CN113669859B - Air conditioning system, control method of air conditioning system, and computer readable medium - Google Patents

Abstract

The present invention relates to an air conditioning system comprising: an air conditioner having an indoor temperature sensor for detecting an indoor temperature; a portable terminal carried by a user of the air conditioner; and a relay device that exchanges information between the air conditioner and the portable terminal via a network, and that, when a guard mode of the air conditioning system is set to on, pushes a first notification indicating that the air conditioning system is in a guard state to the portable terminal every first predetermined time, regardless of a condition whether the air conditioner triggers automatic operation. Therefore, the user can feel comfortable, and the user experience of the air conditioning system can be improved.

Description

Air conditioning system, control method of air conditioning system, and computer readable medium

Technical Field

The invention relates to an air conditioning system and a control method thereof, which can push guard mode information to a user even if the indoor temperature does not reach above a preset high temperature threshold or below a preset low temperature threshold, thereby bringing the user with a sense of security and improving the user experience of the air conditioning system.

Background

Conventionally, the following air conditioning systems have been disclosed: a user can receive high-temperature information in different places by using one smartphone by registering a plurality of air conditioners located in different places such as his/her own home, parents' home, and workplace in advance. That is, in the conventional air conditioning system, information about the indoor air conditioner is displayed on the smartphone, and when the indoor temperature reaches a set high temperature state, a high temperature prompt notification can be transmitted to the user on the smartphone.

For example, patent document 1 discloses the following: the air conditioning system is provided with: air conditioners having an indoor temperature sensor for detecting an indoor temperature; a portable terminal carried by a user of the air conditioner; and an information relay device for exchanging information between the air conditioner and the mobile terminal via a public line. The air-conditioning management program installed in the portable terminal can cause an image including information on the plurality of registered air conditioners to be displayed on a display screen of the portable terminal. When it is determined that the room is in a predetermined high temperature state based on the detection result of the indoor temperature sensor of the registered air conditioner, the information relay device sends a push notification of high temperature information corresponding to the determination result to the portable terminal.

Documents of the prior art

Patent document 1: CN105793651B

However, in the above patent document 1, when the indoor temperature does not reach the set high temperature state, no message is sent to the user, and at this time, the user cannot know the situation in the place where the user is concerned, for example, the user's own home, the parent, or the work place, so that the user feels uneasy and the user experience with respect to the air conditioning system is greatly reduced.

Disclosure of Invention

Technical scheme for solving technical problems

The present invention has been made in view of the above problems, and an object of the present invention is to provide an air conditioning system and a control method thereof, which can provide a user with a sense of security by pushing guard mode information to the user even if the indoor temperature does not reach a preset high temperature threshold or lower, and which can improve the user experience with respect to the air conditioning system.

A first aspect of an air conditioning system according to the present invention includes: an air conditioner having an indoor temperature sensor for detecting an indoor temperature; a portable terminal carried by a user of the air conditioner; and a relay device that exchanges information between the air conditioner and the portable terminal via a network, and that, when a guard mode of the air conditioning system is set to on, pushes a first notification indicating that the air conditioning system is in a guard state to the portable terminal every first predetermined time regardless of a condition whether the air conditioner triggers automatic operation.

In the second aspect of the air conditioning system according to the present invention, in the first aspect, it is preferable that the air conditioner is automatically operated to cool or heat the room at the operation target temperature so that the room temperature is lower than the high temperature threshold or higher than the low temperature threshold when the room temperature sensor detects that the room temperature is equal to or higher than the preset high temperature threshold or lower than the low temperature threshold.

In the second aspect of the air conditioning system according to the present invention, it is preferable that when the indoor temperature sensor detects that the indoor temperature is equal to or higher than a preset high temperature threshold value or equal to or lower than a preset low temperature threshold value, a second notification indicating that the air conditioner is automatically operated while the indoor temperature is in a high temperature state or a low temperature state is pushed to the mobile terminal.

