CN112050382A - System, method and device for automatically controlling air conditioner based on position - Google Patents

Abstract

The invention provides a system for automatically controlling an air conditioner based on position, which comprises: the user agent equipment is used for tracking the current position of the user and sending corresponding user position data to the computing equipment; the air conditioner accessory is used for controlling the on-off state and temperature of the air conditioner and sending an opening signal, a closing signal, an air conditioner temperature signal, a refrigerating signal and/or a heating signal to the air conditioner; and the computing device is used for analyzing the relative position of the user and the air conditioning accessory and providing the air conditioning state suggestion to the air conditioning accessory. The invention also provides a method for automatically controlling the air conditioner based on the position and a device for automatically controlling the air conditioner based on the position, which can solve the problem of automatic control of the existing air conditioner or intelligent air conditioner so as to save energy, save time of a user and provide a comfortable environment for the user.

Description

System, method and device for automatically controlling air conditioner based on position

Technical Field

The invention relates to the field of smart home and the technical field of air conditioner control, in particular to a system, a method and a device for automatically controlling an air conditioner based on a position.

Background

Conventionally, user interaction with the air conditioner is performed through a remote controller. The air conditioner can only work according to a preset mode, and the optimal working state of the air conditioner cannot be adjusted according to the indoor specific condition, the position information of the user, the health condition of the user and personal preference. The air conditioner can only be turned off when the user participates in the interaction, which may result in energy waste, such as forgetting to turn off the air conditioner when the user goes out. Therefore, the current air conditioner is not humanized and intelligent enough.

Disclosure of Invention

In view of this, the present invention provides a system, a method and a device for automatically controlling an air conditioner based on location, which aims to solve the problem of automatic control of the existing air conditioner or intelligent air conditioner, so as to save energy, save user time and provide a comfortable environment for users.

In a first aspect of the present invention, there is provided a system for automatically controlling an air conditioner based on location, comprising:

the user agent equipment is used for tracking the current position of the user and sending corresponding user position data to the computing equipment;

the air conditioner accessory is used for controlling the on-off state and temperature of the air conditioner and sending an opening signal, a closing signal, an air conditioner temperature signal, a refrigerating signal and/or a heating signal to the air conditioner;

and the computing device is used for analyzing the relative position of the user and the air conditioning accessory and providing the air conditioning state suggestion to the air conditioning accessory.

Preferably, the user agent device comprises a user agent module, the air conditioner accessory comprises an air conditioner control module, and the computing device comprises a computing and analyzing module.

In a second aspect of the present invention, there is provided a method for automatically controlling an air conditioner based on location, comprising the steps of:

the calculation analysis module receives an air conditioner position notice sent by the air conditioner control module, wherein the air conditioner position notice comprises air conditioner position information, acquisition time information and air conditioner identification information;

the calculation analysis module receives a user position notice sent by the user agent module;

the calculation analysis module receives the indoor temperature announcement sent by the air conditioner control module;

the calculation analysis module calculates an air conditioner state suggestion according to the current known information;

the air conditioner control module receives and judges the air conditioner state suggestion sent by the calculation and analysis module, if the air conditioner state suggestion meets the requirement, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

In a third aspect of the present invention, there is provided a method for automatically controlling an air conditioner based on location, comprising the steps of:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the calculation analysis module receives an air conditioner position notice sent by the user agent module, wherein the air conditioner position notice comprises air conditioner position information, acquisition time information and air conditioner identification information;

the calculation analysis module receives a user position notice sent by the user agent module;

the calculation analysis module receives the indoor temperature announcement sent by the air conditioner control module;

the calculation analysis module calculates an air conditioner state suggestion according to the current known information;

the user agent module receives the air conditioner state suggestion sent by the calculation analysis module;

the user agent module forwards the air conditioner state suggestion to the air conditioner control module, the air conditioner control module receives and judges the air conditioner state suggestion sent by the user agent module, and if the air conditioner state suggestion meets the judgment requirement, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

In a fourth aspect of the present invention, there is provided a method for automatically controlling an air conditioner based on location, comprising the steps of:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the user agent module receives the indoor temperature notice sent by the air conditioner control module;

the user agent module calculates an air conditioner state suggestion according to the current known information;

the air conditioner control module receives and judges the air conditioner state suggestion sent by the user agent module, if the air conditioner state suggestion meets the requirements, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

