determining the first reserved time as the starting time based on the first reserved time information; or determining a second time later than the first appointment time as the starting time based on the first appointment time information;

wherein the microprocessor is further specifically configured to: when the current time is the starting time and before the air conditioner is started, judging whether a first temperature value of the environment where the air conditioner is located is larger than or equal to a first threshold value or not and whether an outdoor second temperature value is larger than or equal to a second threshold value or not, obtaining a first judgment result, when the first judgment result is yes, determining that the air conditioner is started, and simultaneously determining that a temperature value which needs to be reached after heating or refrigerating is a first target temperature value; or,

the microprocessor is further specifically configured to: when the current time is the starting time and before the air conditioner is started, judging whether the first temperature value is smaller than or equal to a third threshold value or not and whether the second temperature value is smaller than or equal to a third threshold value or not, obtaining a second judgment result, when the second judgment result is yes, determining to start the air conditioner, and simultaneously determining that the temperature value required to be achieved through heating or refrigerating is a second target temperature value different from the first target temperature value.

10. The air conditioner according to claim 9, wherein the information receiving module is specifically configured to:

receiving first geographic information which is sent by the electronic equipment or the server and used for representing the geographic position of the electronic equipment;

the microprocessor is specifically configured to determine to obtain the first appointment time information according to the first geographic information.

11. The air conditioner according to claim 9, wherein the first reservation information is specifically:

and the electronic equipment or the server sends first selection information corresponding to selection operations of the user on the electronic equipment aiming at the first time option, the second time option, the third time option and the fourth time option.

12. The air conditioner according to claim 9, further comprising:

the information sending module is arranged on the air conditioner main body, connected with the microprocessor and used for sending first information representing that the air conditioner is about to be started to the electronic equipment or the server before the air conditioner is determined to be started;

the information receiving module is further configured to receive first confirmation information sent by the electronic device or the server based on the first information.

13. The air conditioner of claim 12, wherein the microprocessor is specifically configured to:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first scheduled time is within the first time period, the air conditioner is started in a high power mode.

14. The air conditioner of claim 12, wherein the microprocessor is specifically configured to:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time is within a second time period, starting the air conditioner in an energy-saving mode;

when the running time enters the first time period, the air conditioner is switched from the energy-saving mode to a high-power mode.

15. The air conditioner of claim 12, wherein the microprocessor is specifically configured to:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a third time period, starting the air conditioner in the energy-saving mode;

when the running time enters the second time period, the air conditioner is switched from the energy-saving mode to a high-power mode.

16. The air conditioner of claim 12, wherein the microprocessor is specifically configured to:

starting with the first target temperature value or the second target temperature value based on the first confirmation information;

when the first reserved time information is in a fourth time period, starting the air conditioner in an energy-saving mode at the starting time;

when the running time enters the second time period, the air conditioner is switched from the energy-saving mode to a high-power mode.