In the fourth aspect of the air conditioning system according to the present invention, in the first to third aspects, it is preferable that the guard mode is terminated and the air conditioner stops operating when a preset guard time of the guard mode is reached.

In the fourth aspect of the air conditioning system according to the present invention, it is preferable that a third notification indicating that the guard time has been reached and the operation of the air conditioner has been stopped is pushed to the mobile terminal when a guard time of the guard mode set in advance is reached.

In a sixth aspect of the control method for an air conditioning system according to the present invention, the air conditioning system includes: an air conditioner having an indoor temperature sensor for detecting an indoor temperature; a portable terminal carried by a user of the air conditioner; and a relay device that exchanges information between the air conditioner and the mobile terminal via a network, the method for controlling the air conditioning system comprising the steps of: when a guard mode of the air conditioning system is set to be on, a first notification indicating that the air conditioning system is in a guard state is pushed to the portable terminal every first predetermined time regardless of a condition whether the air conditioner triggers automatic operation.

In the seventh aspect of the control method for an air conditioning system according to the present invention, in the sixth aspect, it is preferable that the method further includes: when the indoor temperature sensor detects that the indoor temperature is higher than or equal to a preset high-temperature threshold or lower than a preset low-temperature threshold, the air conditioner automatically operates to operate a target temperature for cooling or heating, so that the indoor temperature is lower than the high-temperature threshold or higher than the low-temperature threshold.

An eighth aspect of the control method of an air conditioning system according to the present invention in the seventh aspect preferably further includes the steps of: and when the indoor temperature sensor detects that the indoor temperature is higher than or equal to a preset high-temperature threshold or lower than a preset low-temperature threshold, pushing a second notice to the portable terminal, wherein the second notice indicates that the indoor temperature is in a high-temperature state or a low-temperature state and the air conditioner automatically operates.

A ninth aspect of the control method of an air conditioning system according to the present invention is the sixth to eighth aspects, further including: and when the preset guard time of the guard mode is reached, the guard mode is terminated, and the air conditioner stops running.

A tenth aspect of the control method of an air conditioning system according to the present invention in the ninth aspect preferably further includes the steps of: and when the preset guard time of the guard mode is reached, pushing a third notice to the portable terminal, wherein the third notice indicates that the guard time is reached and the air conditioner stops running.

An eleventh aspect of the computer-readable medium according to the present invention is a computer-readable medium storing a program for executing the method for controlling an air conditioning system described in the sixth to tenth aspects.

Effects of the invention

In the air conditioning system, the guarding mode information is pushed to the user even if the indoor temperature does not reach the preset high temperature threshold value or the preset low temperature threshold value, so that the air conditioning system can bring a sense of security to the user and can improve the user experience of the air conditioning system.

Drawings

Fig. 1 is a block diagram for explaining an overall structure of an air conditioning system of the present invention.

Fig. 2 is a schematic view showing one example of the overall structure of the air conditioning system of the present invention.

Fig. 3 is a sequence diagram showing an example of the state of the guard function, the state of the air conditioner, and the push notification in each state of the air conditioning system of the present invention.

Fig. 4 is a first flowchart showing an example of specific steps of the guard mode control method of the air conditioning system of the present invention.

Fig. 5 is a second flowchart showing one example of specific steps of the guard mode control method of the air conditioning system of the present invention.

Fig. 6A is a schematic diagram showing a state where the daemon function of the air conditioning system of the present invention is turned off on the APP of the portable terminal, and fig. 6B is a schematic diagram showing a state where the daemon function of the air conditioning system of the present invention is turned on the APP of the portable terminal.

Fig. 7 is a schematic diagram showing a case where a guard period is set on the APP of the portable terminal.

Detailed Description

Preferred embodiments of an air conditioning system according to the present invention will be described below with reference to the accompanying drawings. In the drawings, the same or corresponding portions are denoted by the same reference numerals.

< overall Structure >

Fig. 1 is a block diagram for explaining the overall structure of an air conditioning system of the present invention. Fig. 2 is a schematic view showing one example of the overall structure of the air conditioning system of the present invention.