In a fifth aspect of the present invention, there is provided a method for automatically controlling an air conditioner based on location, comprising the steps of:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the air conditioner control module receives an air conditioner position notice sent by the user agent module, wherein the air conditioner position notice comprises air conditioner position information, acquisition time information and air conditioner identification information;

the air conditioner control module receives a user position notice sent by the user agent module;

the air conditioner control module calculates an air conditioner state suggestion according to the current known information and directly converts the air conditioner state suggestion into an air conditioner signal instruction;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

In a sixth aspect of the present invention, there is provided a location-based apparatus for automatically controlling an air conditioner, comprising:

the first temperature sensor is used for acquiring indoor temperature information;

the first receiving unit is used for receiving the air conditioner state suggestion sent by the calculation analysis module;

the first processing unit is used for judging whether the air-conditioning state suggestion has the authority and is safely executed according to the air-conditioning state suggestion, the user identification, the equipment identification and/or the binding relationship between the user and the equipment, and if the air-conditioning state suggestion has the authority and can be safely executed, calculating a final air-conditioning command;

and the first execution unit is used for sending a final air conditioner command to the air conditioner and sending an air conditioner position notice and/or an indoor temperature notice to the calculation analysis module and/or the user agent module.

Preferably, the air-conditioning state suggestion includes an optimal air-conditioning temperature suitable for the user, suggested air-conditioning state information, target air-conditioning identification information, user identification information, and time information; the air conditioning commands include: an on signal, an off signal, an air conditioner temperature signal, a cooling signal, and/or a heating signal.

Preferably, the device further comprises a position sensor, and the position sensor is used for acquiring the position information of the device.

The invention has the following beneficial effects:

1. the invention calculates the optimal air conditioner temperature and/or air conditioner state suggestion suitable for the user or the user group according to the position information of the user and the position information of the air conditioner. Can save energy, save time of users and provide comfortable environment for users.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic diagram of a system for automatically controlling an air conditioner based on location according to embodiment 1 of the present invention;

fig. 2 is a flowchart of a method for automatically controlling an air conditioner based on location according to embodiment 2 of the present invention;

fig. 3 is a flowchart of a method for automatically controlling an air conditioner based on location according to embodiment 3 of the present invention;

fig. 4 is a flowchart of a method for automatically controlling an air conditioner based on location according to embodiment 4 of the present invention;

fig. 5 is a flowchart of a method for automatically controlling an air conditioner based on location according to embodiment 5 of the present invention.

Detailed Description

The technical solution of the present invention is further described below with reference to specific examples, but the present invention is not limited to the contents of the examples in any way.

Example 1

As shown in fig. 1, a system for automatically controlling an air conditioner based on location, includes:

a user agent device, the user agent device 102 being the primary carrier of the user agent module 104. User agent device 102 generally refers to a location-enabled device that user 106 may wear with him, suitable user agent devices including, but not limited to, cell phones or location-enabled smart bands, sports bands, and other wearable smart devices. The user agent module 104 may obtain current location information of the user using a location function of the user agent device. The user agent module 104 may reside in the user agent device 102 in software or separately as a wearable smart product. A user agent module 104, configured to track a current location of a user and send corresponding user location data to the calculation and analysis module 116;

air conditioning accessory, air conditioning accessory 108, is the primary carrier for air conditioning control module 110. The air conditioning control module 110 mainly includes a temperature sensor, a first receiving unit, a first processing unit, and a first executing unit. The climate control module 110 may also include a position sensor. The air conditioner control module 110 is configured to control an on-off state and temperature of an air conditioner, and send an on signal, an off signal, an air conditioner temperature signal, a cooling signal, and/or a heating signal to the air conditioner. The climate control module 110 may be integrated into the air conditioner itself, or into other devices, including but not limited to televisions, routers, and refrigerators, or exist separately as an air conditioning accessory;

computing device, computing device 114 is the primary carrier of computational analysis module 116. Computing device 114 may be any suitable computing device. Suitable computing devices include personal computers, portable computers, mobile devices, network terminals, workstations, servers, and other suitable electronic devices. The computational analysis module 116 may exist as a cloud service or be integrated directly into the terminal intelligence product or device. The calculation analysis module 116 is configured to analyze a relative position between the user and the air conditioning control module 110 (in this embodiment, the position of the air conditioning control module 110 is consistent with that of the air conditioner 112), and provide an air conditioning state suggestion to the air conditioning control module 110;

the system shown in fig. 1 is interconnected by a communication network 118. The communication network 118 includes the internet, wide area networks, local area networks, VPNs, telephone networks, wireless networks, ZigBee, and other networks constructed by suitable network technologies.

Example 2

The embodiment is mainly applicable to the case where the air conditioner control module 110 has a positioning function or the air conditioner accessory 108 has a positioning function, as shown in fig. 2, a method for automatically controlling an air conditioner based on a location includes:

200, receiving an air conditioner position notice sent by an air conditioner control module by a calculation analysis module, wherein the air conditioner position notice comprises air conditioner position information, acquisition time information and air conditioner identification information;

step 202, the calculation and analysis module receives a user location announcement sent by the user agent module, where the user location announcement includes but is not limited to: user current location information, user identification information, and time information. The location information may be geographic location information (e.g., latitude and longitude information), or logical location information (e.g., room, area), or any information that may identify a user's location;

and step 204, the calculation and analysis module receives the indoor temperature notice sent by the air conditioner control module. The indoor temperature bulletin comprises indoor temperature information, acquisition time information and air conditioner identification information;

when receiving information, the calculation analysis module firstly judges the legality of an information sender and the validity and the reasonability of the information;

in step 206, the calculation and analysis module calculates the air conditioner state suggestion according to the current known information. The currently known information includes, but is not limited to, current location information of the user and/or user group, historical location information of the user and/or user group, air conditioner location information, indoor temperature information, air conditioner historical status information, health status and preference information of the user and/or user group. The air-conditioning state suggestion comprises the optimal air-conditioning temperature suitable for the user, suggested air-conditioning state information, target air-conditioning identification information, user identification information and time information;

in step 208, the air conditioner control module receives the air conditioner state suggestion sent by the calculation and analysis module. The climate control module determines whether the climate status recommendation is from an authorized entity and is legitimate. If the air conditioner state suggestion is from an authorized entity and is reasonable, the air conditioner control module converts the air conditioner state suggestion into an air conditioner signal instruction, and the air conditioner control module sends the air conditioner signal instruction to the air conditioner;

and step 210, the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

Example 3

The embodiment is mainly applicable to the situation that the air conditioner control module 110 has no positioning function or the air conditioner accessory 108 has no positioning function. In this case, the user manually sets the air conditioner location information through the user agent module on site by means of the device having the location function. This solution is possible because the position of the air conditioner is relatively fixed. As shown in fig. 3, a method for automatically controlling an air conditioner based on location includes:

step 300, a user manually sets air conditioner position information through a user agent module on the air conditioner site by means of equipment with a positioning function, or the user manually sets air conditioner position information through the user agent module on the air conditioner site by means of user agent equipment with the positioning function;

step 302, the calculation and analysis module receives the air conditioner location announcement sent by the user agent module. The air conditioner position bulletin comprises air conditioner position information, acquisition time information and air conditioner identification information;

step 304, the calculation and analysis module receives the user location announcement sent by the user agent module, where the user location announcement includes but is not limited to: user current location information, user identification information, and time information. The location information may be geographic location information (e.g., latitude and longitude information), or logical location information (e.g., room, area), or any information that may identify a user's location;

and step 306, the calculation and analysis module receives the indoor temperature notice sent by the air conditioner control module. The indoor temperature bulletin comprises indoor temperature information, acquisition time information and air conditioner identification information;

when receiving information, the calculation analysis module firstly judges the legality of an information sender and the validity and the reasonability of the information;

in step 308, the calculation and analysis module calculates the air conditioner state suggestion according to the current known information. The currently known information includes, but is not limited to, current location information of the user and/or user group, historical location information of the user and/or user group, air conditioner location information, indoor temperature information, air conditioner historical status information, health status and preference information of the user and/or user group. The air-conditioning state suggestion comprises the optimal air-conditioning temperature suitable for the user, suggested air-conditioning state information, target air-conditioning identification information, user identification information and time information;

step 310, the user agent module receives the air conditioner state suggestion sent by the calculation and analysis module;

in step 312, the user agent module forwards the air conditioning status suggestion to the air conditioning control module. The climate control module determines whether the climate status recommendation is from an authorized entity and is legitimate. If the air conditioner state suggestion is from an authorized entity and is reasonable, the air conditioner control module converts the air conditioner state suggestion into an air conditioner signal instruction, and the air conditioner control module sends the air conditioner signal instruction to an air conditioner;

and step 314, the air conditioner receives the air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

The embodiment of the invention also supports the calculation analysis module to directly send the air conditioner state suggestion to the air conditioner control module.