As shown in fig. 1, an air conditioning system 10 according to the present invention includes, for example, an air conditioner 100, a relay device 200, a mobile terminal 300, and a cloud server 400.

The cloud server 400 is not essential, and the air conditioning system of the present invention may not include the cloud server 400.

The air conditioner 100 includes, for example, a compressor, a condenser, an evaporator, a four-way valve, and the like, and is capable of adjusting parameters such as the temperature and humidity of the indoor ambient air, and the air conditioner 100 includes an indoor temperature sensor 101 that detects the indoor temperature. The air conditioner 100 may be a wall-mounted air conditioner, a cabinet air conditioner, a window air conditioner, a ceiling air conditioner, or the like, and is not particularly limited.

As shown in fig. 2, the relay device 200 includes, for example, an adapter connected to the air conditioner 100, a wireless router installed in a room, and a network (e.g., LTE, 3G/4G, public wireless LAN). The adapter may be connected to the air conditioning substrate as a separate component or may be integrated with the air conditioning substrate, and is not particularly limited. The air conditioner 100, the mobile terminal 300, and the cloud server 400 can exchange information with each other through the relay device 200. Further, the configuration of relay device 200 is not particularly limited as long as it can exchange information among air conditioner 100, mobile terminal 300, and cloud server 400.

The mobile terminal 300 may be a mobile device such as a mobile phone, a tablet computer, or a notebook computer that is carried by a user. The portable terminal 300 may receive information from the air conditioner 100 or the cloud server 400 via the relay device 200, and may transmit information to the air conditioner 100 or the cloud server 400 via the relay device 200.

The cloud server 400 is installed, for example, on the operator side of the air conditioning system, and can collectively manage data exchange between a plurality of air conditioners and a plurality of mobile terminals. For example, although fig. 1 shows a case where the guard mode information of one air conditioner is pushed to one portable terminal, the present invention is equally applicable to the following case: that is, the case of pushing the guard mode information of one air conditioner to a plurality of portable terminals; a situation that the guard mode information of a plurality of air conditioners is pushed to a portable terminal; or the guard mode information of a plurality of air conditioners is pushed to a plurality of portable terminals. In this case, the cloud server 400 can collectively manage data exchange between the plurality of air conditioners and the plurality of mobile terminals.

< control logic >

Fig. 3 is a sequence diagram showing an example of the state of the guard function, the state of the air conditioner, and the push notification in each state of the air conditioning system of the present invention. Next, a control logic of the air conditioning system according to the present invention will be described with reference to fig. 3.

First, a user may select an air conditioner to be maintained through an APP on the mobile terminal 300, and after selecting the air conditioner to be maintained, the APP enters a maintenance mode interface. In the daemon mode interface, a user can set the daemon mode to be turned on or off.

When the user sets the daemon mode to be closed, the daemon function is closed, and options in a daemon mode interface are displayed in grey.

When the user sets the guard mode to be started, the user can set the guard time length by himself, and can further set the temperature of the high temperature prompt or the low temperature prompt by himself, and after the temperature setting is finished, the following two choices can be further made.

(1) Only push notifications.

When the user selects "push only notification", if the indoor temperature detected by the indoor temperature sensor 101 is equal to or higher than a preset high temperature threshold or equal to or lower than a preset low temperature threshold, the high temperature notification or the low temperature notification is pushed to the user as a short message through the APP in the mobile terminal 300. For example:

the room temperature is below 5 ℃ and the current room temperature is 3 ℃.

(2) Push notifications and run.

In the case where the user selects "push notification and go", as shown in fig. 3, a notification (1) is pushed to the user every 24 hours, for example, "mitsubishi motor air conditioner keeps your guard". Therefore, the user can be prompted that the air conditioner is in the guard state regardless of the condition whether the air conditioner triggers the automatic operation.

In fig. 3, at 24 hours after the guard mode is turned on, the first notification (1) -1 is pushed to the user, and at this time, although the air conditioner does not trigger the condition of automatic operation, that is, the indoor temperature does not reach the preset high temperature threshold or lower than the preset low temperature threshold, the notification (1) -1 that the mitsubishi motor air conditioner is continuously guarded is still pushed to the user, so that the user can feel a sense of security, and the user experience of the air conditioning system can be improved.

In fig. 3, a second notification (1) -2 and a third notification (1) -3 of "mitsubishi motor air conditioner is continuously guarded by you" are pushed to the user at 48 th and 72 th hours after the guard mode is turned on, respectively, and the air conditioner is already in the state of automatic operation when the second notification (1) -2 and the third notification (1) -3 are pushed to the user.

Here, the interval of pushing is set to 24 hours, but is not limited thereto, and the interval may be arbitrarily set by the user.

When the indoor temperature detected by the indoor temperature sensor 101 is equal to or higher than a preset high temperature threshold or equal to or lower than a low temperature threshold, a notification (2) is pushed to the user in the form of a short message through the APP in the mobile terminal 300, for example, "the room is in a high temperature state, the air conditioner is on" or "the room is in a low temperature state, the air conditioner is on". Therefore, the user can be prompted that the indoor temperature is in a high temperature state or a low temperature state, and meanwhile, the air conditioner automatically operates to operate the target temperature to cool or heat so that the indoor temperature is lower than a high temperature threshold value or higher than a low temperature threshold value.

In fig. 3, for example, at the 30 th hour after the guard mode is turned on, when the indoor temperature reaches the preset high temperature threshold or lower or the low temperature threshold, the air conditioner automatically operates to cool or heat the room at the operation target temperature so that the indoor temperature is lower than the high temperature threshold or higher than the low temperature threshold, and a notification of "the room is in the high temperature state, the air conditioner is turned on" or "the room is in the low temperature state, the air conditioner is turned on" is pushed to the user (2).

The high temperature indication temperature (high temperature threshold) can be set by the user, and can be set, for example, in the range of 28 to 35 ℃ (the temperature range is not particularly limited). As an example, if the user selects the high temperature cue temperature (high temperature threshold) to be 30 ℃, when the indoor temperature reaches the high temperature cue temperature 30 ℃ or more, the air conditioner triggers the automatic operation condition to operate with refrigeration of 28 ℃ (an example of the operation target temperature, which is not particularly limited), when the indoor temperature reaches 28 ℃, the air conditioner enters the low frequency operation (low power consumption) to maintain the indoor temperature to be 30 ℃ lower than the high temperature cue temperature until the guard time is reached, the guard is finished, and the air conditioner is turned off.

The low temperature presentation temperature (low temperature threshold) can be set by a user, and for example, can be set in a range of 5 to 10 ℃ (the temperature range is not particularly limited). As an example, if the user selects the low temperature cue temperature (low temperature threshold) to be 8 ℃, when the indoor temperature reaches the low temperature cue temperature of 8 ℃ or less, the air conditioner triggers the automatic operation condition to operate at heating 17 ℃ (an example of the operation target temperature, which is not particularly limited), and when the indoor temperature reaches 17 ℃, the air conditioner enters the low frequency operation (low power consumption) to maintain the indoor temperature to be 8 ℃ higher than the low temperature cue temperature until the guard period is reached, the guard is finished, and the air conditioner is turned off.

In addition, the user can manually set the guard time of the guard mode. When the guard time set by the user is reached, the guard mode is terminated and the air conditioner is stopped. At this time, a notification (3) is pushed to the user, for example, "the room is guarded by you for days, the air conditioner is closed", and the user is prompted that the guard time is reached and the air conditioner is turned off. For example, when the guard time of the guard mode manually set by the user is 3 days and 2 hours, when the guard time set by the user is reached, a notification (3) that "the room is guarded for 3 days and 2 hours and the air conditioner is off" is pushed to the user.

In fig. 3, at 96 th hour after the guard mode is turned on, the guard time set by the user is reached, the guard mode is terminated, the air conditioner is in a stopped state, and at this time, a notification of "the room is guarded for you for 4 days and 0 hour, and the air conditioner is turned off" is pushed to the user (3).