Example 4

The embodiment is mainly suitable for the situation that the local area network is available. In this embodiment, the user agent module also takes on the functions taken on by the calculation and analysis module in the second embodiment. As shown in fig. 4, a method for automatically controlling an air conditioner based on location includes:

step 400, a user manually sets air conditioner position information through a user agent module on the air conditioner site by means of a device with a positioning function, or the user manually sets air conditioner position information through the user agent module on the air conditioner site by means of a user agent device with a positioning function;

in step 402, the user agent module receives an indoor temperature announcement sent by the air conditioner control module. The indoor temperature bulletin comprises indoor temperature information, acquisition time information and/or air conditioner identification information;

in step 404, the user agent module calculates an air conditioning state recommendation based on the current known information. The currently known information includes, but is not limited to, current location information of the user and/or user group, historical location information of the user and/or user group, air conditioner location information, indoor temperature information, air conditioner historical status information, health status and preference information of the user and/or user group. The air conditioning state suggestion includes an optimal air conditioning temperature suitable for a user, suggested air conditioning state information, target air conditioning identification information, user identification information, and/or time information.

In step 406, the air conditioner control module receives the air conditioner status suggestion sent by the user agent module. The climate control module determines whether the climate status recommendation is from an authorized entity and is legitimate. If the air conditioning state suggestion is from an authorized entity and is reasonable, the air conditioning control module converts the air conditioning state suggestion into an air conditioning signal instruction, and the air conditioning control module sends the air conditioning signal instruction to the air conditioner.

And step 408, the air conditioner receives the air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

Example 5

The embodiment is suitable for the case that the local area network is available. In this embodiment, the air conditioner control module also takes on the functions taken on by the calculation and analysis module in the second embodiment. As shown in fig. 5, a method for automatically controlling an air conditioner based on location includes:

step 500, a user manually sets air conditioner position information through a user agent module on the air conditioner site by means of equipment with a positioning function, or the user manually sets air conditioner position information through the user agent module on the air conditioner site by means of user agent equipment with the positioning function;

step 502, the air conditioner control module receives the air conditioner location announcement sent by the user agent module. The air conditioner position bulletin comprises air conditioner position information, acquisition time information and air conditioner identification information;

in step 504, the air conditioner control module receives the user location announcement sent by the user agent module. User location announcements include, but are not limited to: user current location information, user identification information, and time information. The location information may be geographic location information (e.g., latitude and longitude information), or logical location information (e.g., room, area), or any information that may identify a user's location;

in step 506, the air conditioner control module calculates an air conditioner state recommendation based on the currently known information. The calculation process of the air conditioning state suggestion is the same as the calculation process in step 404 of the fourth embodiment. The air conditioner control module directly converts the air conditioner state suggestion into an air conditioner signal instruction;

and step 508, the air conditioner receives the air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

In example 4 and example 5, it is also supported that the position information of the air conditioner is provided by the air conditioner control module or the air conditioner accessory, and the resulting flow change is within the scope of the embodiments.

Example 6

An apparatus for automatically controlling an air conditioner based on location, comprising:

the first temperature sensor is used for acquiring indoor temperature information;

the first receiving unit is used for receiving the air-conditioning state suggestion sent by the calculation and analysis module, and the air-conditioning state suggestion comprises the optimal air-conditioning temperature suitable for a user, suggested air-conditioning state information, target air-conditioning identification information, user identification information and time information;

the first processing unit is used for judging whether the air conditioning state suggestion has the authority and is safely executed according to the air conditioning state suggestion, the user identification, the equipment identification and/or the binding relationship between the user and the equipment, and if the air conditioning state suggestion has the authority and is legal and reasonable, the air conditioning state suggestion can be safely executed, and then the final air conditioning command is calculated;

a first execution unit, configured to send a final air conditioning command to an air conditioner, where the air conditioning command includes: an opening signal, a closing signal, an air conditioner temperature signal, a refrigeration signal and/or a heating signal; the system comprises a calculation analysis module and/or a user agent module, wherein the calculation analysis module is used for calculating the indoor temperature of the air conditioner;

the embodiment of the invention provides a device for automatically controlling an air conditioner based on a position, which further comprises a position sensor, wherein the position sensor is used for acquiring the position information of the device so as to calculate or judge the position information of the air conditioner, or automatically calculating the state suggestion of the air conditioner according to the position data of the device.