In addition, after the guard mode is started, within the guard time length set by the user, if the user manually closes the guard mode, the guard mode is terminated, and at this time, the air conditioner becomes a stopped state.

After the guard mode is started, if the user manually selects to start the modes of cooling, heating, dehumidifying, air supplying and the like within the guard time set by the user, the guard mode is terminated, and at the moment, the air conditioner is operated in the mode selected by the user.

After the guard mode is started, within the guard time length set by the user, if the user manually changes conditions such as high-temperature prompt temperature or low-temperature prompt temperature, the guard mode continues to operate under the changed conditions or operates again under the changed conditions.

Here, as an example of "continue operation", for example, it is assumed that the user has set the guard time period to be 3 days and the high temperature indication temperature to be 30 ℃, and after operating in the guard mode for 1 day, if the user changes the high temperature indication temperature to 33 ℃, the guard mode continues to operate at the changed temperature for 2 days. As an example of "rerun", for example, it is assumed that the user has set the guard period to be 3 days and the high temperature prompt temperature to be 30 ℃, and after operating in the guard mode for 1 day, if the user changes the high temperature prompt temperature to 33 ℃, the guard mode is rerun at the changed temperature for 3 days. Here, whether to adopt "continuous operation" or "re-operation" is not particularly limited, and may be set in advance as necessary.

< explanation of the guard mode control method >

Fig. 4 is a first flowchart showing specific steps of one example of the guard mode control method of the air conditioning system of the present invention. Fig. 5 is a second flowchart showing specific steps of an example of the guard mode control method of the air conditioning system of the present invention. Next, specific steps of an example of the guard mode control method of the air conditioning system according to the present invention will be described in detail with reference to fig. 4 and 5.

First, in step ST102, it is determined whether or not the user has started the guard mode, and when it is determined that the guard mode has been started (ST 102; yes), the process proceeds to step ST103; if it is determined that the guard mode is not activated (ST 102; NO), the process proceeds to step ST104, and the guard mode control flow is terminated.

In step ST103, it is judged whether or not data relating to the high temperature/low temperature state is received, and when it is judged that data relating to the high temperature/low temperature state is received (ST 103; YES), the process proceeds to step ST105; when it is determined that the data on the high temperature/low temperature state is not received (ST 103; NO), the data on the high temperature/low temperature state continues to be received.

In step ST105, it is judged whether or not the user has selected "push only notification", and when it is judged that the user has selected "push only notification" (ST 105; YES), the process proceeds to step ST106; when it is determined that the user has not selected "push only notification" (ST 105; NO), the process proceeds to step ST201.

In step ST106, it is determined whether or not the indoor temperature is equal to or higher than the high temperature threshold value or lower than the low temperature threshold value, and if it is determined that the indoor temperature is equal to or higher than the high temperature threshold value or lower than the low temperature threshold value (ST 106; yes), the process proceeds to step ST107, a push notification "the indoor temperature is in the high temperature state or the low temperature state" is sent to the user, and if it is determined that the indoor temperature is equal to or higher than the high temperature threshold value or lower than the low temperature threshold value (ST 106; no), it is continuously determined whether or not the indoor temperature is equal to or higher than the high temperature threshold value or lower than the low temperature threshold value.

When it is determined that the user has not selected "push notification only" (ST 105; no), the process proceeds to step ST201, and then, in step ST202, it is determined that the user has selected "push notification and operation", and the process proceeds to step ST203. In step ST203, a notification of "mitsubishi motor air conditioner continuously guard for you" (1) is pushed to the user every 24 hours, for example, according to the guard time of the guard mode manually set by the user, and the process proceeds to step ST204.

In step ST204, it is determined whether or not the indoor temperature is equal to or higher than the high temperature threshold value or equal to or lower than the low temperature threshold value, and if it is determined that the indoor temperature is equal to or higher than the high temperature threshold value or equal to or lower than the low temperature threshold value (ST 204; yes), the process proceeds to step ST205, and if it is determined that the indoor temperature is equal to or higher than the high temperature threshold value or equal to or lower than the low temperature threshold value (ST 204; no), it is continuously determined whether or not the indoor temperature is equal to or higher than the high temperature threshold value or equal to or lower than the low temperature threshold value.

In step ST205, a notification (2) of "the room is in a high temperature state, the air conditioner is started" or "the room is in a low temperature state, the air conditioner is started" is pushed to the user, and the air conditioner is automatically operated to perform cooling or heating at the operation target temperature so that the indoor temperature is lower than the high temperature threshold or higher than the low temperature threshold.

Then, in step ST206, when the guard time set by the user is reached, the guard mode is terminated and the air conditioner is in a stopped state, and at this time, a notification of "the room is guarded for 4 days and 0 hours and the air conditioner is turned off" is pushed to the user (3).

< display on APP of Portable terminal >

Fig. 6A is a schematic diagram showing a state where the daemon function of the air conditioning system of the present invention is turned off on the APP of the portable terminal, and fig. 6B is a schematic diagram showing a state where the daemon function of the air conditioning system of the present invention is turned on the APP of the portable terminal. Fig. 7 is a schematic diagram showing a case where a guard period is set on an APP of a portable terminal.

As shown in fig. 6A and 6B, the guard mode is parallel to the cooling mode, the dehumidification mode, the heating mode, and the blowing mode, for example.

When the user does not turn on the daemon mode, as shown in FIG. 6A, the interface under the daemon option appears gray. When the user has turned on the daemon mode, as shown in FIG. 6B, the interface under the daemon option becomes: the user can set three options of "guard time length", "high temperature prompt", and "low temperature prompt", and can select "push only notification" or "push notification and run".

As an example, the upper limit of the guard time (guard time length) is, for example, 23 hours in 6 days, and the lower limit of the guard time is, for example, 1 hour, and as shown in fig. 7, the user can set the guard time with 1 hour as the minimum unit. Here, the upper limit and the lower limit of the guard time and the minimum unit of the guard time may be arbitrarily set in advance, and are not particularly limited.

The temperature set in the "high temperature presentation" option is the "high temperature threshold" in the above description, and the temperature set in the "low temperature presentation" option is the "low temperature threshold" in the above description.

In addition, when the user does not set the "high temperature indication" option or the "low temperature indication" option, the guard mode is automatically turned off.

In addition, after the guard mode is started, within the guard time set by the user, if the user manually closes the guard mode, the guard mode is terminated, the interface under the guard option becomes grey, and at this time, the air conditioner becomes a stopped state.

After the guard mode is started, if the user manually selects to start the modes such as 'refrigerating', 'heating', 'dehumidifying', 'blowing', etc. within the guard time set by the user, the guard mode is terminated, and at this time, the air conditioner is operated in the mode selected by the user.

After the guard mode is started, if the user manually changes conditions such as 'high temperature prompt' or 'low temperature prompt' within the guard time set by the user, the guard mode continues to operate with the changed conditions or operates again with the changed conditions.

Here, as an example of "continue operation", for example, it is assumed that the user has set the guard time period to be 3 days and the high temperature indication temperature to be 30 ℃, and after operating in the guard mode for 1 day, if the user changes the high temperature indication temperature to 33 ℃, the guard mode continues to operate at the changed temperature for 2 days. As an example of "rerun", for example, it is assumed that the user has set the guard period to be 3 days and the high temperature prompt temperature to be 30 ℃, and after operating in the guard mode for 1 day, if the user changes the high temperature prompt temperature to 33 ℃, the guard mode is rerun at the changed temperature for 3 days. Here, whether "continuous operation" or "re-operation" is adopted is not particularly limited, and may be set in advance as necessary.

< computer-readable Medium >

The computer readable medium of the present invention stores a program for executing the guard mode control method of the air conditioning system. The computer-readable medium is not particularly limited, and for example, a hard disk, an optical disk such as a CD-ROM/MO/MD/DVD/CD-R, a semiconductor memory such as an IC card, a mask ROM/EPROM/EEPROM/flash ROM, or the like can be used.