Although the present invention has been described herein with reference to the illustrated embodiments thereof, which are intended to be preferred embodiments of the present invention, it is to be understood that the invention is not limited thereto, and that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure.

Claims (10)

1. A system for automatically controlling an air conditioner based on a location, comprising:

the user agent equipment is used for tracking the current position of the user and sending corresponding user position data to the computing equipment;

the air conditioner accessory is used for controlling the on-off state and temperature of the air conditioner and sending an opening signal, a closing signal, an air conditioner temperature signal, a refrigerating signal and/or a heating signal to the air conditioner;

and the computing device is used for analyzing the relative position of the user and the air conditioning accessory and providing the air conditioning state suggestion to the air conditioning accessory.

2. The system of claim 1, wherein the user agent device comprises a user agent module, the air conditioning accessory comprises an air conditioning control module, and the computing device comprises a computational analysis module.

3. A method for automatically controlling an air conditioner based on a position is characterized by comprising the following steps:

the calculation analysis module receives the air conditioner position notice sent by the air conditioner control module;

the calculation analysis module receives a user position notice sent by the user agent module;

the calculation analysis module receives the indoor temperature announcement sent by the air conditioner control module;

the calculation analysis module calculates an air conditioner state suggestion according to the current known information;

the air conditioner control module receives and judges the air conditioner state suggestion sent by the calculation and analysis module, if the air conditioner state suggestion meets the requirement, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

4. A method for automatically controlling an air conditioner based on a position is characterized by comprising the following steps:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the calculation analysis module receives the air conditioner position notice sent by the user agent module;

the calculation analysis module receives a user position notice sent by the user agent module;

the calculation analysis module receives the indoor temperature announcement sent by the air conditioner control module;

the calculation analysis module calculates an air conditioner state suggestion according to the current known information;

the user agent module receives the air conditioner state suggestion sent by the calculation analysis module;

the user agent module forwards the air conditioner state suggestion to the air conditioner control module, the air conditioner control module receives and judges the air conditioner state suggestion sent by the user agent module, and if the air conditioner state suggestion meets the judgment requirement, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

5. A method for automatically controlling an air conditioner based on a position is characterized by comprising the following steps:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the user agent module receives the indoor temperature notice sent by the air conditioner control module;

the user agent module calculates an air conditioner state suggestion according to the current known information;

the air conditioner control module receives and judges the air conditioner state suggestion sent by the user agent module, if the air conditioner state suggestion meets the requirements, the air conditioner state suggestion is converted into an air conditioner signal instruction, and the air conditioner signal instruction is sent to the air conditioner;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

6. A method for automatically controlling an air conditioner based on a position is characterized by comprising the following steps:

the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the equipment with the positioning function, or the user sets the air conditioner position information manually through the user agent module on the air conditioner site by means of the user agent equipment with the positioning function;

the air conditioner control module receives an air conditioner position notice sent by the user agent module;

the air conditioner control module receives a user position notice sent by the user agent module;

the air conditioner control module calculates an air conditioner state suggestion according to the current known information and directly converts the air conditioner state suggestion into an air conditioner signal instruction;

the air conditioner receives an air conditioner signal instruction sent by the air conditioner control module and executes the air conditioner signal instruction.

7. The method of any one of claims 3, 4 and 6, wherein the announcement of the air conditioner location comprises information of the air conditioner location, information of collection time, and information of identification of the air conditioner.

8. A device for automatically controlling an air conditioner based on a location, comprising:

the first temperature sensor is used for acquiring indoor temperature information;

the first receiving unit is used for receiving the air conditioner state suggestion sent by the calculation analysis module;

the first processing unit is used for judging whether the air-conditioning state suggestion has the authority and is safely executed according to the air-conditioning state suggestion, the user identification, the equipment identification and/or the binding relationship between the user and the equipment, and if the air-conditioning state suggestion has the authority and can be safely executed, calculating a final air-conditioning command;

and the first execution unit is used for sending a final air conditioner command to the air conditioner and sending an air conditioner position notice and/or an indoor temperature notice to the calculation analysis module and/or the user agent module.

9. The apparatus of claim 8, wherein the air-conditioning state suggestion includes an optimal air-conditioning temperature suitable for a user, suggested air-conditioning state information, target air-conditioning identification information, user identification information, time information; the air conditioning commands include: an on signal, an off signal, an air conditioner temperature signal, a cooling signal, and/or a heating signal.

10. The apparatus of claim 8, further comprising a position sensor for collecting position information of the apparatus.

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