The foregoing detailed description has described only a few embodiments of the invention. Further modifications and improvements may be made by those skilled in the art without departing from the inventive concept, and are intended to be included within the scope of the invention.

Industrial applicability of the invention

The air conditioning system of the present invention can be applied to a case where a user is very conscious of the indoor temperature of his/her own home even when the user goes out, for example, when a pet is raised at home, a succulent plant is planted, and the like, and can bring a sense of security to the user and improve the user experience of the air conditioning system.

Description of the reference symbols

10. Air conditioning system

100. Air conditioner

101. Temperature sensor

200. Relay device

300. Portable terminal

400. And (4) a cloud server.

Claims (9)

1. An air conditioning system comprising:

an air conditioner having an indoor temperature sensor for detecting an indoor temperature;

a portable terminal carried by a user of the air conditioner; and

a relay device that exchanges information between the air conditioner and the mobile terminal via a network,

transmitting a first notification indicating that the air conditioning system is in a maintenance state to the portable terminal every a first predetermined time regardless of a condition whether the air conditioner triggers an automatic operation when a maintenance mode of the air conditioning system is set to on,

and under the condition that the guard mode is set to be started, when the indoor temperature sensor detects that the indoor temperature is higher than a preset high-temperature threshold or lower than a preset low-temperature threshold, the air conditioner automatically operates to operate a target temperature for cooling or heating so that the indoor temperature is lower than the high-temperature threshold or higher than the low-temperature threshold.

2. The air conditioning system of claim 1,

and when the indoor temperature sensor detects that the indoor temperature is higher than or equal to a preset high temperature threshold value or lower than a preset low temperature threshold value, pushing a second notice to the portable terminal, wherein the second notice indicates that the indoor temperature is in a high temperature state or a low temperature state and the air conditioner automatically operates.

3. Air conditioning system according to claim 1 or 2,

and when the preset guard time of the guard mode is reached, the guard mode is terminated, and the air conditioner stops running.

4. Air conditioning system according to claim 3,

and when the preset guard time of the guard mode is reached, pushing a third notice to the portable terminal, wherein the third notice indicates that the guard time is reached and the air conditioner stops running.

5. A control method of an air conditioning system, the air conditioning system comprising:

an air conditioner having an indoor temperature sensor for detecting an indoor temperature;

a portable terminal carried by a user of the air conditioner; and

a relay device that exchanges information between the air conditioner and the mobile terminal via a network,

the control method of the air conditioning system comprises the following steps:

transmitting a first notification indicating that the air conditioning system is in a maintenance state to the portable terminal every a first predetermined time regardless of a condition whether the air conditioner triggers an automatic operation when a maintenance mode of the air conditioning system is set to on,

and under the condition that the guard mode is set to be started, when the indoor temperature sensor detects that the indoor temperature is higher than a preset high-temperature threshold or lower than a preset low-temperature threshold, the air conditioner automatically operates to operate a target temperature for cooling or heating so that the indoor temperature is lower than the high-temperature threshold or higher than the low-temperature threshold.

6. The control method of an air conditioning system as claimed in claim 5, further comprising the steps of:

and when the indoor temperature sensor detects that the indoor temperature is higher than or equal to a preset high-temperature threshold or lower than a preset low-temperature threshold, pushing a second notice to the portable terminal, wherein the second notice indicates that the indoor temperature is in a high-temperature state or a low-temperature state and the air conditioner automatically operates.

7. The control method of an air conditioning system as set forth in claim 5 or 6, further comprising the steps of:

and when the preset guard time of the guard mode is reached, the guard mode is terminated, and the air conditioner stops running.

8. The control method of an air conditioning system as claimed in claim 7, further comprising the steps of:

and when the preset guard time of the guard mode is reached, pushing a third notice to the portable terminal, wherein the third notice indicates that the guard time is reached and the air conditioner stops running.

9. A computer-readable medium storing a program for executing the control method of an air conditioning system recited in claims 5 to 8.

Images